PROGRAMME BOOK
Open Science for Enhanced Global Environmental Protection
3–7 May 2020
Online Meeti ng Invitation for Nominations
Nominations open online until 31 December 2021 www.psipw.org e-mail: [email protected]
PSIPW 10th Ad A4_Final.indd 1 19/01/2020 11:48 AM Meeting Supporters 2 Welcome Message 3 Programme Committe 4
About SETAC 7 SETAC Europe Partners 8 SETAC Global Partners 9 Award Winners 10
Find Your Way 12 Networking 13 Tracks and Sessions 15
Daily Schedule Sunday 21 Monday 23 Tuesday 25 Wednesday 31 Thursday 35
On-Demand Programme 37
Exhibitors 96 Participants Index 105 Author Index 115 Policies 136 TABLE OF CONTENTS
SETAC Europe 30th Annual Meeting - SETAC SciCon 1 Thank You
To our meeting supporters for their generous contribution! Platinum
Gold
Bronze
2 twitter.com/SETAC_World #SETACSciCon WELCOME MESSAGE
The famous “luck of the Irish” – has it deserted SETAC? As Chairs of the Scientific and Local Organising Committee a large audience can often prevent us from being really for the SETAC Europe 30th Annual Meeting, we are writing in the moment, with speakers frequently having no this welcome note in the strangest of times – knowing recollection of what we said or the questions we were that we will be welcoming you to our virtual meeting in asked immediately following a presentation. Thus, the light of the rapidly evolving Covid-19 pandemic, instead of virtual presentation, especially where sessions are pre- Dublin as planned. The health and wellbeing of the SETAC recorded, provides us with opportunities for self-reflection Europe community is paramount, and thus the science and refinement of our approaches and our responses to communication and networking activities will happen audience questions. So, there may be a silver lining in this, within a novel and appealing virtual conference. This is our to enhance that arising from the low carbon footprint of a chance to show how successful a virtual conference can virtual meeting. be, but we need your support to achieve this. Among our many superstitions in Ireland, an enduring Despite the challenges, we are confident that the luck of one is the fear of upsetting the fairies, who have long the Irish, as symbolised by the shamrock, or 3-leaf clover, been blamed for stealing babies, playing pranks and will come through for the SETAC SciCon meeting and the causing disease. An article in the Irish Times in March 2014 SETAC Europe 30th birthday celebrations. According to indicated that even sensible solid bankers in Ireland still Irish legend, Saint Patrick used a shamrock in his mission believe in fairies. It goes on to discuss a national marketing to convert the pagan Irish to Christianity, explaining the initiative to re-invigorate Irish tourism in the wake of the mystery of the “Holy Trinity” by saying that from 1 stem economic crash by basically having a year-long party called comes three different leaves, so the Father, the Son and The Gathering, whereby the 70 million people claiming the Holy Spirit are one. The Irish shamrock is also a very Irish ancestry were invited home for a visit and the craic. fitting representation of SETAC’s tripartite composition The article says, “You don’t mess with the fairies. Did and mission, bringing together academia, industry and anyone think to invite them to the Gathering? For, as any regulators to collectively develop solutions to the global seanchaí will tell you, one bars fairies from a party at one’s environmental challenges. peril.” Without meaning to make light of the situation, which is bringing tragedy to families worldwide, it does Myth and folklore are central to the Irish ethos, and beg the question of whether we, as the SETAC Europe storytelling is a highly valued skill. Indeed, in medieval community and in particular the scientific and organising times, every important family had their own storyteller committees, remembered to invite the fairies to SETAC or historian, called a seanchaí, who collected and SciCon? Maybe not, and… will they have powers to get in passed information orally through storytelling from virtually? one generation to the next about Irish folklore, myth, history and legend. While traditionally storytelling was So we look to the coming weeks with hope, humour, and in small groups around the fire, with stories and legends an eye to the opportunities hidden in the upheaval for passed from grandparents to grandchildren, nowadays us as a community to innovate in how we deliver science even seanchaí are online. As scientists, we increasingly meetings. Although we are saying “fáilte” (welcome) understand the power of science communication and the virtually and raising a toast spiritually, we are looking need to tell a good story with our research. I am confident forward to excellent scientific discussions, a fantastic that this transition to a virtual meeting will provide us, as SETAC SciCon conference and to celebrating SETAC a scientific community, with opportunities to enhance our Europe’s 30th birthday. Thank you for sticking with us and storytelling and be more reflective on our performance helping us show the world how virtual conferences can be to ensure our audience remains engaged. Indeed, the a huge success…. adrenaline rush of the physical presentation in front of
Yours Sincerely,
Iseult Lynch Susana Loureiro Jeremy Piggott Meeting Chair Co-chair of the Scientific Committee Chair of the Local Organising Committee facebook.com/setacworld #SETACSciCon 3 Programme Committee
Chairs Scientific Committee Iseult Lynch, University of Birmingham, Ireland Alena Ševců, Technical University of Liberec, Czech Republic Jeremy Piggott, Trinity College Dublin, Ireland Anna Barra Caracciolo, IRSA-CNR, Italy Susana Loureiro, University of Aveiro, Portugal Annemette Palmqvist, Roskilde University, Denmark Gerd Maack, UBA, Germany Local Organising Committee Irene O’Callaghan, University College Cork, Ireland Craig Slattery, University College Dublin Jim Dowall, Enviroguide Consulting, Ireland Eleanor Jennings, Dundalk Institute of Technology Katie Reilly, University of Birmingham, United Kingdom Fiona Regan, Dublin City University Laura Golsteijn, Pré Consultants bv, Netherlands Marcin Penk, Trinity College Dublin Mark Egsmose, EFSA, Italy Mary Kelly-Quinn, University College Dublin Nico van den Brink, Wageningen University, Netherlands Simon O’Toole, Irish EPA Roland Hischier, EMPA, Switzerland Tara McMorrow, University College Dublin Roman Ashauer, Syngenta, Switzerland Stefania Loutseti, Syngenta, Greece Virginie Ducrot, Bayer, Germany Werner Brack, UFZ – Helmholtz Centre for Environmental Research, Germany Yannick Bayona, ANSES, France
SETAC SciCon Team
Bart Bosveld, Executive Director Dusty Kennedy, Communications Specialist Jason Andersen, IT Manager Barbara Koelman, Meeting Manager Sabine Barrett, Communications Manager Jen Lynch, Director of Publications Rebecca Bundschuh, Education Project Manager Tamar Schlekat, Scientific Affairs Manager Kelly Derom, Junior Communication Specialist Veerle Vandeveire, Finances & Registration Manager Roel Evens, Scientific Project Manager Ann Goubert, Membership Administration
And a special “thank you” to our colleagues for their constant support: Linda Fenner, Filip Gunst, Nikki Mayo, Charles Menzie, Terresa Murdoch, Greg Schiefer, Laura Swanson
4 scicon.setac.org We are celebrating SETAC Europe’s 30th Anniversary in pollution, preserving or restoring natural functions of an exciting, new, virtual way that will jump-start our soils, ground and surface water, contributing to the envisioned gradual transition to mixed-model meetings, development of sustainable chemicals, and contributing enabling both physical and online participation to reduce to transparent, effective and efficient risk assessment of travel on the one hand and to increase accessibility on the chemicals. other hand. We extend a special welcome to our Exhibitors who have Within three weeks, the organisers performed the taken on the adventure of building a booth in the first amazing feat of converting the physical #SETACDublin virtual SETAC Exhibition and with whom we invite our meeting into the fully virtual meeting, #SETACSciCon you participants to interact just as they would during a face-to- are now attending. A huge THANK YOU goes out to all face annual meeting! our SETAC staff, the Local Organising and the Scientific In close coordination with the SETAC Europe staff, Committee, the SETAC Europe Council and so many of our Scientific Committee and Local Organising Committee members, who all embraced this exciting challenge with for the #Dublin Meeting, together with the SETAC Europe warm enthusiasm! Council will be moderating the online discussions and In the past 30 years, SETAC Europe has, through the happy to answer any questions you may have. You are also work of its membership and network, contributed invited to be proactive in setting up discussion platforms significantly to the scientific knowledge desperately in the periphery of the meeting, to facilitate discussions needed to adequately manage the risks of environmental that might continue beyond the time provided in the contamination, climate change and agricultural programme. intensification. It has, through the work of its members, We would like to thank all the organisers for their tireless contributed to the increased public consciousness of these commitment, skill and enthusiasm to create this virtual risks to human and environmental health. The extremely event and most and for all, we would like to thank you, as a capable and inspired Dublin 2020 Scientific Committee, participant to this meeting. The cancellation of the physical chaired by Iseult Lynch, has succeeded in shaping a event in Dublin might have been a disappointment at first, fascinating programme around the theme of Open Science but you stayed with us on this challenging and exciting for Enhanced Global Environmental Protection. The four journey leading to the fully virtual meeting that is going keynote speakers and no less than 84 scientific sessions, to happen now. Your participation in this meeting and including 450 talks and 1100 posters, open the door to support to the society is essential to implement our the future in which the importance of science-based mission, which is all about Environmental Quality through environmental policy has never been more apparent. Science®. Environmental scientists collected in the SETAC Europe community have a crucial role to play in contributing to the European Green Deal and providing the scientific We wish you all a wonderful time! background, specifically as it pertains to remedying
Annegaaike Leopold Bart Bosveld SETAC Europe President SETAC Europe Executive Director
SETAC Europe 30th Annual Meeting - SETAC SciCon 5 Welcome from SETAC World Council
Happy 30th birthday to SETAC Europe! SETAC World Council expertise groups, and general welcomes you to SETAC SciCon: SETAC Europe 30th Annual networking. Meeting. We are going to miss the Emerald Isle and Dublin, SETAC is a global society a beautiful and renowned city in “The Land of Saints and substantially developing at Scholars,” home to three Nobel Prize for Literature winners, the world scale. These global important satirists, dramatists, playwrights, political connections provide unique theorists and novelists. Though we won’t be physically opportunities for SETAC gathering, the SETAC Europe staff, organising committee, members, associates and and other volunteers have knocked themselves out to partners to learn from each other, bring us a virtual programme that brings us the best support each other and take of SETAC: important and relevant science, networking advantage of knowledge and opportunities, keynote and plenary speakers, Interest experience available within the Group meetings, avenues for discussion and debate all in a SETAC network. We are excited virtual platform as we have never used it before! And, they about the future of SETAC and have done it all in a few short weeks. Kudos! the opportunities that future will provide you. 2020 is an SETAC SciCon will host stakeholders belonging to especially important year for us. While it marks the 30th academia, business and regulatory communities and a birthday of SETAC Europe, it is a year where SETAC will large student community who will come together for the be restructuring itself to better serve all members from science and scientific discourse essential to provide society around the world. Please look for us in the Virtual Lounge with scientific solutions to environmental challenges. and ask about what opportunities there are for you in your SETAC believes opening science to the world is especially student and professional careers as members of SETAC. important. For our mission of Environmental Quality It is appropriate that we gather around a meeting themed, through Science®, the importance of sharing our science is Open Science for Enhanced Global Environmental Protection. obvious–we all learn from one another. This is the reason Together with all stakeholders involved, we will continue why dialogue in virtual space is so important when we Dublin’s traditions of scholarly discourse and friendly craic1 cannot meet face-to-face. Dialogue, along with increasing by bringing science and its application to the forefront for the accessibility of underlying scientific information in our an exciting virtual week! journals, IEAM and ET&C, is how we bring science to the world. Take advantage of the many opportunities at SETAC SciCon to learn and network. Check out the virtual Lounge On behalf of SETAC World Council: Learn, connect, and for connecting with interest groups, geographic groups, have fun!!!
Helena Assis & Charles Menzie
1 That mixture of repartee, humour, intelligence, and acerbic and deflating insight that has attracted writers, intellectuals, and visitors for centuries per Encylopae- dia Britannica
6 twitter.com/SETAC_World #SETACSciCon About SETAC and SETAC Europe
SETAC is a not-for-profit, worldwide professional organisation comprised of more than 5,300 individuals and institutions in over 90 countries dedicated to the study, analysis and solution of environmental problems, the management and regulation of natural resources, research and development, and environmental education. SETAC’s mission is to support the development of principles and practices for protection, enhancement and management of sustainable environmental quality and ecosystem integrity.
Our mission is to support and facilitate the development SETAC Europe is one of five Geographic Units (GU) of the of principles and practices for the protection, global Society, established in 1989 to promote and further enhancement and management of sustainable the mission of SETAC in Europe, the Middle East and environmental quality and ecosystem integrity. Russia. SETAC uses the slogan Environmental Quality through SETAC Europe is incorporated in Belgium as a not-for- Science® to convey its vision to its members, stakeholders profit organisation. The Society is administered to its and the public. articles of association and by-laws.
SETAC Europe is governed by a Council, elected by the general membership at the Annual General Assembly (AGA) which convenes every year during the SETAC Europe Annual Meeting. If you are a SETAC member from Europe, you are strongly encouraged to attend the assembly, which will be held from 7:30–9:00 UTC on Wednesday, 6 May, in the virtual space.
For more information, visit www.setac.org SETAC Europe Comittees
The affairs of SETAC Europe are partly managed by committees composed of volunteers.
If you are interested to contribute to the activities of SETAC Europe and willing to volunteer in one of its committees, have a look at the vacancies at www.setac.org (go to “Get Involved”). • Awards • Membership and Public Relations • Certification Programme • Nomination • Development • Regional Branches • Education • Science • Finances • Student Advisory Council • Strategic Planning
EUROPE STUDENT SCIENCE ADVISORY COUNCIL EDUCATION
STRATEGIC CERTIFICATION PLANNING PROGRAMME
DEVELOPMENT SETAC EUROPE AWARDS COUNCIL
FINANCES MEMBERSHIP & PR
NOMINATION REGIONAL BRANCHES facebook.com/setacworld #SETACSciCon 7 SETAC Europe Partners
SETAC Europe Partners are non-profit and for-profit organisations, institutions, government agencies, or associations concerned with the affairs and fostering the purposes of the Society. Thank you for your support!
8 scicon.setac.org SETAC Global Partners and Affiliates
Thank you to the SETAC Partners and Affiliates for helping ensure our goal of Environmental Quality through Science®
SETAC Europe 30th Annual Meeting - SETAC SciCon 9 SETAC Europe Award Winners
The SETAC Europe Awards Programme recognizes and honours outstanding contributions of individuals or groups of individuals to the environmental sciences and to the Society. The following award winners were announced and celebrated during the virtual SETAC Europe 30th Annual Meeting #SETACSciCon.
Noack Laboratorien Outstanding Science Career Award Ionan Marigomez Allende University of the Basque Country, Spain The 2020 Noack Laboratorien Outstanding Science Career Award honours Ionan Marigomez. The award recognises his contribution to environmental science and his outstanding record of interdisciplinary activities in the dissemination of knowledge on environmental sciences. Ionan Marigomez’s is professor at The University of the Basque Country (UPV/EHU). Ionan works tirelessly to communicate and disseminate knowledge on and understanding of environmental sciences and to educate students, professionals as well as the public.
EDANA Awards for Lifetime Achievement in Life Cycle Assessment Rolf Frischknecht treeze Ltd, Switzerland In 2020 the award is presented to Rolf Frischknecht, who is widely recognized for his outstanding contributions to life cycle inventory databases and methodology. He is especially known for his leading role from 1998 to 2008 in the design, development, implementation and operation of the life cycle inventory database ecoinvent laying a solid ground for its sustainable recognition and worldwide success. His major methodological contributions cover allocation in joint production and recycling, decision oriented LCA, as well as key developments within the Ecological Scarcity Method, such as the first regionalised water scarcity indicator.
Rifcon Early Career Scientist Award Michael Burkard eawag, Switzerland Michael Burkard is an early career researcher working at eawag on the caLIBRAte project. The project’s aim was to develop a suite of tested and calibrated, nano-specific risk priorization tools to leverage past and on-going nanosafety research for a next generation nano-risk governance framework.
Life Cycle Assessment Young Scientist Award Nadia Mirabella KU Leuven, Belgium "City Environmental Footprint - Development of a new methodology to calculate the environmental impact of cities". Sponsored by LENZING AG and Springer Nature
10 twitter.com/SETAC_World #SETACSciCon Young Scientist Awards 2019 Honouring a young scientist for the best platform and best poster presentation at the SETAC Europe 29th Annual Meeting in Helsinki, Finland. Simone Rizzuto Maxime Gauthier Lancaster University, United INRAE, France Kingdom Maxime Gauthier receives Simone Rizzuto is awarded the award for his poster on for his platform presentation “Developmental and vitamin “Freshwater phytoplankton A-based biomarkers for pesticide community response across contamination in two potential different historical contamination arthropod sentinels, the honey backgrounds". bee Apis mellifera and the gammarid Gammarus fossarum”.
Student Grants Reduced Registration Grants Jointly sponsored by SETAC Europe and Syngenta, As a new initiative, SETAC Europe provided 24 reduced we could support 36 students with registration and meeting registrations to recent graduate and senior training course grants to attend the SETAC Europe 30th active members. Annual Meeting.
Thank You to Our Award and Grant Sponsors
facebook.com/setacworld #SETACSciCon 11 Find Your Way at SETAC SciCon
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1. Networking Lounge 4. On-Demand Talks 6. Delegates Engange with others in the lounge. View 476 pre-recodrded scientific Search for your peers based on Choose from one-to-one interaction presentations organised in 8 tracks affiliation, country or areas of or pick one of the public chats based You can also chat with presenters and interest. on interest groups or language ask questions with each presentation. branches.
2. Exhibiton Hall 5. Live Sessions 7. Poster Hall Visit 25 exhibitors and learn about For an interactive experience, join the Peruse 1063 posters organised in the latest tools, tips and trends in live sessions featuring the opening 8 tracks in the Poster Hall. You can the Exhibit Hall. Chat with booth ceremony, keynote presentations, also chat with presenters and ask representatives, and explore the session discussions, satellite questions with each presentation. many documents, videos and meetings and the SETAC Cafè. resources they provide. Stop by the SETAC booths to ask questions, learn more about pubs or get involved. For some fun, join us for the Play & Win contest where you can collect points to win some fabulous prizes.
3. Info Desk Stop by the Info Desk to find answers to all your questions about SETAC and the meeting. We can help you with your registration, guide you through the platform or help you learn more about all the society has to offer, including certifications, future meetings, or how to get involved with SETAC.
12 scicon.setac.org Networking SETAC SciCon provides a number of option to connect with colleagues.
Connect with an individual delegate: See who is online and questions throughout the conference. in the networking lounge and connect with peers directly Connect to delegates with similar interest: The SciCon by chat or search for delegates based on their profile lounge enables you to connect with colleagues with a information. similar interest, either individuallly or as a group. Do not Connect with the presenter of a poster or talk: Go to the forget to update your SETAC SciCon profile to indicate your Q&A linked to the presentation and leave a note for the interest in one or more of these topics. presenter. Presenters review and answer to the comments
Chooce from the following chatrooms: • Adverse Outcome Pathways • Ecological Risk Assessment • Microplastics • Sediment • Amphibians and Reptiles • Ecosystem Services • Mixtures • Soil • Animal Alternatives in • Effect Modeling • Nanomaterials • Sustainability Environmental Science • Exposure Modeling • Omics • Water Quality • Bioaccumulation • Endocrine-Active Substances • One Health • Wildlife Toxicology • Chemistry • Fathead Minnow Genome • PFAS • Chemical Alternatives • Freshwater Salinization • Plants • Italian Language Branch Assessment • High-Throughput Screening • POPs and PBTs • German Language Branch • Chemical Management • Human Health Risk • Pesticides • Russian Language Branch • Circular Economics Assessment • Pharmaceuticals and • United Kingdom Branch • Global Climate Change and • Indigenous Knowledge and Personal Care Products Environmental Toxicity Values • Remediation, Restoration and • Meet the SETAC Europe • Data Usability • Life Cycle Assessment Reclamation Council • Dung Organism Toxicity • Metals • Science and Risk Testing Communication
SETAC Café See who is around in the SETAC Zoom Café. Grab a beer from your own fridge or take a coffee or soda, and mingle with the others. The SETAC Zoom Café opening hours are Sunday after the opening keynote, Monday to Wednesday from 18:00 – 19:00 UTC and Thursday from 14:30 – 15:30 UTC.
SETAC Europe 30th Annual Meeting - SETAC SciCon 13 Advancing Careers. Building Networks. Supporting Research.
SETAC membership helps you succeed with:
▶ Global networking opportunities with access to the ▶ Online subscription to the SETAC Globe, a monthly online membership directory, mentorship programs newsletter bringing international research, workshop and more and meeting recaps, collaborative opportunities and policy changes straight to your inbox ▶ Access to the SETAC Career Center for job seekers and employers ▶ Outreach opportunities through Interest Groups, committees, service projects and volunteer positions ▶ Online access to every issue of SETAC’s highly cited, peer-reviewed journals, Environmental Toxicology ▶ Additional benefits for students, including and Chemistry and Integrated Environmental reduced registration fees and a variety of Assessment and Management networking opportunities
▶ Discounts for SETAC meetings worldwide
Join Us Today
For more information, visit www.setac.org or contact Laura Swanson at [email protected].
14 twitter.com/SETAC_World #SETACSciCon Tracks and Sessions
The scientific programme is composed of eightscientific Also, all Platform and Poster Corner sessions have been tracks with platform, poster corner and poster viewing assigned a timeslot to facilitate overarching discussions sessions. between presenters and participants, moderated by the session chair. All presentations are available on demand throughout the conference, regardless of your time zone. You can interact Every session discussion will run for 40 minutes between with the presenters in a chat box tied to their presentation. 13:00–16:30 UTC (Platforms) and 17:00–17:30 UTC (Poster Designated Q&A are availalbe for each presentation to Corners). interact with the presenters and other attendees.
Session Type Session Discussion Track 1: Ecotoxicology And Human Toxicology: From Molecules To Organisms, From Omics To In Vivo 1.01 – Advances In Invertebrate Endocrine Toxicology Platform & Monday 4 May | 13:00–13:45 UTC Poster
1.02 – Advantages Of Using Laboratory Model And Field Platform & Wednesday 6 May | 13:45–14:30 UTC Collected Invertebrates In Ecotoxicology: New Insights For Poster Environmental Risk Assessment
1.03 – Alternative Approaches To Animal Testing For Platform & Wednesday 6 May | 13:00–13:45 UTC Aquatic Ecotoxicity Assessments And Environmental Risk Poster Assessments
1.04 – Epigenetic And Evolutionary Effects Of Environmental Platform & Monday 4 May | 15:45–16:30 UTC Stressors On Environmental And Human Health Poster
1.05 – Fish Model Species In Human And Environmental Platform & Tuesday 5 May | 13:00–13:45 UTC Toxicology Poster
1.06 – Human And Environmental Lipid Disruptors Platform & Tuesday 5 May | 15:45–16:30 UTC Poster
1.07 – Neuroendocrine And Neurochemical Disruption In Platform & Monday 4 May | 15:00– 15:45 UTC Vertebrate And Invertebrate Models Poster
1.08 – Not All Oil Spills Behave The Same: Unconventional Platform & Wednesday 6 May | 15:45–16:30 UTC Oils, Advanced Characterization And Ecotoxicity Poster
1.09 – Novel Developments In Endocrine Disruptor Testing Platform & Monday 4 May | 13:45–14:30 UTC With Vertebrates Poster
1.10 – Novel Tools And Bioassays For The 21st Century Platform & Wednesday 6 May | 13:00–13:45 UTC Environmental Toxicology Poster
1.11 – One Health And The Environment Platform & Monday 4 May | 15:00– 15:45 UTC Poster
1.12 – Perspectives On Data Driven Biology: Applications And Platform & Thursday 7 May | 13:00–13:45 UTC Safety Assessments Poster
1.13 – Wildlife Ecotoxicology: From Sub–Lethal Responses To Platform & Thursday 7 May | 13:00–13:45 UTC Adverse Effects At The Individual And Population Level Poster
1.14 – Innovative Assessment Tools And Criteria For The Poster Corner Monday 4 May | 17:00 – 17:30 UTC Protection Of Ecosystems And Human Health & Poster
1.15 – Chemical Safety Assessment Of Surfactants: Current Poster Corner Tuesday 5 May | 17:00 – 17:30 UTC Challenges In Regulatory Science And Future Prospects & Poster
1.16 – Improving Exposure Characterization Of In Vitro Poster Corner Wednesday 6 May | 17:00 – 17:30 UTC Testing To Support Quantitative Extrapolations To In Vivo & Poster Systems
facebook.com/setacworld #SETACSciCon 15 Tracks and Sessions
Session Type Session Discussion Track 2: Ecotoxicology Becomes Stress Ecology: From Populations To Ecosystems And Landscapes 2.01 – Aquatic And Terrestrial Plant Ecology, Ecotoxicology Platform & Wednesday 6 May | 13:45–14:30 UTC And Risk Assessment Poster
2.02 – Bees, Bugs And Beneficials In Environmental Risk Platform & Wednesday 6 May | 13:00–13:45 UTC Assessment And Testing Poster
2.03 – Contaminants In Highly Exposed Wildlife: Interactions Platform & Thursday 7 May | 13:45–14:30 UTC Of Contaminants, Climate Change, And Other Environmental Poster Stressors
2.04 – Ecosystem Functions And Services: Understanding And Platform & Tuesday 5 May | 15:00– 15:45 UTC Managing Anthropogenic Impact Poster
2.05 – Embedding Ecological Concepts In Ecotoxicology: Platform & Wednesday 6 May | 13:00–13:45 UTC Processes, Populations And Communities Poster
2.06 – From Lab To Field: Relevance Of Effects Observed Platform & Wednesday 6 May | 13:45–14:30 UTC In Lab Studies For Non–Target Local Populations And Poster Communities And Their Habitat Selection
2.07 – Impact And Trophic Transfer Of Chemical Pollutants In Platform & Monday 4 May | 15:45–16:30 UTC Food Webs Within And Across Ecosystem Boundaries Poster
2.08 – Microbial Community Ecotoxicology Under Multiple Platform & Wednesday 6 May | 15:00– 15:45 UTC Stressors Scenarios Poster
2.09 – Soil Ecotoxicology: New Methods And Novel Platform & Monday 4 May | 13:00–13:45 UTC Applications In Environmental Risk Assessment Poster
2.10 – Soil Function And Biodiversity: Impacts And Resilience Platform & Monday 4 May | 13:45–14:30 UTC Under Stressed Environments Poster
2.11 – Advancing Use Of Behavioural Studies In Regulatory Poster Corner Tuesday 5 May | 17:00 – 17:30 UTC Assessment Of Contaminants & Poster
2.12 – Impacts On Agroecosystems Resulting From Chemical Poster Corner Tuesday 5 May | 17:00 – 17:30 UTC Exposure In The Anthropocene & Poster
2.13 – A Risky Life History: Contaminant Threats To Poster Corner Wednesday 6 May | 17:00 – 17:30 UTC Scavenging Wildlife & Poster Track 3: Environmental Chemistry And Exposure Assessment: Analysis, Monitoring, Fate And Modeling 3.01 – Advances In Bioavailability Science And Application To Platform & Tuesday 5 May | 15:00– 15:45 UTC Chemical Regulation Poster
3.02 – Advances In Exposure Modelling: Bridging The Gap Platform & Tuesday 5 May | 13:45–14:30 UTC Between Research And Application Poster
3.03 – Advancing Our Understanding Of Contaminants Platform & Wednesday 6 May | 13:00–13:45 UTC Of Emerging Concerns Associated With Plastic And Poster Microplastics: Identification, Analysis, Occurrence And Effects
3.04 – Analysis Of Microplastics And Nanoplastics – From Platform & Monday 4 May | 13:00–13:45 UTC Harmonisable Protocols And Data Treatment To The Poster Peculiarities Of The Environmental Nanofraction
3.05 – Assessment Of The Exposure And Effects Of Platform & Tuesday 5 May | 15:00– 15:45 UTC Contaminants Of Emerging Concern In Drinking And Poster Wastewater Systems And Assays To Evaluate Their Removal
16 SETAC Europe 30th Annual Meetingscicon.setac.org - SETAC SciCon Tracks and Sessions
Session Type Session Discussion
3.06 – Chemical Exposome Of Human And Wildlife – Platform & Monday 4 May | 13:45–14:30 UTC Advancements In Non–Targeted Analytical Methodology And Poster Modelling Approaches
3.07 – Chlorinated Paraffins – State Of Science, Insights, Platform & Tuesday 5 May | 13:45–14:30 UTC Challenges And The Way Forward Poster
3.08 – Emerging Environmental Contaminants – Status, Platform & Tuesday 5 May | 15:45–16:30 UTC Trends, Challenges And Knowledge Gaps Poster
3.09 – Mass Spectrometry Screening Strategies To Evaluate Platform & Wednesday 6 May | 15:45–16:30 UTC Environmental Exposures: What Have We Learned And Where Poster Are We Going?
3.10 – Measuring, Modelling And Monitoring Of Pesticides Platform & Tuesday 5 May | 13:00–13:45 UTC Fate In A Regulatory Context Poster
3.11 – Metal Speciation And Bioavailability: Mechanistic Platform & Monday 4 May | 15:00– 15:45 UTC Links Between Exposure And Effects In Multi Stressor Poster Environments
3.12 – Micro(Nano)Plastics Occurrence, Fate And Effects: Platform & Tuesday 5 May | 13:45–14:30 UTC Mechanistic Approaches To Study Risks To Environmental Poster And Human Health
3.13 – New Approaches To Characterising The Global Platform & Monday 4 May | 13:00–13:45 UTC Chemical Exposome Poster
3.14 – New Methods In Environmental Analytical Chemistry: Platform Wednesday 6 May | 15:00– 15:45 From Interrogation Of Complex Matrices To Innovative Tools & Poster & (Platform) & 17:00 – 17:30 (Poster For Monitoring Poster Corner corner) UTC
3.15 – Non–Target Analysis In Environmental Sciences: The Platform & Wednesday 6 May | 13:45–14:30 UTC State Of The Art And Future Perspectives Poster
3.16 – Occurrence, Fate, Transport And Reactivity Of Platform & Monday 4 May | 15:45–16:30 UTC Emerging Micropollutants In Aquatic Systems Poster
3.17 – Persistent (P) And Pmt/Vpvm Substances In The Platform & Tuesday 5 May | 13:00–13:45 UTC Environment: Improving Experimental And Weight Of Poster Evidence Assessment Methods, Providing Solutions, And Informing Regulations
3.18 – Potential Roles For Diffusive Gradient In Thin Film (Dgt) Platform & Tuesday 5 May | 15:45–16:30 UTC Passive Samplers In Investigative And Regulatory Monitoring Poster
3.19 – Siloxanes And Related Chemicals: Environmental Platform & Monday 4 May | 13:45–14:30 UTC Monitoring And Behavior, Ecosystem Exposure And Energetic Poster Efficiency
3.20 – Sources, Fate And Effects Of Metals In The Platform & Wednesday 6 May | 15:45–16:30 UTC Environment: Advances In Risk Assessment, Regulatory Poster Guidance, And Remaining Gaps
3.21 – The Polar Regions: Pollutants & Environmental Change Platform & Monday 4 May | 15:45–16:30 UTC – Multiple Stressors, Ecosystem Response And Environmental Poster Policy
3.22 – Tire Wear And Microrubber Particles – From Problems Platform & Tuesday 5 May | 13:00–13:45 UTC To Solutions (3.22–Tire Wear Particles) Poster
3.23 – Trace Metal Biogeochemistry And Fate In Ecosystems Platform & Monday 4 May | 15:45–16:30 UTC Poster
3.24 – Water Quality Under Pressure – Understanding Fate Platform & Monday 4 May | 13:00–13:45 UTC And Effects Of Organic Pollutants In Rivers By Integrating Poster Field, Laboratory And Modeling Approach
SETAC Europe 30th Annual Meeting - SETAC SciCon 17 Tracks and Sessions
Session Type Session Discussion
3.25 – Non–Extractable Residue (Ner) In Regulatory Testing Poster Corner Tuesday 5 May | 17:00 – 17:30 UTC Of Chemicals & Poster
3.26 – Semi– And Non–Volatile Organic Compounds In Poster Indoor Dust And Air: Early Warning Signals For The Outdoor Environment And Indicators Of Indoor Environmental Quality
3.27 – Chemicals In Short– And Medium–Lifespan Products: Poster Opportunities And Challenges To A Circular Economy Track 4: Ecological Risk Assessment And Human Health Risk Assessment Of Chemicals, Mixtures And Stressors And Risk Mitigation Strategies 4.01 – Assessment And Management Of Wastewater Effluents Platform & Monday 4 May | 13:45–14:30 UTC Poster
4.02 – Assessment Of Chemical Mixtures And Multiple Platform & Tuesday 5 May | 13:45–14:30 UTC Stressors: From Additivity And Synergy To Policy Options Poster
4.03 – Bioaccumulation And Biotransformation: Advances, Platform & Wednesday 6 May | 15:00– 15:45 UTC Challenges, And State Of The Science For Chemicals Poster Regulation
4.04 – Bioremediation And Phytoremediation Of Platform & Tuesday 5 May | 13:00–13:45 UTC Contaminated Ecosystems Poster
4.05 – Complex Mixtures In User Products And The Platform & Tuesday 5 May | 13:00–13:45 UTC Environment: Chemical And Toxicity Profiling, And Modelling Poster To Identify Risk Drivers And Estimate Footprints
4.06 – Dealing With And Communicating Uncertainties In Platform & Monday 4 May | 13:45–14:30 UTC Environmental Risk Assessment While Ensuring Trust Among Poster Stakeholders: Mission Impossible?
4.07 – Effect Modelling For Regulatory Environmental Risk Platform & Monday 4 May | 13:00–13:45 UTC Assessment: Current Applications And Future Directions Poster
4.08 – Engineered Nanomaterials: Complex From Chemistry Platform & Thursday 7 May | 13:00–13:45 UTC To Multi–Stressor Situations Poster
4.09 – Environmental Risk Assessment Of Pharmaceuticals: Platform Wednesday 6 May | 15:45–16:30 Connecting Across Disciplines And Continents & Poster & (Platform) & 17:00 – 17:30 (Poster Poster Corner corner) UTC
4.10 – Environmental Risk Assessment Of Polymers Platform & Tuesday 5 May | 15:00– 15:45 UTC Poster
4.11 – Fate, Effects And Risk Assessment Procedures For Platform & Wednesday 6 May | 15:45–16:30 UTC Chemicals In Tropical And Neotropical Regions Poster
4.12 – Multidisciplinary Efforts To Advance Knowledge On Platform & Tuesday 5 May | 15:45–16:30 UTC Environmental Risk Assessment Of Chemicals For Amphibians Poster And Reptiles
4.13 – Real Risks In Real Soils: Linking Exposure And Effects In Platform & Monday 4 May | 15:00– 15:45 UTC A Multifaceted World Poster
4.14 – Soils As Sinks For Plastics: Analysis, Transport Platform & Wednesday 6 May | 13:45–14:30 UTC And Effects Of Nano– And Microplastics In Terrestrial Poster Environments)
4.15 – Wastewater And Sludge Reuse In A Circular Economy: Platform & Wednesday 6 May | 13:45–14:30 UTC Benefits And Risks Poster
4.16 – Developments In The Ecological And Human Health Poster Corner Monday 4 May | 17:00 – 17:30 UTC Risk Assessment Of Biopesticides: Microorganisms, & Poster Botanicals And Semiochemicals
18 twitter.com/SETAC_World #SETACSciCon Tracks and Sessions
Session Type Session Discussion
4.17 – Dyes As Environmental Contaminants Poster Corner Monday 4 May | 17:00 – 17:30 UTC & Poster
4.18 – Environmental Risk Assessment Of UV Filters Poster Corner Tuesday 5 May | 17:00 – 17:30 UTC & Poster
4.19 – Environmental Risks Of Neonicotinoid Insecticides: Are Poster Corner Wednesday 6 May | 17:00 – 17:30 UTC They The Outliers? & Poster
4.20 – Difficulties In Waste Ecotoxicological Tests For Hp14 Poster Classification: Legislation Debate And Testing Challenges
4.21 – New Developments In UVCB Risk Assessment Poster Track 5: Life Cycle Assessment And Foot–Printing 5.01 – Challenges, New Approaches In Life Cycle Inventory Platform & Monday 4 May | 15:45–16:30 UTC Data Collection And Modelling Poster
5.02 – Integrated Life Cycle Approaches For Decision Support Platform & Monday 4 May | 15:00– 15:45 UTC Towards Sustainable Development Of Existing And Emerging Poster Technologies, Products And Services
5.03 – LCA For Urban And Territorial Footprinting: Platform & Thursday 7 May | 13:45–14:30 UTC Advancements, Trends And Applications To Promote Poster Sustainable Consumption Patterns And Territorial Management
5.04 – Life Cycle Impact Assessment And Ecosystem Impact Platform & Tuesday 5 May | 15:45–16:30 UTC Assessment: Strengthening The Link Between LCA And Poster Ecology
5.05 – Quantifying Life Cycle Emissions And Environmental Platform & Thursday 7 May | 13:00–13:45 UTC Impacts Of Agricultural Practices Related To Pesticides And Poster Fertilisers
5.06 – Quantifying The Environmental Impacts Of Marine Platform & Wednesday 6 May | 15:00– 15:45 UTC Litter: Interdisciplinary Knowledge Towards Addressing Poster Marine Litter In LCA
5.07 – Sustainability And Risk Assessments And Circularity Platform & Wednesday 6 May | 13:00–13:45 UTC Indicators For The Transition To A Circular Economy Poster
5.08 – Sustainability Dietary Patterns: Nutritional And Poster Corner Wednesday 6 May | 17:00 – 17:30 UTC Environmental Implications & Poster Track 6: Environmental Policy, Risk Management, And Science Communication 6.01 – Increasing The Utility Of Non–Standard Studies In Platform & Tuesday 5 May | 13:45–14:30 UTC Weight Of Evidence Evaluations Poster
6.02 – Integrated Effect Assessments To Enable A Sustainable Platform & Thursday 7 May | 13:45–14:30 UTC Future For The Marine And Coastal Environment Poster
6.03 – Marine And Freshwater Pelagic And Benthic Harmful Platform & Thursday 7 May | 13:00–13:45 UTC Algal Blooms: Toxins Production, Detection, Fate, Effects, Poster Monitoring And Management
6.04 – Modern Approaches To Assessment And Management Platform & Thursday 7 May | 13:45–14:30 UTC Of PFAS: A Science–Policy Dialogue Poster
6.05 – Nanotechnology Regulatory And Assessment Platform & Thursday 7 May | 13:45–14:30 UTC Frameworks And Nanoremediation Approaches Poster
6.06 – PBT And Other Substances Of (Very High) Concern: Platform & Thursday 7 May | 13:00–13:45 UTC Policies, Practices And Challenges Poster
facebook.com/setacworld #SETACSciCon 19 Tracks and Sessions
Session Type Session Discussion
6.07 – Science And Risk Communication In An Ever–Changing Platform & Wednesday 6 May | 15:00– 15:45 UTC World: How Could It Be Done To Build Trust? Poster
6.08 – The Role Of Science In Derivation Of Site–Specific Platform & Monday 4 May | 15:00– 15:45 UTC Environmental Quality Benchmarks And Management Of Poster Water Quality
6.09 – Current Developments In The Regulatory Assessment Poster Corner Monday 4 May | 17:00 – 17:30 UTC Of Biocides In General And Chemicals In The Sediment & Poster Compartment In Particular
6.10 – Refinement Of The Risk To Birds And Mammals Poster Corner Tuesday 5 May | 17:00 – 17:30 UTC From Plant Protection Products: Higher Tier Studies And & Poster Approaches
6.11 – Challenges In The Future Of Higher Tier Aquatic Poster Studies In Regulatory Risk Assessment
6.12 – Evidence–Informed Policymaking And Stakeholder Poster Engagement On Environmental Management In Africa Track 7: Think–Outside–The–Box 7.01 – Addressing The Challenges Of Applying New Platform & Tuesday 5 May | 15:00– 15:45 UTC Approaches Supporting Chemical Safety Assessment And Poster Regulatory Decision Making
7.02 – Exploring The Potential Of Wastewater–Based Platform & Wednesday 6 May | 15:00– 15:45 UTC Epidemiology To Monitor Human Exposure To Pollutants And Poster Public Health
7.03 – Future Risks Of Chemicals Poster Corner Monday 4 May | 17:00 – 17:30 UTC & Poster
7.04 – The Use Of Citizen Science In Environmental Toxicology Poster And Chemistry Track 8: Special Sessions - invited talks only 8.01 – From Ecology To Land Management Via Regulation To Platform Tuesday 5 May | 13:45–14:30 UTC Protect Biodiversity In Agricultural Landscapes
8.02 – Gender And Other Forms Of Bias. How Do We Achieve Platform Wednesday 6 May | 15:45–16:30 UTC Diversity And Equal Opportunity In Scientific Research?
8.03 – Open Science In Regulatory Environmental Risk Platform Tuesday 5 May | 15:00– 15:45 UTC Assessment
8.04 – Your Science Or My Science? How Is The Way We Frame Platform Tuesday 5 May | 15:45–16:30 UTC Our Research Impacted By Values? A Multi–Perspective Look At The Impact Organic Uv Filters In Sunscreen Products Have On Coral Bleeching
20 scicon.setac.org SUNDAY 3 MAY
Opening Ceremony 13:00 – 14:00 UTC | Live Sessions The live session starts with welcome addresses by SETAC Committee, Iseult Lynch, and opened by the first keynote Europe President Annegaaike Leopold, Executive Director lecture, delivered by Annemarie van Wezel. She will talk Bart Bosveld and Student Advisory Council Chair Mafalda about SETAC’s role in the European Green Deal. After her Castro and by the Global Executive Director Charlie presentation, there will be an opportunity for participants Menzie. They all will be connected from their homes and to interact with van Wenzel in a live Q&A session. talk about the role of SETAC in society and will highlight After the opening programme, the SETAC Café will open. some activities during the SETAC SciCon meeting. Grab a beer from your own fridge (or a coffee if it is still After these addresses, the chair of the SETAC Europe too early for that in your time zone), take a seat behind Awards Committee, Michelle Bloor, will present the your screen and join us online in the zoom café. winners of the 2020 Awards. These include the LCA Young Scientist Award, Rifcon Early Career Scientist Award, LCA Lifetime Achievement Award, and Noack Laboratorien Outstanding Science Career Award. The scientific programme of the meeting will be introduced by the chair of SETAC SciCon Scientific
A Sunday Opinion on SETAC’s Role in the EU GreenDeal 13:00 – 14:00 UTC | Live Sessions Annemarie van Wezel University of Amsterdam, Netherlands
Prof. Dr Annemarie van Wezel (1968, concern in the water cycle) and MSc Biology UU, PhD environmental RUST (Re-USe of Treated effluent for chemistry and toxicology UU) has long agriculture) and PsychoPharmac’eau experience as a scientist in water quality, (Psychopharmaceutical Prevention risk assessment and risk mitigation, & Pilots to Reduce Effects in the environmental toxicology and chemistry, water cycle). She is interested in the and environmental policy evaluation. science-to-policy interface, in scientific She was granted many projects in the outreach and has ample experience in field of chemicals of emerging concern media appearances. She is a member and water quality, examples are the of the Dutch Health Council and the European projects FP7 Solutions, ITN Dutch Board on authorization of plant ECORISK2050, ITN PERFORCE3, and protection products and biocides CTGB. Dutch NWO funded projects such as She holds the chair Environmental Shale gas & water, TRAMP (Technologies Ecology and is Scientific Director of for risk assessment for microplastics), IBED (Institute for Biodiversity and EMERCHE (Effect-directed Monitoring Ecosystem Dynamics) at the University tools to assess Ecological and human of Amsterdam. health Risks of CHemicals of Emerging
SETAC Europe 30th Annual Meeting - SETAC SciCon 21 SETAC JOURNALS Support Open Science
IMPACT FACTOR IMPACT FACTOR 3.421 3.220
9 Take advantage of the 20% discount on open access fees for SETAC members
9 Qualify for free open access through Wiley read and publish deals
9 Read our open data policies and guidelines
22 SCAN FOR MORE INFORMATION.twitter.com/SETAC_World #SETACSciCon MONDAY 4 MAY
4 May MONDAY Live Sessions
09:00-13:00 UTC SETAC UK Branch 11:30-12:30 UTC Keynote Speaker 12:30-13:00 UTC Networking Break: Exhibits and Poster 12:30-14:00 UTC Agilent Seminar 13:00-13:45 UTC Session Discussions 13:30-14:30 UTC Finance Committee (Europe) 13:45-14:30 UTC Session Discussions 14:30-15:00 UTC Networking Break: Exhibits and Poster 14:45-16:15 UTC Science Committee (Europe) 15:00-15:45 UTC Session Discussions 15:45-16:30 UTC Session Discussions 16:30-17:00 UTC Networking Break: Exhibits and Poster 17:00-17:30 UTC Poster Corner Discussions 18:00-19:00 UTC SETAC Cafe
Safety Assessment without Animal Testing: Progress in Industry 11:30 – 12:30 UTC | Live Sessions Matthew Dent Unilever, United Kingdom
Matt Dent is employed by Unilever’s assure the safety of consumer products Safety and Environmental Assurance without using animals. He is a member Centre (SEAC) as a Science Leader, with of several international scientific task responsibility for the application of forces and advisory groups, and the new (non-animal) approaches to risk industry co-chair of an International assessment. Dent’s background is in Cooperation on Cosmetics Regulation toxicology, and he started his career in (ICCR) Joint Working Group, which contract research performing systemic seeks to further the adoption of non- and reproductive/developmental animal approaches for cosmetics safety toxicology studies for pharmaceuticals, assessment. Dent received his PhD from agrochemicals and industrial Lancaster University following research chemicals. After joining Unilever in developing non-animal, human-relevant 2004, he specialised in toxicological safety assessments for anti-androgens, safety assessment and providing and holds the International Diploma in leadership in the area of reproductive Toxicology. and developmental toxicology, as well as developing new approaches to
facebook.com/setacworld #SETACSciCon 23 Time Session Discussion
13:00-13:45 UTC 2.09 - Soil Ecotoxicology: New Methods and Novel Applications in Environmental Risk Assessment 1.01 - Advances in Invertebrate Endocrine Toxicology
3.04 - Analysis of Microplastics and Nanoplastics - From Harmonisable Protocols and Data Treatment to the Peculiarities of the Environmental Nanofraction
3.13 - New Approaches to Characterising the Global Chemical Exposome
4.07 - Effect Modelling for Regulatory Environmental Risk Assessment: Current Applications and Future Directions
3.24 - Water Quality under Pressure - Understanding Fate and Effects of Organic Pollutants in Rivers by Integrating Field, Laboratory and Modeling Approach
13:45-14:30 UTC 2.10 - Soil Function and Biodiversity: Impacts and Resilience under Stressed Environments 1.09 - Novel Developments in Endocrine Disruptor Testing with Vertebrates
3.19 - Siloxanes and Related Chemicals: Environmental Monitoring and Behavior, Ecosystem Exposure and Energetic Efficiency
3.06 - Chemical Exposome of Human and Wildlife - Advancements in Non-targeted Analytical Methodology and Modelling Approaches
4.06 - Dealing with and Communicating Uncertainties in Environmental Risk Assessment While Ensuring Trust Among Stakeholders: Mission Impossible?
4.01 - Assessment and Management of Wastewater Effluents
15:00-15:45 UTC 4.13 - Real Risks in Real Soils: Linking Exposure and Effects in a Multifaceted World 1.07 - Neuroendocrine and Neurochemical Disruption in Vertebrate and Invertebrate Models
5.02 - Integrated Life Cycle Approaches for Decision Support towards Sustainable Development of Existing and Emerging Technologies, Products and Services
1.11 - One Health and the Environment
3.11 - Metal Speciation and Bioavailability: Mechanistic Links between Exposure and Effects in Multi Stressor Environments
6.08 - The Role of Science in Derivation of Site-specific Environmental Quality Benchmarks and Management of Water Quality
15:45-16:30 UTC 3.21 - The Polar Regions: Pollutants & Environmental Change - Multiple Stressors, Ecosystem Response and Environmental Policy
1.04 - Epigenetic and Evolutionary Effects of Environmental Stressors on Environmental and Human Health
5.01 - Challenges, New Approaches in Life Cycle Inventory Data Collection and Modelling
2.07 - Impact and Trophic Transfer of Chemical Pollutants in Food Webs within and across Ecosystem Boundaries
3.23 - Trace Metal Biogeochemistry and Fate in Ecosystems
3.16 - Occurrence, Fate, Transport and Reactivity of Emerging Micropollutants in Aquatic Systems
17:00 - 17:30 UTC 4.16 - Developments in the Ecological and Human Health Risk Assessment of Biopesticides: Microorganisms, Botanicals and Semiochemicals
6.09 - Current Developments in the Regulatory Assessment of Biocides in General and Chemicals in the Sediment Compartment in Particular
4.17 - Dyes as Environmental Contaminants
1.14 - Innovative Assessment Tools and Criteria for the Protection of Ecosystems and Human Health
7.03 - Future Risks of Chemicals
24 scicon.setac.org TUESDAY 5 MAY
5 May TUESDAY Live Sessions
07:45-09:15 UTC Certification Programme Committee (Europe) 09:30-11:00 UTC Awards Committee (Europe) 10:00-11:00 UTC Student Lunch Seminar 11:30-12:30 UTC Keynote Speaker 12:30-13:00 UTC Networking Break: Exhibits and Poster 13:00-13:45 UTC Session Discussions 13:45-14:30 UTC Session Discussions 14:30-15:00 UTC Networking Break: Exhibits and Poster 14:30-16:30 UTC Green Deal Discussion Forum 14:45-15:30 UTC Thermo Fisher Scientific Seminar 15:00-15:45 UTC Session Discussions 15:30-17:00 UTC Global Soil Interest Group 15:45-16:30 UTC Session Discussions 16:30-17:00 UTC Networking Break: Exhibits and Poster 17:00-17:30 UTC Poster Corner Discussions 18:00-19:00 UTC SETAC Cafe 18:00-19:30 UTC Publications Advisory Committee (PAC)
Biodiversity and the Role of Big Data: Using Data to Drive Pollinator Conservation in Ireland 11:30 – 12:30 UTC | Live Sessions Úna FitzPatrick National Biodiversity Data Centre, Ireland
Úna has a Ph.D. in botany. She worked on a project on the conservation of Irish bees before joining the National Biodiversity Data Centre in 2007. The Centre is responsible for the collection, collation, management, analysis and dissemination of data on Ireland’s biological diversity. As Senior Ecologist, she is responsible for the plant, vegetation and pollinator work programmes of the Centre. Úna has been involved in producing national conservation assessments for many different taxonomic groups. She has published an identification guide to Ireland’s grasses as well as identification guides to various insect groups. In 2015, she co- founded the All-Ireland Pollinator Plan and currently oversees its implementation.
SETAC Europe 30th Annual Meeting - SETAC SciCon 25 Student Lunch Seminar The Importance of Open Data for Global Environmental Protection 13:00 – 14:00 UTC | Live Sessions Iseult Lynch University of Birmingham, Ireland
Iseult Lynch, professor of Environmental Nanosciences at the School of Geography, Earth and Environmental Sciences at the University of Birmingham, is a leading expert in the investigation of impacts posed by nanoparticles in the environment. With her broad overview of all aspects of nanomaterials safety assessment and the associated data requirements, she will give a presentation on the importance of Open data for global environmental protecting (which is the theme of the conference) and give some practical insights into how we can design our experiments and capture the protocols and data in the most efficient and intelligent way (i.e. through electronic notebooks) in a format suitable for long-term storage and (open) sharing.
Kindly sponsored by
th SETAC 10 YOUNG ENVIRONMENTAL SCIENTISTS MEETING
nd th 22 – 26 February 2021 Aachen, Germany
w w w . y e s 2 0 2 1 . s e t a c . o r g Time Session Discussion
13.00-13.45 UTC 4.05 - Complex Mixtures in User Products and the Environment: Chemical and Toxicity Profiling, and Modelling to Identify Risk Drivers and Estimate Footprints
4.04 - Bioremediation and Phytoremediation of Contaminated Ecosystems
1.05 - Fish Model Species in Human and Environmental Toxicology
3.22 - Tire Wear and Microrubber Particles - From Problems to Solutions
3.17 - Persistent (P) and PMT/vPvM Substances in the Environment: Improving Experimental and Weight of Evidence Assessment Methods, Providing Solutions, and Informing Regulations
3.10 - Measuring, Modelling and Monitoring of Pesticides Fate in a Regulatory Context
13:45-14:30 UTC 4.02 - Assessment of Chemical Mixtures and Multiple Stressors: From Additivity and Synergy to Policy Options
3.07 - Chlorinated Paraffins - State of Science, Insights, Challenges and the Way Forward
6.01 - Increasing the Utility of Non-standard Studies in Weight of Evidence Evaluations
3.12 - Micro(nano)plastics Occurrence, Fate and Effects: Mechanistic Approaches to Study Risks to Environmental and Human Health
3.02 - Advances in Exposure Modelling: Bridging the Gap Between Research and Application
8.01 - From Ecology to Land Management via Regulation to Protect Biodiversity in Agricultural Landscapes
15:00- 15:45 UTC 3.05 - Assessment of the Exposure and Effects of Contaminants of Emerging Concern in Drinking and Wastewater Systems and Assays to Evaluate their Removal
7.01 - Addressing the Challenges of Applying New Approaches Supporting Chemical Safety Assessment and Regulatory Decision Making
8.03 - Open Science in Regulatory Environmental Risk Assessment
4.10 - Environmental Risk Assessment of Polymers
3.01 - Advances in Bioavailability Science and Application to Chemical Regulation
2.04 - Ecosystem Functions and Services: Understanding and Managing Anthropogenic Impact
15:45-16:30 UTC 3.08 - Emerging Environmental Contaminants - Status, Trends, Challenges and Knowledge Gaps
1.06 - Human and Environmental Lipid Disruptors
8.04 - Your Science or My Science? How Is the Way We Frame our Research Impacted by Values? A Multi-perspective Look at the Impact Organic UV Filters in Sunscreen Products Have on Coral Bleeching
4.12 - Multidisciplinary Efforts to Advance Knowledge on Environmental Risk Assessment of Chemicals for Amphibians and Reptiles
3.18 - Potential Roles for Diffusive Gradient in Thin Film (DGT) Passive Samplers in Investigative and Regulatory Monitoring
5.04 - Life Cycle Impact Assessment and Ecosystem Impact Assessment: Strengthening the Link Between LCA and Ecology
17:00 - 17:30 UTC 6.10 - Refinement of the Risk to Birds and Mammals from Plant Protection Products: Higher Tier Studies and Approaches
1.15 - Chemical Safety Assessment of Surfactants: Current Challenges in Regulatory Science and Future Prospects
4.18 - Environmental Risk Assessment of UV Filters
2.11 - Advancing Use of Behavioural Studies in Regulatory Assessment of Contaminants
3.25 - Non-Extractable Residue (NER) in Regulatory Testing of Chemicals
2.12 - Impacts on Agroecosystems Resulting from Chemical Exposure in the Anthropocene facebook.com/setacworld #SETACSciCon 27 Programme Highlights
Special Session 8.01 - From Ecology to Land Management via Regulation to Protect Biodiversity in Agricultural Landscapes
Live Q/A with presenters and chairs on Tuesday 5 May, 13:45–14:30 UTC
Anne Alix, Katja Knauer and Lorraine Maltby
Over the last years the term “biodiversity” has been use policies and landscape management. The efficiency increasingly prominent in communication notes and with which these policies manage to tackle biodiversity publications from the scientific community, media and decline is not fully quantified. In addition, possible the general public. This is driven by an increased effort options to optimize existing policies’ efficiency through in the academic sector to study biodiversity leading e.g. communication, coordination and support of science to a better awareness of the status of biodiversity in a could benefit from dialogue and exchanges among the broader range of locations and environmental conditions. stakeholders involved in their implementation and related An intergovernmental science-policy platform, IPBES, research/development. was created to assess the state of biodiversity and the The purpose of the session is to offer a multidisciplinary ecosystem services it provides to society, in response platform gathering stakeholders with an interest to requests from decision makers. Biodiversity was also in biodiversity, to discuss the options for improving identified as a priority research topic in the recent SETAC the efficiency of policies and regulations at reducing Horizon Scanning exercises. biodiversity decline in a specific landscape and identify A number of policies and regulations in Europe, both for science needs to reach this objective. Using the case of generic nature protection (e.g. Natura 2000 Directive) and agricultural landscapes, and pesticides and fertilizers as for the regulation of specific products (e.g. EC Regulation regulated products, the session will rely on practical case No. 1107/2009 on the placing of plant protection products studies to guide the discussion toward recommendations on the market, Directive on the Sustainable Use of to provide policy makers with more robust scientific Pesticides (2009/128/EEC), have included biodiversity in resources on which to base regulatory approaches. their protection goals. Member States within the European Union and beyond have implemented National Plans that aim at addressing biodiversity decline, in parallel to land
Programme
• Introduction • FAO’s Engagement in the Post-2020 Global Biodiversity Framework: Mainstreaming Biodiversity Across Agricultural Sector | Paulo Augusto Lourenço Dias Nunes, FAO, Italy • Measuring biodiversity status – national action taken to protect biodiversity in the agricultural landscape in Switzerland | Katja Knauer, Federal Office for Agriculture, Switzerland • A farmer’s perspective on biodiversity | Andrew Bergin, Regenerative Farmer, Ireland • Case study on pesticides: generating data to assess effects and risks to biodiversity through a risk assessment| Virginie Ducrot, Bayer Ag, Germany & Mark Miles, Bayer CropScience, United Kingdom • Case study on pesticides: Risk mitigation measures to protect biodiversity from side effects of pesticides| Anne Alix, Corteva Agrisciences, United Kingdom & Ed Pilling, Corteva Agroscience, United Kingdom • Ecosystem services and biodiversity; towards a holistic approach to risk assessment | Lorraine Maltby, The University of Sheffield, United Kingdom • Discussion • Conclusion
28 scicon.setac.org Programme Highlights
Special Session 8.03 - Open Science in Regulatory Environmental Risk Assessment Theo C.M. Brock, Peter Dohmen
Live Q/A with presenters and chairs on Tuesday 5 May, 15:00–15:45 UTC
The Open Science movement strives to make scientific in the list of strategic goals of the Long-Range Planning research and generated data accessible to all levels of an process. This session proposes a discussion forum on the inquiring society. This implies that information must be: openness in regulatory science, its drivers, and associated (i) readily available; (ii) comprehensible to those who wish opportunities and challenges for ERAs at SETAC SciCon. to scrutinise it; (iii) assessable in enough detail so that The specific goals of the session are to: judgments can be made about its relevance and reliability; 1. Introduce Open Science approaches and setting the (iv) and usable by others [2; 3; 4; 5]. In a regulatory scene by addressing the drivers, benefits and practice context, the benefits associated with open science (e.g. of openness about data in (regulatory) science; increased transparency, possibilities for verifying the outcomes of previous research, increasing data availability 2. Present existing initiatives, within and beyond SETAC, to answer complex research/risk assessment questions that promote and facilitate openness to scientific data; such as impacts of multiple stressors at the landscape- 3. Promote the FAIR principles [7] and a by default more level) may result in more trust in, and acceptance of, open approach to data sharing and re-use as driver for the regulatory decision-making process. This should transparency and reproducibility; outweigh its perceived risks (e.g. potential misuse or misinterpretation of data, data overload leading to more 4. Discuss practical and technical challenges associated elitism in who can handle the data volume). Nevertheless, with the implementation and maintenance of Open there are certain limits to ‘openness’ due to legitimate Science information; concerns about security, safety, privacy and commercial 5. Discuss the challenges associated with the use of open value. These, however, should not hinder a proper sharing data in a Weight-of-Evidence approach; of data used in decision-making. 6. Raise awareness about criteria for assessing the A distinction can be made between ‘scientifically relevant relevance and reliability of scientific, including open, transparency’ and ‘socially relevant transparency’. Most of data for ERAs and regulatory decision-making; the prominent strategies associated with the Open Science movement are designed primarily to promote scientifically 7. Discuss possible initiatives within SETAC to, in relevant transparency. To achieve socially relevant collaboration with other professional societies and transparency, which is particularly important in ERA, relevant stakeholders, promote and facilitate the further steps are needed to provide scientific information generation and access to high-quality data, for in ways to support decision makers to make informed educational, informational purpose and in support to choices and members of the public to develop informed sustainable policy. opinions [6]. The session offers a roundtable for the audience to The Open Science aspects discussed above are critical interact with the speakers, promote interdisciplinary when trying to address public calls for more transparency discussions and identify follow-up actions and research on the use of data in ERA, regulatory decision-making needs. and environmental policy. In this context, SETAC Europe included in 2017, science quality and access to science
Presentations • Open Science in Regulatory Environmental Risk Assessment: An Overview | Kevin Elliott, Michigan State University, United States • SETAC perspectives to Open Science – past, current and future activities to make it an integral part of environmental research | Thomas-Benjamin Seiler, RWTH Aachen University, Germany • Problem formulation enhances the transparency of regulatory environmental risk assessments | Jörg Romeis, Agroscope, Switzerland • Reliability of data from open data sources in the context of regulatory ERA | Caroline Moermond, RIVM, Netherlands • The weight-of-evidence approach within the context of regulatory ecotoxicological risk assessment and the open science movement | Keith R. Solomon, University of Guelph, Canada • New EU Transparency Regulation | Alexandra Tuijtelaars, European Commission – DG Health and Food Safety, Belgium • The application of Open Science and FAIR principles to improve transparency in scientific advice used for policy decisions | Jane Richardson, EFSA, Italy • Use of Open data in decision making | Charmaine Ajao, ECHA, Finland • Are all data equal or are some data more equal than others? | Anja Gladbach, Bayer AG, Crop Science Division, Germany SETAC Europe 30th Annual Meeting - SETAC SciCon 29 Programme Highlights
Special Session 8.04 - Your Science or My Science? How Is the Way We Frame Our Research Impacted by Values? A Multi-Perspective Look at the Impact Organic UV Filters in Sunscreen Products Have on Coral Bleeching Annegaaike Leopold, Charmaine Ajao, Thomas-Benjamin Seiler, Gunilla Oberg
Live Q/A with presenters and chairs on Tuesday 5 May, 15:45–16:30 UTC
This session is a follow up to the successful special products. We will address the different angles from sessions in Rome and Helsinki. Initially, in Rome we which this problem is/can be approached and provide an addressed the problem that if we as scientists do not overview of the current state of the scientific evidence as clearly communicate why we do not have a shared well as media/policy/legislative discussions. We will be understanding of a certain important controversial issue, addressing how value-judgements can impact what we there is a risk that the public distrusts us we will not be aim to understand. able to optimally contribute to addressing these critical Similarly to the two Special Sessions in Rome and issues. In Helsinki we went one step further by looking Helsinki respectively this Special Session contributes at ourselves as scientists and realising that our positions to SETAC Europe’s Long Range Strategic Planning Goal and subsequent value judgements may be impacting our 1: Quality and Credibility of Science: science based risk different evidence-based views. communication. In addition this session discusses a topic In this session we stay with the topic of values in science, of very high societal concern – namely the impact of but take this yet another step further by using as an cosmetic products on coral health and the implications to example the extremely complex issue of coral health human health. and the relationship with organic UV filters in sunscreen
Presentations
• The role of value judgements in scientific research | Gunilla Oberg, University of British Columbia, Canada • The concentration of UV filters around coral reefs and in reef organisms | Carys Mitchelmore, UMCES, United States • Environmental risk assessment of organic UV filters in sunscreen products and the disconnect between quality and quantity of science | Marc Leonard, L’Oreal, France • Development of a Global Framework to Assess the Environmental Risk of UV Filters to Coral | Iain Davies, Personal Care Products Council, United States • A regulators perspective on the regulation of UV filters in the environment |Charmaine Ajao, ECHA, Finland • The impacts of UV filters on corals compared to other stressors |Nicolas Imbert, Green Cross France et Territoires, France
30 twitter.com/SETAC_World #SETACSciCon WEDNESDAY 6 MAY
6 May Wednesday Live Sessions 07:30-09:00 UTC SETAC Europe Annual General Assembly
09:00-10:00 UTC SETAC Europe Council 09:45-10:45 UTC Endocrine Disruptor Testing and Risk Assesment Interest Group 10:00-11:30 UTC Student Advisory Council 10:30-11:30 UTC Education Committee (Europe) 11:30-12:30 UTC Keynote Speaker 12:00-13:00 UTC SCIRIC Interest Group 12:30-13:00 UTC Networking Break: Exhibits and Poster 13:00-15:00 UTC Science Communication 1-on-1s Workshop 13:00-13:45 UTC Session Discussions 13:45-14:30 UTC Session Discussions 14:30-15:00 UTC Networking Break: Exhibits and Poster 14:45-16:15 UTC Plants Interest Group 15:00-15:45 UTC Session Discussions 15:45-16:30 UTC Session Discussions 16:30-17:00 UTC Networking Break: Exhibits and Poster 17:00-17:30 UTC Poster Corner Discussion 18:00-19:00 UTC SETAC Cafe
Science Communication 11:30 – 12:30 UTC | Live Sessions Estelle Robichaux COMPASS, United States
facebook.com/setacworld #SETACSciCon 31 Time Session Discussion
13.00-13.45 UTC 1.10 - Novel Tools and Bioassays for the 21st Century Environmental Toxicology
3.03 - Advancing our Understanding of Contaminants of Emerging Concerns Associated with Plastic and Microplastics: Identification, Analysis, Occurrence and Effects 5.07 - Sustainability and Risk Assessments and Circularity Indicators for the Transition to a Circular Economy 1.03 - Alternative Approaches to Animal Testing for Aquatic Ecotoxicity Assessments and Environmental Risk Assessments 2.02 - Bees, Bugs and Beneficials in Environmental Risk Assessment and Testing
2.05 - Embedding Ecological Concepts in Ecotoxicology: Processes, Populations and Communities
13:45-14:30 UTC 3.15 - Non-target Analysis in Environmental Sciences: The State of the Art and Future Perspectives
4.14 - Soils as Sinks for Plastics: Analysis, Transport and Effects of Nano- and Microplastics in Terrestrial Environments 4.15 - Wastewater and Sludge Reuse in a Circular Economy: Benefits and Risks
1.02 - Advantages of Using Laboratory Model and Field Collected Invertebrates in Ecotoxicology: New Insights for Environmental Risk Assessment 2.01 - Aquatic and Terrestrial Plant Ecology, Ecotoxicology and Risk Assessment
2.06 - From Lab to Field: Relevance of Effects Observed in Lab Studies for Non-target Local Populations and Communities and their Habitat Selection 15:00- 15:45 UTC 3.14 - New Methods in Environmental Analytical Chemistry: From Interrogation of Complex Matrices to Innovative Tools for Monitoring 7.02 - Exploring the Potential of Wastewater-based Epidemiology to Monitor Human Exposure to Pollutants and Public Health 5.06 - Quantifying the Environmental Impacts of Marine Litter: Interdisciplinary Knowledge towards Addressing Marine Litter in LCA 4.03 - Bioaccumulation and Biotransformation: Advances, Challenges, and State of the Science for Chemicals Regulation 2.08 - Microbial Community Ecotoxicology under Multiple Stressors Scenarios
6.07 - Science and Risk Communication in an Ever-changing World: How Could It Be Done to Build Trust? 15:45-16:30 UTC 3.09 - Mass Spectrometry Screening Strategies to Evaluate Environmental Exposures: What Have We Learned and Where Are We Going? 4.09 - Environmental Risk Assessment of Pharmaceuticals: Connecting across Disciplines and Continents 1.08 - Not all Oil Spills Behave the Same: Unconventional Oils, Advanced Characterization and Ecotoxicity 3.20 - Sources, Fate and Effects of Metals in the Environment: Advances in Risk Assessment, Regulatory Guidance, and Remaining Gaps 4.11 - Fate, Effects and Risk Assessment Procedures for Chemicals in Tropical and Neotropical Regions 8.02 - Gender and other Forms of Bias. How Do We Achieve Diversity and Equal Opportunity in Scientific Research? 17:00 - 17:30 UTC 3.14 - New Methods in Environmental Analytical Chemistry: From Interrogation of Complex Matrices to Innovative Tools for Monitoring Poster Corner 4.09 - Environmental Risk Assessment of Pharmaceuticals: Connecting across Disciplines and Continents 5.08 - Sustainability Dietary Patterns: Nutritional and Environmental Implications
2.13 - A Risky Life History: Contaminant Threats to Scavenging Wildlife
4.19 - Environmental Risks of Neonicotinoid Insecticides: Are They the Outliers?
1.16 - Improving Exposure Characterization of In Vitro Testing to Support Quantitative Extrapolations to In Vivo Systems
32 scicon.setac.org Programme Highlights
Special Session 8.02 - Gender and Other Forms of Bias. How Do We Achieve Diversity and Equal Opportunity in Scientific Research? Live Q/A with presenters and chairs on Wednesday 6 May, 15:45–16:30 UTC
Leonie Nuesser, David MV Saunders, Lorraine Maltby and Charmaine Ajao
The topic of gender equality continues to be at the and informative experience that greatly enriched the forefront of our culture and media, and recent initiatives session. Several other highlights including the need for by scientific communities, including SETAC’s transition to positive role models and mentors and practical guidance a double-blind peer-review system, highlight efforts in for young researchers who encounter or witness gender equality in this space. Building on the feedback from the bias or unequal treatment because of peoples’ ethnicities, initial session on gender bias at the SETAC Europe meeting disabilities or sexuality within their scientific communities in Helsinki, we identified several topics with a demand for are incorporated into the planned discussions. Finally, further presentations. ample time will be there for open dialogue. This special session addresses subjects that are of concern The objective of this session is to engage a broad audience in gender bias and equality in scientific research that of new and experienced scientists to facilitate learning will allow to further our understanding of remaining and discussion of the topic of gender bias and equality. problems. The session invites a panel of speakers from the The #metoo, #imwithher, and #sheinspiresme movements SETAC Europe community that have the capacity to bring have shown that this topic is defining a new generation of attention to an array of important subjects in this space. young scientists, so it is important that SETAC, a leading organization in environmental sciences, continues to The experiences gained from the special session at the support these important discussions. We hope to harness SETAC Helsinki conference in 2019 have helped to focus the cultural energy and progress made in Helsinki to the SETAC Dublin 2020 programme. In 2019, the open expand the participation and discussion within the SETAC exchange of ideas and experiences through dialogue community. with the audience/speakers created a highly engaged
Presentations
• The SETAC award for scientists returning to research after a maternity break | Michelle Bloor, Scotlands Rural College, United Kingdom
SETAC Europe 30th Annual Meeting - SETAC SciCon 33 SUBMIT AN ABSTRACT BY 3 JUNE
SETAC North America 41st Annual Meeting 15–19 NOVEMBER 2020 | FORT WORTH, TX, USA 2020 SETAC In Focus: Environmental Quality Through Innovative Science
For more information, visit fortworth.setac.org. THURSDAY 7 MAY
7 May Thursday Live Sessions
08:30-09:30 UTC SETAC Italian Language Branch 13:00-13:45 UTC Session Discussions
13:45-14:30 UTC Session Discussions
14:30-15:00 UTC Networking Break: Posters
Time Session Discussion
13.00-13.45 UTC 1.12 - Perspectives on Data Driven Biology: Applications and Safety Assessments
6.06 - PBT and Other Substances of (Very High) Concern: Policies, Practices and Challenges
1.13 - Wildlife Ecotoxicology: From Sub-lethal Responses to Adverse Effects at the Individual and Population Level
4.08 - Engineered Nanomaterials: Complex from Chemistry to Multi-stressor Situations
5.05 - Quantifying Life Cycle Emissions and Environmental Impacts of Agricultural Practices Related to Pesticides and Fertilisers
6.03 - Marine and Freshwater Pelagic and Benthic Harmful Algal Blooms: Toxins Production, Detection, Fate, Effects, Monitoring and Management
13:45-14:30 UTC 6.04 - Modern Approaches to Assessment and Management of PFAS: A Science-Policy Dialogue
2.03 - Contaminants in Highly Exposed Wildlife: Interactions of Contaminants, Climate Change, and Other Environmental Stressors
6.05 - Nanotechnology Regulatory and Assessment Frameworks and Nanoremediation Approaches
5.03 - LCA for Urban and Territorial Footprinting: Advancements, Trends and Applications to Promote Sustainable Consumption Patterns and Territorial Management
6.02 - Integrated Effect Assessments to Enable a Sustainable Future for the Marine and Coastal Environment
facebook.com/setacworld #SETACSciCon 35 Society of Environmental Toxicology and Chemistry Career Center
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36 scicon.setac.org On-Demand Programme
Track 1: Ecotoxicology and Human Toxicology: From Molecules to Organisms, from Omics to In Vivo
Session: 1.01 – Advances in Invertebrate Endocrine Toxicology
Chair: Alice Baynes
Session Discussion: Monday 4 May | 13:00-13:45 UTC
Platform 1.01.2 | DEHP acts as an endocrine 1.01.4 | Effects of a potent estrogen disrupting chemical in the pest moth mimic on wild populations of leeches | 1.01.1 | Levels and trends of tributyltin Spodoptera littoralis and affects Karen Kidd, McMaster University, Canada (TBT) and intersex in common periwinkle post-embryonic development, adult (Littorina littorea) in Vikkilen, Norway from male sexual behaviour and offspring Poster 2005 to 2018 | Merete Schøyen, Norwegian development | Amandine Aviles, Institute for Water Research (NIVA), Norway 1.01P.1 | Pyriproxyfen and cadmium: what Syddansk Universitet, Denmark effects on the growth hormonal pathway 1.01.3 | Multigenerational effects of the in the amphipod Gammarus pulex ? | Eric lipid lowering drug Simvastatin in the Gismondi, LEAE – University of Liege, Belgium keystone amphipod Gammarus locusta | Miguel Santos, CIIMAR/FCUP, Portugal
1.02 – Advantages of Using Laboratory Model and Field Collected Invertebrates in Ecotoxicology: New Insights for Environmental Risk Assessment
Chairs: Carlos Barata, João Pestana
Session Discussion: Wednesday 6 May | 13:45-14:30 UTC
Platform 1.02P.3 | Behavioural and biochemical 1.02P.10 | Cloeon dipterum – developing responses of the mussel Mytilus robust ecotoxicological test systems 1.02.1 | iNVERTOX: Linking metabolomics galloprovincialis exposed to the red for mayflies| Monika Hammers-Wirtz, to behavioural changes in Gammarus macroalga Asparagopsis armata Research Institute gaiac, Germany pulex upon exposure to psychoactive exudate | João Pestana, CESAM & drugs | Thomas Miller, Kings 1.02P.11 | In vivo and in vitro bioassays University of Aveiro, Portugal College London, United Kingdom with Hediste diversicolor polychaete to 1.02P.4 | Toxicity screening of sediments assess the toxicity of polluted sediments 1.02.2 | Effect of tidal movement collected in three estuaries of the Bay | Manu Soto, Plentzia Marine Station of on the toxicity of chlorpyrifos: is of Biscay at different seasons using Basque Country University (EHU/UPV), Spain current risk assessment applicable to (Paracentrotus lividus) sea urchin embryos tidal areas with high environmental 1.02P.12 | Development of a test system | Manu Soto, Plentzia Marine Station of values? | Solène Prévalet, Wageningen with Crangonyx pseudogracilis in artificial Basque Country University (EHU/UPV), Spain University & Research, Netherlands aquatic mesocosms and laboratory 1.02P.5 | The impact of algal food on tests compared to Gammarus spp. | 1.02.3 | In situ evaluation of pesticide the physiology and resistance to metal Klaus Peter Ebke, MESOCOSM GmbH, mixture effects on embryo-larval toxicity in Daphnia magna | Allan Institut für Gewässerschutz, Germany stages of the Pacific oyster (Magallana McGivern, Dublin City University, Ireland gigas) | Eliska Rozmankova, EPOC, University of Bordeaux, Czech Republic 1.02P.6 | Daphnia as a model for understanding the sensitivity of aquatic 1.02.4 | Effect of the reproduction cycle organisms to chronic low-level ionizing period on energy metabolism responses in radiation exposure | You Song, Norwegian a model organism (Dreissena polymorpha) Institute for Water Research (NIVA), Norway exposed to cadmium: what consequences for biomonitoring? | Fanny Louis, Université 1.02P.7 | Response of neonates, juvenile Reims ChampagneArdenne, France and adults of Daphnia magna exposed to 3 non-steroidal anti-inflammatory drugs Poster | Alma Sobrino-Figueroa, Universidad 1.02P.1 | Effects of acetaminophen on Autonoma Metropolitana, Mexico the Neotropical bivalve Anodontites 1.02P.8 | Effects of copper exposure on trapesialis after acute exposures | osmo-ionic regulation in the freshwater Claudia B R Martinez, Universidade crab Aegla castro | Claudia B R Martinez, Estadual de Londrina, Brazil Universidade Estadual de Londrina, Brazil
1.02P.2 | Responses of sympatric dreissenid 1.02P.9 | Ibuprofen: a new risk for species to contamination: comparison Chironomus riparius populations | of zebra mussel and quagga mussel Ana Belén González, UNED, Spain exposed to cadmium, and consequences for ecotoxicological studies. | Fanny Louis, Université Reims ChampagneArdenne, France
SETAC Europe 30th Annual Meeting - SETAC SciCon 37 1.03 – Alternative Approaches to Animal Testing for Aquatic Ecotoxicity Assessments and Environmental Risk Assessments
Chairs: Teresa J Norberg-King, Adam Lillicrap, Miguel Oliveira
Session Discussion: Wednesday 6 May | 13:00-13:45 UTC
Platform 1.03.10 | The use of a fish gill cell 1.03P.7 | The superoxide dismutase culture model to investigate the uptake (SOD) activity: optimization of a 1.03.1 | Update of TG203: what is further of acidic and basic drugs: accurately biomarker of exposure implicated needed to address fish welfare| Ioanna reporting pH is essential to understand in the oxidative stress response of Katsiadaki, Cefas, United Kingdom and develop predictive models of organisms. | Floriane Tisserand, .03.2 | Reducing, refining and replacing bioaccumulation. | Nicolas Bury, University of Lausanne, Switzerland fish acute toxicity tests| Briony University of Suffolk, United Kingdom 1.03P.8 | Non-lethal blood sampling Labram, NC3Rs, United Kingdom 1.03.11 | Developing in-silico predictions from Rainbow trout in the laboratory 1.03.3 | Predictive acute fish toxicity models of toxicity | Chrystalla Iosif, University and in situ | Denina Simmons, and applicability within the industrial of Liverpool, United Kingdom Ontario Tech University, Canada context | Filippo Lunghini, Solvay SA, France Poster 1.03P.10 | Evaluation of a flow-through 1.03.4 | Building bridges between the multiwell plate for application in the FET world of traditional lab animal science 1.03P.1 | Filling Data Gaps with test using zebrafish and fathead minnow and environmental research: better Predictive Models for Chemically Related | Leonie Mueller, RWTH Aachen University, science and improved animal welfare Products: A Case Study with Alcohol Institute for Environmental Research, Germany | Adrian Smith, Norecopa, Norway Ethoxylates | Adriana Bejarano, Shell Health - Americas, United States 1.03P.11 | Non-targeted metabolites 1.03.5 | Are two negative controls profiling based approach on adverse needed when a solvent is used in 1.03P.2 | Evaluating the Xenopus effects of diclofenac to zebrafish embryo an aquatic study? | John Green, Eleutheroembryonic Thyroid Assay | Seungyun Baik, KIST Europe, Germany JohnWGreen-ecostats.com, United States (XETA) for relevance and sensitivity using thyroid-active reference substances | 1.03P.12 | Characterization of 1.03.6 | COMBASE, a computational Laurent Lagadic, Bayer Ag, Germany vitellogenesis in in the long-term platform for the assessment of cultured 3D spheroids of zebrafish liver biocidal active substances of 1.03P.3 | Quantifying Conservatism in cell line | Changgyun Park, KIST Europe ecotoxicological concern | Rafael ecoTTC and CTD: Case Study of Chemicals Forschungsgesellschaft mbH, Germany Gozalbes, ProtoQSAR SL, Spain with Regulatory Water Quality Values | Aude Emma Kienzler, JRC-EC, Italy 1.03P.14 | Do Daphnia magna and 1.03.7 | Potentials and pitfalls of Ceriodaphnia dubia Acute and Chronic transient in vitro reporter bioassays | 1.03P.4 | Assessment of the risk for Tests Show Equitoxic Results? | Teresa Sebastian Lungu, SLU Uppsala, Sweden inhibition of hepatic clearance of Norberg-King, U.S. Environmental pharmaceuticals in fish| Tea Pihlaja, Protection Agency, United States 1.03.8 | First generation annotation University of Helsinki, Finland of the rainbow trout RTgutGC cell 1.03P.15 | Environmental classification line transcriptome | Laura Langan, 1.03P.5 | Eco-BER Case Study: of Essential Oils: Pros. and Cons. of each Baylor University, United States Investigating the applicability of bioactivity standard method and some alternatives. data to inform quantitative hazard | Pauline Remuzat, CEHTRA, France 1.03.9 | The roles of the fish gill in uptake assessments for ecological species and clearance of organic environmental using bioactivity-to-exposure ratios | 1.03P.16 | Petri Nets as a Unifying Tool to contaminants as revealed by an in vitro Aude Emma Kienzler, JRC-EC, Italy Link Physiologically Based Toxicokinetic gill cell culture epithelium | Jennifer Models to Adverse Outcome Pathways | Fitzgerald, Eawag Swiss Federal Institute of 1.03P.6 | Evaluation of the micronucleus Knut Erik Tollefsen, Norwegian Institute Aquatic Science and Technology, Switzerland frequency in gills of mullets Mugil cepalus for Water Research (NIVA), Norway as biomarker of environmental conditions | Alma Sobrino-Figueroa, Universidad Autonoma Metropolitana, Mexico
1.04 – Epigenetic and Evolutionary Effects of Environmental Stressors on Environmental and Human Health
Chairs: Eduarda M Santos, Laia Navarro-Martin, Jana Asselman, Pedro Inostroza
Session Discussion: Monday 4 May | 15:45-16:30 UTC
Platform 1.04.3 | Inhibition of Methyltransferase 1.04.5 | Poster spotlight: Resurrected Activity of Enhancer of Zeste 2 Leads to Daphnia as a model organism to assess 1.04.1 | Transgenerational response Enhanced Lipid Accumulation and Altered evolution of natural populations to to prochloraz in Daphnia magna. A Chromatin Status in Zebrafish| Jorke environmental stressors | Sarah Crawford, 3-generation study | Rikke Poulsen, Kamstra, Institute for Risk Assessment Goethe University Frankurt, Germany Aarhus University, Denmark Sciences Utrecht University, Netherlands 1.04.6 | Poster spotlight: Multigenerational 1.04.2 | Deciphering DNA 1.04.4 | Transcriptomic effects of exposures of Daphnia magna to pristine methyltransferase inhibitor mediated chemical and temperature stress in and aged silver nanoparticles: epigenetic transgenerational effects on Daphnia: high- amphipods from Lake Baikal in Siberia changes and phenotypical ageing throughput analyses and Adverse Outcome | Till Luckenbach, Helmholtz Centre for related effects| Laura-Jayne Ellis, The Pathway assembly | You Song, Norwegian Environmental Research UFZ, Germany University of Birmingham, United Kingdom Institute for Water Research (NIVA), Norway
38 twitter.com/SETAC_World #SETACSciCon 1.04.7 | Poster spotlight: Applying 1.04.12 | Poster spotlight: Identification 1.04P.4 | Zebrafish differential sensitivity DNA Methylation as a Biomarker to of Differentially Methylated Regions to environmental stressors during Assess Latent Effects of Acute Exposure in zebrafish eleutheroembryos early development and implications for of Benzene in Simulated Chemical exposed to TBT | Laia Navarro- subsequent exposures | Paige Robinson, Accident Using Zebrafish Model| Martin, Institute of Environmental University of Exeter, United Kingdom Gyudong Lee, Seoul National University Assessment and Water Research, Spain 1.04P.5 | Assessing Eco-genotoxicity of Science and Technology, South Korea Poster for Prioritizing Chemicals Using Version 1.04.8 | Deciphering the molecular 2.0 of the Ecological Risk Classification mechanisms of pesticide tolerance of 1.04P.1 | Resurrected Daphnia as a Approach | Mark Bonnell, Environment the soil engineer biodiversity | Audrey model organism to assess evolution of and Climate Change Canada, Canada Barranger, University of Rennes 1, France natural populations to environmental stressors | Sarah Crawford, Goethe 1.04P.6 | Identification of Differentially 1.04.9 | Contaminants contributing to University Frankurt, Germany Methylated Regions in zebrafish oxidatively induced DNA damage of eleutheroembryos exposed to TBT | Laia exposed Dreissenid mussels in Detroit 1.04P.2 | Multigenerational exposures Navarro-Martin, Institute of Environmental River | Pawel Jaruga, National Institute of of Daphnia magna to pristine and aged Assessment and Water Research, Spain Standards and Technology, United States silver nanoparticles: epigenetic changes and phenotypical ageing related effects 1.04P.9 | Observed individual plasticity in 1.04.10 | Genetics and genomics of | Laura-Jayne Ellis, The University a generational study of Daphnia magna | resistance of salmon lice to deltamethrin of Birmingham, United Kingdom Rikke Poulsen, Aarhus University, Denmark and emamectin benzoate | Armin Sturm, 1.04P.10 | The effects of waterborne University of Stirling, United Kingdom 1.04P. 3 | Applying DNA Methylation as a Biomarker to Assess Latent Effects of chromate (Cr6+) on protein abundance 1.04.11 | Poster spotlight: Zebrafish Acute Exposure of Benzene in Simulated patterns in Lake trout (Salvelinus differential sensitivity to environmental Chemical Accident Using Zebrafish Model namaycush) and White sucker (Catostomus stressors during early development | Gyudong Lee, Seoul National University commersonii) | Denina Simmons, and implications for subsequent of Science and Technology, South Korea Ontario Tech University, Canada exposures | Paige Robinson, University of Exeter, United Kingdom
1.05 – Fish Model Species in Human and Environmental Toxicology
Chairs: Riccardo Massei, Jorke Kamstra, Ann-Cathrin Haigis
Session Discussion: Tuesday 5 May | 13:00-13:45 UTC
Platform 1.05.7 | Exploring the use of zebrafish Poster embryo models as alternatives to 1.05.1 | Long-term and transgenerational 1.05P.1 | Oestrogenic effects in wild fish in rodent testing for investigating neurobehavioral effects of the insecticide English Rivers: comparing contemporary inflammatory responses to nanomaterials permethrin in zebrafish.| Melanie and historical impacts | Alice Baynes, (NMs) | Suzanne Gillies, Heriot- Blanc, Örebro Universitet, Sweden Brunel University London, United Kingdom Watt University, United Kingdom 1.05.2 | Neurotoxicity profiling of 1.05P. 3 | Vitellogenin Analysis and the 1.05.8 | Distribution of chemicals organophosphate pesticides at use of Aprotinin | Tracey Goodband, between the yolk sac and the embryonic different biological levels using Smithers ERS Limited, United Kingdom body in the zebrafish embryos| zebrafish embryos| Ann-Cathrin Katharina Halbach, Helmholtz centre for 1.05P.4 | Effects of Sub-Lethal Atrazine Haigis, Institute for Environmental environmental research – UFZ, Germany Concentrations on Embryogenesis, Research, RWTH Aachen, Germany Larval Survival and Growth of African 1.05.9 | Multilevel effects of 1.05.3 | Behavioral responses and Catfish, Clarias gariepinus (Burchell, intergenerational exposure to glyphosate cell type-specific transcriptomic 1822) | Prosper Opute, University of and glyphosate based herbicides on and proteomic profiling of zebrafish Benin, Benin City, Nigeria, Nigeria rainbow trout (Oncorhynchus mykiss). embryos (D. rerio) exposed to copper | Jessy Le Du, ANSES, France 1.05P.5 | Endocrine disruption in zebrafish nanoparticles | Michael Burkard, Eawag following exposure to a combination of Aquatic Water Science, Switzerland 1.05.10 | Identification of additional bisphenol A and ketoconazole | Kyunghee key events of organophosphorus 1.05.4 | Exposure to Thirdhand Smoke Ji, Yongin University, South Korea poisoning by using zebrafish larva as induces developmental and metabolic a model | Leslie Dubrana, University 1.05P.8 | Phthalates – a plastic-related changes in zebrafish embryos| Carla of Bordeaux / Inserm U1211 / Maladies chemicals disrupt host immunity Merino Ruiz, Universitat Rovira i Virgili, Spain Rares Génétique et Métabolisme, France via effects on microbiome-gut axis 1.05.5 | Seasonal variation of health | Ondrej Adamovsky, Masaryk 1.05.11 | Identification of biomarker biomarkers in perch from the Baltic University, RECETOX, Czech Republic candidates for discriminating endocrine Sea – Connection to naturally produced disruption from hepatotoxicity 1.05P.9 | The organochlorine pesticide brominated compounds? | Johan in zebrafish (Danio rerio)| Steve dieldrin affects microbial communities Gustafsson, Stockholm University, Sweden Ayobahan, IME Fraunhofer, Germany related to heme and selenium biosynthesis 1.05.6 | Assessment of water quality in the gastrointestinal system of zebrafish 1.05.12 | Poster spotlight: Oestrogenic through an active biomonitoring (Danio rerio) | Ondrej Adamovsky, Masaryk effects in wild fish in English Rivers: approach using three-spined University, RECETOX, Czech Republic comparing contemporary and historical stickleback (Gasterosteus aculeatus) impacts | Alice Baynes, Brunel | Audrey Catteau, INERIS, France University London, United Kingdom facebook.com/setacworld #SETACSciCon 39 1.05P.10 | Investigation of the influence 1.05P.18 | Ecological risk assessment 1.05P.26 | Zebrafish embryos for of pH on the toxicity, uptake and of bisphenol S and bisphenol SIP interspecies prediction of toxicity of biotransformation of Ibuprofen in on freshwater organisms | Suhyun alkoxy/alkyl alcohols and valproic acid zebrafish (Danio rerio) embryos| Park, Yongin University, South Korea by application of the adverse outcome Eleni Panagopoulou, National and pathway concept | Joop de Knecht, 1.05P.19 | Ecotoxicological screening of Kapodistrian University of Athens, Greece National Institute for Public Health and water extracts from River Aconcagua (Chile) the Environment (RIVM), Netherlands 1.05P.11 | Toxic effects of Mebendazole using Danio rerio embryos – Teratogenic on zebrafish Danio rerio| Alma and behavioural effects of environmental 1.05P.27 | Thyroid hormone disruption of Sobrino-Figueroa, Universidad chemical mixtures | Riccardo Massei, two UV filters (EHMC and BP-3) in embryo- Autonoma Metropolitana, Mexico University of Antwerp, Germany larval and adult zebrafish| Inae Lee, Seoul National University, South Korea 1.05P.12 | Effect of cytostatic substances 1.05P.20 | Environmental effects in zebrafish embryos| Miguel Oliveira, assessment using in situ fish 1.05P.28 | Determination of mixture University of Aveiro & CESAM, Portugal embryo testing | Lisbet Sørensen, neurotoxicity using the hyper – and SINTEF Ocean, Norway hypoactivity behavior of zebrafish embryo 1.05P.13 | MS/MS proteomic-based in the spontaneous tail coiling test | approach in liver of Sheepshead 1.05P.21 | O. melastigma as a marine Afolarin Ogungbemi, Helmholtz centre for minnow (Cyprinodon variegatus) alternative to the freshwater model environmental research – UFZ, Germany exposed to perfluorooctanesulfonic species D. rerio for fish embryo toxicity| acid (PFOS) | Alexandre Schonemann, Sarah Johann, RWTH Aachen, Germany 1.05P.29 | Quantitative histological Universidade de Vigo, Spain validation of a semi-quantitative grading 1.05P.22 | Biochemical and behavioural system of fish gonadal maturation usable 1.05P.14 | Exposure to effects of SiO2 nanoparticles on Danio for reproductive toxicology – Space for tetramethylbisphenol F (TMBPF) rerio embryos | Miguel Oliveira, improvement? | Eduardo Rocha, ICBAS induces developmental effects and University of Aveiro & CESAM, Portugal – Institute of Biomedical Sciences of Abel disrupts thyroid endocrine systems 1.05P.23 | Ecotoxicological effects of Salazar and CIIMAR – Interdisciplinary Centre in zebrafish larvae| Hyungkyu Kim, a “smart” engineered nanomaterial in of Marine and Environmental Research, Yongin University, South Korea zebrafish| Roberto Martins, Department U.Porto – University of Porto, Portugal 1.05P.15 | Effects of trabectedin on the of Biology, University of Aveiro, Portugal 1.05P. 30 | Energy-budget modelling development, biochemical markers and 1.05P.24 | Genotoxic and biochemical for early-life stages of Atlantic DNA damage of Danio rerio embryos | effects of the insecticides imidacloprid and cod and haddock | Tjalling Jager, Évila Damasceno, Department of Biology λ-cyhalothrin, alone and mixed, in Danio DEBtox Research, Netherlands & CESAM – University of Aveiro, Portugal rerio embryos | Claudia B R Martinez, 1.05P. 31 | MEOGRT – A Practical 1.05P.16 | Functional benchmark dose Universidade Estadual de Londrina, Brazil Experience | Tracey Goodband, (BMD) approach in the study of the 1.05P.25 | Alternative methods to assess Smithers ERS Limited, United Kingdom dose-response transcriptomic effects the effects of a realistic Persistent Organic exerted by tributyltin (TBT) in zebrafish 1.05P. 32 | Ecotoxicological assessment Pollutant mixture (POP Mix) following eleutheroembryos | Laia Navarro- of fish reproduction: an automated a chronic exposure in zebrafish larvae Martin, Institute of Environmental methodology for egg counting and (Danio rerio). | Gustavo Guerrero-Limón, Assessment and Water Research, Spain viability evaluation – case study using Université de Liège (ULiege), Belgium zebrafish eggs| Amadeu Soares, Universidade de Aveiro, Portugal
1.06 – Human and Environmental Lipid Disruptors
Chairs: Cinta Porte, Carlos Barata, Miguel Machado Santos
Session Discussion: Tuesday 5 May | 15:45-16:30 UTC
Platform 1.06.4 | Untargeted lipidomics of Poster zebrafish (Danio rerio) embryos exposed 1.06.1 | The Echinodermata PPAR: 1.06P.1 | Effects of crude oil on lipid to bisphenol A and estradiol using functional characterization and composition in calanoid copepods comprehensive 2D-LC-HRMS | Miriam exploitation by the model lipid terminating diapause | Elise Skottene, Carolina Cova, CSIC-IDAEA, Spain homeostasis regulator tributyltin | Norwegian University of Science & Miguel Santos, CIIMAR/FCUP, Portugal 1.06.5 | Oil exposure disrupts lipid Technology (NTNU), Norway metabolism during diapause in 1.06.2 | Effects of the exposure to 1.06P.2 | The use of zebrafish calanoid copepods | Elise Skottene, various EDCs on the lipid metabolism of liver cells (ZFL) to characterize and Norwegian University of Science & zebrafish embryos| Pim Leonards, Vrije predict the effect of lipid disrupters Technology (NTNU), Norway Universiteit Amsterdam, Netherlands | Cinta Porte, IDAEA-CSIC, Spain 1.06.6 | Spatially resolved lipidome 1.06.3 | Lipidomic profiling of plasma 1.06P. 3 | Three-dimensional (3D) brown profiling of freshwater sentinel species and endoplasmic reticulum fraction trout primary hepatocyte model for Gammarus fossarum by shotgun lipidomics of Atlantic cod liver for the detection assessing 5α-dihydrotestosterone effects and mass spectrometry imaging | Tingting of metabolic dysfunctions associated on lipidic target genes | Eduardo Rocha, Fu, Institute of Analytical Sciences, France to pollutants exposure | Alejandra ICBAS – Institute of Biomedical Sciences of Gilabert, IDAEA-CSIC, Spain Abel Salazar and CIIMAR – Interdisciplinary Centre of Marine and Environmental Research, U.Porto – University of Porto, Portugal
40 scicon.setac.org 1.07 – Neuroendocrine and Neurochemical Disruption in Vertebrate and Invertebrate Models
Chairs: Carlos Barata
Session Discussion: Monday 4 May | 15:00 – 15:45 UTC
Platfrom Poster 1.07P.2 | Endocrine disruption of volatile PAH concentrations in urban 1.07.1 | Single and combined low 1.07P.1 | Alteration of neuro-dopamine and rural environments | Marja concentrations of neuro-active drugs and steroid hormone homeostasis in Roslund, University of Helsinki, Finland disrupt key neurological signalling wild Bank voles in relation to PFASs pathways in Daphnia magna affecting exposure at a Nordic skiing area | Randi reproduction and lipid metabolism Grønnestad, Norwegian University of | Carlos Barata, CSIC, Spain Science and Technology (NTNU), Norway
1.08 – Not all Oil Spills Behave the Same: Unconventional Oils, Advanced Characterization and Ecotoxicity
Chairs: Moderators: Thomas-Benjamin Seiler, Sarah Johann, Kirit Wadhia
Session Discussion: Wednesday 6 May | 15:45-16:30 UTC
Platform Poster 1.08P.5 | Different Mechanisms of Oil Hydrocarbon Biodegradation by 1.08.1 | Dispersant application increases 1.08P.1 | Novel biomarkers in a marine Shallow and Deep Water Microbial adverse long-term effects of oil on copepod exposed to crude oil | Elise Communities from the Caspian Northern shrimp larvae after six hours Skottene, Norwegian University of Sea | Terry Hazen, The University of exposure | Frederike Keitel-Gröner, NORCE Science & Technology (NTNU), Norway Tennessee, Knoxville, United States – Norweigian research centre, Norway 1.08P.2 | Ecotoxicology for Sustainable 1.08P.6 | Assessing Oil Spill Toxicity 1.08.2 | Acute toxicity of individual Biofuels | Sebastian Heger, Institute for Accurately: A Novel In-Situ Approach polycyclic aromatic compounds and Environmental Research, RWTH, Germany | G. Allen Burton, University compound mixtures to American lobster 1.08P. 3 | Influence of a chemical dispersant of Michigan, United States (Homarus americanus) larvae using a on oil toxicity: a multilevel approach passive dosing system | Danielle Philibert, 1.08P.7 | Containing Oil Spills with in adult zebrafish| Amaia Orbea, Huntsman Marine Science Centre, Canada Novel Acrylamide/Carboxylic Acid University of the Basque Country, Spain Copolymers | Fereshte Damavandi, 1.08.3 | The use of standard toxicity 1.08P.4 | Toxicity to sea urchin embryos University of Alberta, Canada test methods in a modified process of three types of WAFs weathered for the approval of oil spill treatment under ice, alone and mixed with products in the UK | Helen Walton, Cefas dispersant | Urtzi Izagirre, University Lowestoft Laboratory, United Kingdom of the Basque Country UPV/EHU, Spain
1.09 – Novel Developments in Endocrine Disruptor Testing with Vertebrates
Chairs: Lisa Annie Baumann, Laurent L.-M. Lagadic
Session Discussion: Monday 4 May | 13:45-14:30 UTC
Platform Poster 1.09P.6 | Sensitivity of the common frog Rana temporaria to the anti-thyroid 1.09.1 | Interlaboratory OECD Validation 1.09P.1 | Multi-Endocrine Disruptors drug 6-propylthiouracil (PTU): effects of the Rapid Androgen Disruption Adverse Screening in Zebrafish| Ane Altuna, and new potential endpoints | Amandine outcome Reporter (RADAR) assay | BBD BIOPHENIX, S.L., Spain Aviles, Syddansk Universitet, Denmark Andrew Tindall, Watchfrog S.A., France 1.09P.2 | Interaction of thyroid hormones 1.09P.7 | Chemical selection for the 1.09.2 | A new standard for endocrine and eye development in fish: An adverse EU-NETVAL Thyroid Validation Study disruptor testing in fish – The integrated outcome pathway approach | Lisa | Aude Emma Kienzler, JRC-EC, Italy Fish Endocrine Disruptor Test (iFEDT) | Lisa Baumann, University of Heidelberg, Germany Baumann, University of Heidelberg, Germany 1.09P.8 | Can androgens modulate classic 1.09P. 3 | Behavioural responses of estrogenic targets in brown trout primary 1.09.3 | Refinement of an OECD test zebrafish (Danio rerio) embryos to direct or hepatocytes? | Eduardo Rocha, ICBAS guideline for evaluating the effects of parental thyroid disruptor exposure | Lisa – Institute of Biomedical Sciences of Abel EDCs on aromatase gene expression Baumann, University of Heidelberg, Germany Salazar and CIIMAR – Interdisciplinary Centre and reproduction using novel 1.09P.4 | Transgenerational effects of of Marine and Environmental Research, transgenic cyp19a1a-eGFP zebrafish a thyroid disrupting compound on the U.Porto – University of Porto, Portugal | Julie De Oliveira, INERIS, France development of the swim bladder of 1.09P.9 | Retinoid pathway disruption: 1.09.4 | Recommendations on how to zebrafish, Danio rerio, embryos| Lisa in vitro and in vivo bioactivity of retinoid perform, report and evaluate hormonal Baumann, University of Heidelberg, Germany compounds detected in the environment and gross pathological endpoint for non- 1.09P.5 | Reversibility of thyroid | Marek Pipal, Masaryk University, Faculty mammalian vertebrates for Endocrine disrupting effects on eye and of Science, RECETOX, Czech Republic Disruption (ED) assessment | Sibylle swimbladder development in zebrafish Ermler, Brunel University, United Kingdom (Danio rerio) embryos | Lisa Baumann, University of Heidelberg, Germany
SETAC Europe 30th Annual Meeting - SETAC SciCon 41 1.09P.10 | Cytotoxic Effect of 1.09P.12 | Deciphering the mode of Polychlorinated Biphenyl (PCB-153) action of thyroid active chemicals using on Human Placental Trophoblast Cells the XETA (Xenopus Eleutheroembryonic | Chinedu Ahuchaogu, University of Thyroid Assay) | David Du Pasquier, Maryland Eastern Shore, United States Watchfrog S.A., France
1.10 – Novel Tools and Bioassays for the 21st Century Environmental Toxicology
Chairs: Ludek Blaha, Cornelia Kienle
Session Discussion: Wednesday 6 May | 13:00-13:45 UTC
Platform 1.10P.2 | Could we offer a comprehensive 1.10P.9 | Exploration of Molecular assessment of chemical mixtures without Initiating Events (MIEs) in the Adverse 1.10.1 | Biomarker development for previous knowledge of the individual Outcome Pathways (AOPs) relevant for neonicotinoid exposure in the soil dwelling components? | Veronica Lizano- poorly studied novel flame retardants Folsomia candida | Ruben Bakker, Vrije Fallas, Linköping University, Sweden | Ludek Blaha, Masaryk University, Universiteit Amsterdam, Netherlands Faculty of Science, Czech Republic 1.10P. 3 | Protein structural similarity for 1.10.2 | Characterization of endocrine extrapolation of toxicity knowledge across 1.10P.10 | Human stem cell-based 3D in disruptors linked to metabolic related species | Carlie LaLone, U.S. Environmental vitro models to study cyanotoxin-induced adverse outcome pathways using Protection Agency, United States chronic hepatotoxicity and liver disease | artificial intelligence and systems Riju Roy Chowdhury, Masaryk University, toxicology | Karine Audouze, Université 1.10P.4 | A Weight-of-Evidence Faculty of Science, RECETOX, Czech Republic de Paris/ Inserm U1124, France Approach for Androgen Receptor Conservation Across Vertebrate 1.10P.11 | Human 3D hepatic spheroids 1.10.3 | Harvesting what we sow: Species | Sara Vliet, U.S. Environmental for in vitro assessment of hepatotoxic exploiting the potential of bioassay Protection Agency, United States and steatogenic key events in response data to support mechanistically to endocrine disruptors. | Marina oriented hazard and risk assessment | 1.10P.5 | Application of in vivo and in vitro Grossi, Masaryk University, Faculty of Knut Erik Tollefsen, NIVA – Norwegian assays for studying the chemosensitizing Science, RECETOX, Czech Republic Institute for Water Research, Norway potential of environmental chemicals in zebrafish embryos| Till Luckenbach, 1.10P.12 | Testing the acute toxicity 1.10.4 | Poster spotlight: Multi-omics Helmholtz Centre for Environmental of an alternative to glyphosate – Analysis Reveals that Co-exposure Research UFZ, Germany pelargonic acid | Katharina Wießner, to Phthalates and Metals Disturbs FH Technikum Wien, Austria Urea Cycle and Choline Metabolism 1.10P.6 | Tetraselmis chui as a marine | Nafsika Papaioannou, Aristotle green microalgae model specie for 1.10P.13 | Whole-tissue gene and protein University of Thessaloniki, Greece toxicity testing | Severine Larroze, expression predict adverse outcomes AquaBioTech Group, Malta of 17α-ethinylestradiol in early-life 1.10.5 | Poster spotlight: Could we offer stage fathead minnows (Pimephales a comprehensive assessment of chemical 1.10P.7 | Newly developed Ames promelas) | Alper James Alcaraz, mixtures without previous knowledge of RAMOS test allows mutagenicity University of Saskatchewan, Canada the individual components? | Veronica detection by online monitoring of Lizano-Fallas, Linköping University, Sweden respiration activity | Kira Kauffmann, 1.10P.14 | Low dose gamma radiation RWTH Aachen University, Germany induce chromatin accessibility changes Poster in zebrafish embryos| Leif Lindeman, 1.10P.8 | A Comparison of Bioassay Norwegian University of Life Scienc, Norway 1.10P.1 | Multi-omics Analysis Reveals Methods for Lepidopteran Species Using that Co-exposure to Phthalates and Mamestra brassicae | Claire Badder, Centre 1.10P.15 | “Bellow the eye”: using eDNA Metals Disturbs Urea Cycle and Choline for Ecology and Hydrology, United Kingdom for the evaluation of environmental Metabolism | Nafsika Papaioannou, water quality in a tropical urban Aristotle University of Thessaloniki, Greece estuary | Natalia Pereira, Universidade Estadual do Oeste do Paraná, Brazil
1.11 – One Health and the Environment
Chairs: Rebecca J. Van Beneden, Remy Babich
Session Discussion: Monday 4 May | 15:00 – 15:45 UTC
Platform 1.11.3 | Impact of personal history Poster on health effects related to food 1.11.1 | Antibiotic and resistance 1.11P.2 | Effects of boat noise on the contaminants | Manon Pruvost-Couvreur, gene occurrence in cattle manure Lusitanian toadfish Halobatrachus LABERCA UMR1329 INRA, France and digestate of anaerobic digestion didactylus: evidences from oxidative stress plants fed with agrozootechnical waste 1.11.4 | Effects of heavy metals to and energy metabolism parameters and | Andrea Visca, CNR-IRSA, Italy neurodevelopment in a mother-infant linkage to reproductive success | Sara cohort study. | Nafsika Papaioannou, Novais, Polytechnic of Leiria, Portugal 1.11.2 | Implications of stereochemistry Aristotle University of Thessaloniki, Greece in antibiotic resistance – the 1.11P. 3 | Use of RNA sequence analyses stereoselective metabolism of antibiotics 1.11.5 | Developmental nephrotoxicity to identify novel modes of action by environmental bacteria | Felicity of low-level chemical mixtures: of oil toxicity to early life stages of Elder, University of Bath, United Kingdom implications for chronic kidney disease fish.| Daniel Schlenk, University of of unknown etiology | Remy Babich, California, Riverside, United States University of Maine, United States 42 twitter.com/SETAC_World #SETACSciCon 1.11P.4 | Histopathology lesions linked 1.11P.5 | Skin as an alternative to to pop levels in tissues from blue shark | traditionally invasive tissues in Sara Novais, Polytechnic of Leiria, Portugal biomonitoring campaigns using Scyliorhinus canicula as a sentinel | Sara Novais, Polytechnic of Leiria, Portugal
1.12 – Perspectives on Data Driven Biology: Applications and Safety Assessments
Chairs: Philipp Antczak, Anze Zupanic
Session Discussion: Thursday 7 May | 13:00-13:45 UTC
Platform 1.12.3 | Metabolomics approach reveals Poster disruption of metabolic pathways in the 1.12.1 | Ecotoxicogenomic fingerprints 1.12P.1 | EcoToxDB: a toxicogenomics marine bivalve Mytilus galloprovincialis of neuronal – and growth – targeting knowledgebase to query, browse exposed to a WWTP effluent extract| insecticides in zebrafish embryos and interrogate chemical-gene- Thibaut Dumas, Université de Montpellier | Hannes Reinwald, Fraunhofer- exposure networks | Markus Hecker, – UMR 5569 Hydrosciences, France Institut für Molekularbiologie und University of Saskatchewan, Canada Angewandte Oekologie IME, Germany 1.12.4 | Exploiting the concept of functional 1.12P.2 | EcoToxChip: A toxicogenomics extrapolation to identify conservation 1.12.2 | Metabolomics to decipher tool for chemical prioritization and of toxicity pathways across species | phytoplankton responses to environmental management | Markus Claudia Rivetti, Unilever, United Kingdom silver nanomaterials in aquatic Hecker, University of Saskatchewan, Canada environment | Vera Slaveykova, 1.12P. 3 | Semantic data access University of Geneva, Switzerland for toxicological research. | Erik Myklebust, NIVA – Norwegian Institute for Water Research, Norway
1.13 – Wildlife Ecotoxicology: From Sub-lethal Responses to Adverse Effects at the Individual and Population Level
Chairs: Sara Novais, Mason D. King, Begona Jimenez, Marta Herrero Villar
Session Discussion: Thursday 7 May | 13:00-13:45 UTC
Platform Poster 1.13P.7 | Repellency, anorexia, and aversion by neonicotinoid-treated seeds 1.13.1 | At risk: Preying on seals pushes 1.13P.1 | Levels of Polychlorinated and cotyledons on captive eared doves killer whales from Norway above Biphenyls Are Still Associated With (Zenaida auriculata, Columbidae) | pollution effects thresholds| Clare Toxic Effects in Harbour Porpoises Laura Addy Orduna, Instituto Nacional Andvik, University of Oslo, Norway (Phocoena phocoena) Despite Having de Tecnología Agropecuaria, Argentina Fallen Below Proposed Toxicity 1.13.2 | Mercury modulated immune Thresholds | Rosie Williams, Institute 1.13P.8 | The ingestion of copper treated responses in Arctic Barnacle of Zoology, United Kingdom seeds during winter has lagged effects goslings (Branta leucopsis) with viral on reproductive output of red-legged challenge | Biyao Han, Wageningen 1.13P.2 | An overview of the last 35 years partridges | Manuel Ortiz Santaliestra, University & Research, Netherlands of research into lead contamination Spanish Institute for Game and Wildlife in European raptors | Laura Monclús, 1.13.3 | Embryotoxicity of diluted bitumen Research (IREC) UCLM-CSIC-JCCM, Spain Norwegian University of Science & applied to eggshells of wild double-crested Technology (NTNU), Norway 1.13P.9 | Do court sentences reflect cormorants and domestic chickens | the reality of wildlife poisoning Mason King, Simon Fraser University, Canada 1.13P. 3 | Wide scope screening of in the natural environment? The emerging contaminants in peregrine 1.13.4 | Experimental analysis of Spanish case. | Antonio Juan Garcia- falcon Falco peregrinus in The Netherlands the impact of the seeds treated with Fernandez, University of Murcia, Spain | Georgios Gkotsis, National and triazoles fungicides on the physiology Kapodistrian University of Athens, Greece and reproduction of the Red Partridge | Elena Vizcaíno, Instituto de Investigacion 1.13P.4 | Environmental health en Recursos Cinegeticos, Spain assessment based on a complementary approach using metal quantification, 1.13.5 | Stress response gene oxidative stress and trophic ecology expression markers and their relation of two sympatric gull species (Larus to metal concentrations in blood of michahellis & Larus audouinii) | Sara São Tomé endangered green sea Novais, Polytechnic of Leiria, Portugal turtles (Chelonia mydas) | Inês Morão, Polytechnic of Leiria, Portugal 1.13P.5 | Embryonic exposure to persistent organic pollutants and mercury in marine birds and investigations into associated alterations in hepatic gene expression | Mason King, Simon Fraser University, Canada
1.13P.6 | Effect of Diluted Bitumen on the Survival, Physiology, and Behaviour of the Zebra Finch (Taeniopygia guttata) | Mason King, Simon Fraser University, Canada facebook.com/setacworld #SETACSciCon 43 SETAC Europe Certification of Environmental Risk Assessors The certification has been developed to provide an internationally recognised standard for Environmental Risk Assessors.
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44certification.setac.org [email protected] 1.14 – Innovative Assessment Tools and Criteria for the Protection of Ecosystems and Human Health
Chairs: Stefania Marcheggiani, Henner Hollert, Mario Carere
Session Discussion: Monday 4 May | 17:00 – 17:30 UTC
Poster Corner 1.14PC.4 | Towards Assessing Tobacco 1.14P.4 | Alternative methods to animal and Cannabis Contaminants in testing: the zebrafish earliest life- 1.14PC.1 | Toxicologic effects in clams Protected Areas | Patricia Holden, stages as a tool for the detection of Ruditapes philippinarum exposed University of California, United States chemical pollution effects in the context to remediated seawater by GO-PEI of Water Framework Directive | Mario previously contaminated with Hg Poster Carere, Italian Institute of Health, Italy under warming scenario | Francesca Coppola, Department of Biology & 1.14P.1 | Smart genomic technology to 1.14P.5 | A preliminary study comparing CESAM – University of Aveiro, Portugal prompt identification of pollution sources in a toxicity assessment instrument output aquatic ecosystem when extreme weather to traditional laboratory assays using 1.14PC.2 | Assess environmental toxicity events happen. | Stefania Marcheggiani, Daphnia magna | Katie Reilly, The risks in running waters by exploiting Italian Institute of Health ISS, Italy University of Birmingham, United Kingdom functional morphological markers in Hydra vulgaris Pallas, 1766 | Giulia 1.14P.2 | Can macrophytes be a novel 1.14P.6 | A new structural alerts scheme Cesarini, University of Roma Tre, Italy tool for trapping microplastic in aquatic to predict the absence of well-known ecosystem? | Filippo Chiudioni, endocrine disruption modes of action 1.14PC.3 | A new Decision Support Tool Istituto Superiore di Sanità, Italy | Franklin Bauer, KREATiS, France for managing the impacts of blue spaces on human health and well-being in the 1.14P. 3 | Application of Effect-based 1.14P.7 | Assessment of ecological state context of BlueHealth project | Camilla Methods (EBMs) in a river basin: a (health) of aquatic ecosystems on the Puccinelli, Istituto Superiore di Sanità, Italy preliminary study in Central Italy | Mario base of cardiac activity monitoring Carere, Italian Institute of Health, Italy system using Bivalves as bioindicators | Tatiana Kuznetsova, Saint-Petersburg Scientific Research Center for Ecological Safety Russian Academy of Sciences, Russia
1.15 – Chemical Safety Assessment of Surfactants: Current Challenges in Regulatory Science and Future Prospects
Chairs: Arnaud Catherine, Mark A. Bonnell, Steven Droge
Session Discussion: Tuesday 5 May | 17:00 – 17:30 UTC
Poster Corner Poster 1.15P.4 | Disclosure and data availability of co-formulants and their relative 1.15PC.1 | Bioconcentration of Anionic 1.15P.1 | Assessment of ecological hazards toxicity to active ingredients in Surfactants in Fish | Anton Ribbenstedt, and environmental fate of disinfectant viticultural pesticides. | Ashvini Victor, Stockholm University, Sweden quaternary ammonium surfactants | Paul Institute for Environmental Sciences DeLeo, Integral Consulting Inc., United States 1.15PC.2 | Development of coarse- University of Koblenz-Landau, Germany grained simulation methods to 1.15P.2 | Biodegradation studies 1.15P.6 | Toxicity of 3 surfactants: study membrane partitioning | Elin with biocidal cationic surfactants: alkylbenzene sulfonate, lauryl Barrett, Unilever, United Kingdom how to mitigate toxicity and secure alkylsulfonate and triton x in 4 bioaccessibility? | Steven Droge, University 1.15PC.3 | Surfactants: Substances of different cladoceran species| Alma of Amsterdam/IBED Institute, Netherlands Concern? ECHA’s current challenges in Sobrino-Figueroa, Universidad safety assessment | Jan Weber, European 1.15P. 3 | Can adjuvants affect Eisenia Autonoma Metropolitana, Mexico Chemicals Agency (ECHA), Finland fetida growth or reproduction? | 1.15P.7 | Utilising membrane partitioning Isabel García, CENUR Litoral Norte, 1.15PC.4 | Using rainbow trout S9 coefficients in physiologically- Universidad de la Republica, Uruguay clearance rates as first W-o-E for based kinetic modelling | Elin biotransformation potential for Barrett, Unilever, United Kingdom surfactants | Steven Droge, University of 1.15P.8 | A proposed Hofmeister series for Amsterdam/IBED Institute, Netherlands anionic surfactants | Jort Hammer, National Institute for Environmental Studies, Japan
1.16 – Improving Exposure Characterization of In Vitro Testing to Support Quantitative Extrapolations to In Vivo Systems
Chairs: Aaron D. Redman, Beate Escher, Michelle Rau Embry
Session Discussion: Wednesday 6 May | 17:00 – 17:30 UTC
Poster Corner 1.16PC.2 | Quantification of 1.16PC.3 | Transfer of organic concentrations of organic ions in 96- chemicals across the fish intestinal 1.16PC.1 | Can TK-TD modelling bridge well plates for improved exposure epithelium: an experimental and the gap between in vitro and in vivo assessment in cell-based bioassays | computational study | Anze Zupanic, mammalian toxicity data? | Thomas Luise Henneberger, Helmholtz centre for National Institute of Biology, Slovenia Martin, Environment Department, environmental research – UFZ, Germany University of York, United Kingdom
SETAC Europe 30th Annual Meeting - SETAC SciCon 45 Poster 1.16P.2 | BE-SPME as a predictive tool 1.16P. 3 | SNAPFISH – Searching for within the in vitro space (Verification testing refined in vitro approaches to predict 1.16P.1 | ECO 36 Paving the way for against historical datasets). Reduced bioconcentration in fish| Nathalie QIVIVE: from nominal to free to cellular volume BE-SPME testing and method Grau, Institute for Environmental concentrations in in vitro assays | Beate development. | Aaron Redman, Exxon Research, RWTH Aachen, Germany Escher, Helmholtz Centre for Environmental Mobil Biomedical Sciences, Inc., Belgium Research GmbH – UFZ, Germany
Track 2: Ecotoxicology Becomes Stress Ecology: From Populations to Ecosystems and Landscapes
2.01 – Aquatic and Terrestrial Plant Ecology, Ecotoxicology and Risk Assessment
Chairs: Rena Jutta Irene Isemer, Henry O Krueger, Silvia Mohr
Session Discussion: Wednesday 6 May | 13:45-14:30 UTC
Platform 2.01P.5 | Is the aquatic effect assessment 2.01P.11 | Developing a tool to apply in the for herbicides protective in the EU ? | risk assessment for Plant Communities 2.01.1 | Glyceria maxima: Development Gertie Arts, Wageningen Environmental in the vicinity of agricultural fields/ of an OECD Test Guideline | Joanna Research – WUR, Netherlands orchards | Gertie Arts, Wageningen Davies, Syngenta, United Kingdom Environmental Research – WUR, Netherlands 2.01P.6 | Effects of artificial ultraviolet 2.01.2 | Ecotoxicity Testing of Water B radiation on macrophyte Lemna 2.01P.12 | Closing the gap between lower Plants under Flow-Through Conditions | minor: a conceptual study for toxicity and higher tier testing in NTTPs: assessing Stefan Höger, Innovative Environmental pathway characterization | Knut effects of a sulfonylurea herbicide on Services (IES) Ltd, Switzerland Erik Tollefsen, NIVA – Norwegian an experimental plant community in 2.01.3 | A question of complexity: Institute for Water Research, Norway containers under semi-field conditions Investigating regime shifts caused by | Rena Isemer, Bayer Ag, Germany 2.01P.7 | Modes of action and adverse agricultural run-off and climate warming effects of gamma radiation in an 2.01P.13 | Higher tier testing in non- between aquatic plants and microalgae aquatic macrophyte Lemna minor | target terrestrial plants – Steps towards in micro – and mesocosms | Vinita Knut Erik Tollefsen, NIVA – Norwegian increased realism | Christine Mihan, Vijayaraj, Universite de Lorraine, France Institute for Water Research, Norway Bayer CropScience AG, Germany 2.01.4 | Based on field data, is the current 2.01P.8 | Combined effects of gamma 2.01P.14 | Reproductive plant testing standard risk assessment for NTTPs at the radiation and ultraviolet-B on Lemna – What has to be considered Review EU-level sufficiently protective?| Heino minor: mechanistic insights and of published data and summary of Christl, Tier3 Solutions GmbH, Germany quantitative assessment | Knut Erik identified open questions to implement Poster Tollefsen, NIVA – Norwegian Institute reproductive phases in non-target plant for Water Research, Norway testing for registration purposes | 2.01P.1 | A small-scale setup for testing Holger Teresiak, Agro-Check, Germany algal toxicity of nanomaterials and other 2.01P.9 | Is glyphosate-based difficult substances| Susanne Kruse, management of invasive aquatic 2.01P.15 | Historical Sensitivity of Technical University of Denmark, Denmark plants detrimental to nearby native Common Species Used In Non-Target at-risk macrophytes? | Verena Sesin, Terrestrial Plant Testing | Christian 2.01P.2 | Maintaining the exponential University of Koblenz-Landau, Germany Picard, Smithers, United States growth rate of algae in a 96-hour exposure | Emma Danby, Covance, United Kingdom 2.01P.10 | Assessment of the effects 2.01P.16 | Phytotoxicity of sugarcane of 3 non-steroidal anti-inflammatory vinasse biodigested in an acidogenic 2.01P.4 | Investigating the Toxicity drugs on the macrophytes Lemna reactor | Mayara Felipe, University of Zearalenone to Freshwater gibba L. and Egeria densa Planch. 1849 of Sao Paulo – USP, Brazil Macrophytes (Lemna minor) and | Alma Sobrino-Figueroa, Universidad Microalgae (Pseudokirchneriella Autonoma Metropolitana, Mexico subcapitata). | Emily Eagles, University of Plymouth, United Kingdom
2.02 – Bees, Bugs and Beneficials in Environmental Risk Assessment and Testing
Chairs: Ivo Roessink, Jane C Stout, Jacoba Wassenberg, Stefan Kimmel
Session Discussion: Wednesday 6 May | 13:00-13:45 UTC
Platform 2.02.2 | Can flower strips mitigate 2.02.4 | Fungicides, herbicides and effects negative effects of a mixture of plant on bees: where are the gaps? | Dara 2.02.1 | Effect of agricultural landscape protection products to honey bees in a Stanley, University College Dublin, Ireland structure on response of the two semi-field approach?| Denise Castle, consecutive generations of the ground 2.02.5 | A comparative analysis of active Julius-Kuehn-Institute, Germany beetle Poecilus cupreus to Proteus ingredient and commercial formulated 110 OD insecticide | Grzegorz Sowa, 2.02.3 | A feeding study with a sublethal glyphosate on the brain and gut proteome Institute of Environmental Sciences, neonicotinoid dosage: observed effects of the bumblebee Bombus terrestris. | Jagiellonian Univeristy, Poland by conventional assessment methods Merissa Cullen, Maynooth University, Ireland and a novel AI based visual monitoring technology. | Silvio Knaebe, Eurofins Agroscience Services Ecotox GmbH, Germany
46 twitter.com/SETAC_World #SETACSciCon 2.02.6 | A multibiomarker approach to 2.02P.10 | Honey residue semi-field studies 2.02P.19 | Bee Pollinator Toxicogenomics: evaluate the impact of anthropogenic first experiences and open questions Understanding the Biochemical and contaminants on the ecotoxicological | Silvio Knaebe, Eurofins Agroscience Molecular Interactions of Managed status of honey bees, Apis mellifera | Services Ecotox GmbH, Germany Bee Pollinators with the Novel Ilaria Caliani, University of Siena, Italy Butenolide Insecticide Flupyradifurone 2.02P.11 | Pollinator monitoring for | Marion Zaworra, Bayer AG, Crop standardized evaluations of wild bee Poster Science Division, Germany communities in agroecosystems and its 2.02P.1 | Increased Pollinator testing potential in a risk assessment context 2.02P.20 | Disturbed energy metabolism demands: What we know by now from the | Silvio Knaebe, Eurofins Agroscience after neonicotinoid exposure in relation to rush | Thomas Schmidt, IES Ltd, Switzerland Services Ecotox GmbH, Germany altered homing flight activity of honey bees | Verena Christen, University of applied 2.02P.2 | Practical and regulatory 2.02P.12 | “A buzz of silence”: identifying sciences Muttenz (FHNW), Switzerland experience in the conduct of bee native bee species sensitivity to residue trials | Elizabeth Collison, pesticides in a high pollination dependent 2.02P.21 | Body distribution and effects of Staphyt Regulatory, United Kingdom area. | Natalia Pereira, Universidade the neonicotinoid insecticide clothianidin 2.02P.4 | Current challenges and Estadual do Oeste do Paraná, Brazil in bumblebees (Bombus terrestris) | Malin Røyset Aarønes, University of Oslo, Norway future perspectives of the bee risk 2.02P.13 | Quantification of pollen intake as assessment under the new EFSA guidance a behavioral endpoint for foraging activity 2.02P.22 | The neonicotinoids clothianidin for cereal crops | Neus Rodriguez in ecotoxicological risk assessment | and imidacloprid differentially affect Sanchez, Kerona Scientific Ltd, Ireland Katharina Schmidt, apic.ai GmbH, Germany the brain of bumblebees at the cellular and molecular levels prohibiting 2.02P.5 | Progress on the Osmia acute 2.02P.14 | Comparing model predictions the identification of biomarkers of oral test – findings of the ICPPR Non- to measured diversity of and pesticide general insecticide exposure. | James Apis subgroup solitary bee laboratory residues in pollen samples, collected Carolan, Maynooth University, Ireland testing | Ivo Roessink, Wageningen in the citizen science based INSIGNIA Environmental Research, Netherlands project | Ivo Roessink, Wageningen 2.02P.23 | Development of a standardized 2.02P.6 | Comparative Toxicity of Environmental Research, Netherlands laboratory test for the mayfly Cloeon dipterum | Ivo Roessink, Wageningen Dimethoate to Honeybees, Apis 2.02P.15 | Characterizing pesticide Environmental Research, Netherlands indica and Apis mellifera | Raveesha residues in pollen and nectar collected KP, Eurofins Advinus Limited, India from plants: The case study of Ireland | 2.02P.24 | The pattern of interspecific 2.02P.7 | Combined exposure of the Elena Zioga, Trinity College Dublin, Ireland sensitivity of carabid beetles towards cypermethrin in oilseed rape crops red mason bee Osmia bicornis to three 2.02P.16 | Residues in landscale plants changes with exposure time | Danuta insecticides reveals significant interactive and sublethal effects on bumblebees and Frydryszak, Jagiellonian University, Poland effects| Agnieszka Bednarska, 2 specie of butterflies| Vera Krischik, Polish Academy of Sciences, Poland University of Minnesota, Twin Cities, Italy 2.02P.25 | Toxicity of Mamestra brassicae to Different Classes of Pesticide 2.02P.8 | Effect of agricultural landscape 2.02P.17 | Interactions Between Compounds Exposed Through Artificial structure on pesticides residues and pollen Bombus terrestris and Glyphosate- Diet | Claire Badder, Centre for Ecology diversity in the nests of red mason bee Treated Plants: Are Bees at Risk of and Hydrology, United Kingdom Osmia bicornis | Agnieszka Bednarska, Herbicide Exposure? | Linzi Thompson, Polish Academy of Sciences, Poland University College Dublin, Ireland 2.02P.26 | Precision farming - consideration of reduced exposure in 2.02P.9 | Effect of agricultural landscape 2.02P.18 | Exposure of the bumble bee the pollinator risk assessment | Michael structure and pesticides residues on Bombus terrestris to anthropogenic Faupel, Rifcon GmbH, Germany population parameters of the red mason pollutants in urban and agrarian bee Osmia bicornis | Agnieszka Bednarska, environments | Lena Benner, RWTH Polish Academy of Sciences, Poland Aachen University, Germany
2.03 – Contaminants in Highly Exposed Wildlife: Interactions of Contaminants, Climate Change, and Other Environmental Stressors
Chairs: Veerle Jaspers, Laura Monclús
Session Discussion: Thursday 7 May | 13:45-14:30 UTC
Platform 2.03.3 | Poster spotlight: Effect of Poster agricultural management on males’ 2.03.1 | Landfills represent significant 2.03P.1 | Effect of agricultural management reproductive status in Iberian hare atmospheric sources of exposure to on males’ reproductive status in Iberian (Lepus granatensis) | Rafael Mateo halogenated flame retardants for hare (Lepus granatensis) | Rafael Soria, IREC (CSIC – UCLM), Spain urban-adapted gulls | Manon Sorais, Mateo Soria, IREC (CSIC – UCLM), Spain University of Quebec, Canada 2.03.4 | Poster spotlight: Time trends 2.03P.2 | Time trends of persistent organic of persistent organic pollutants and 2.03.2 | Herring gull and common eider pollutants and mercury in Canadian Arctic mercury in Canadian Arctic ringed as indicators of contaminants in an urban ringed seals and relationships with climate seals and relationships with climate fjord | Helene Thorstensen, Department parameters | Magali Houde, Environment parameters | Magali Houde, Environment of Bioscences, University of Oslo, Norway and Climate Change Canada, Canada and Climate Change Canada, Canada 2.03P.3 | Effects of pesticides on wildlife: The conservation of the Iberian hare in Spanish agrosystems | Rafael Mateo Soria, IREC (CSIC – UCLM), Spain facebook.com/setacworld #SETACSciCon 47 2.03P.4 | Silent Scottish ponds: 2.03P.5 | Effect of temperature on Evaluating the health of natterjack a short-term exposure of common toads (Epidalea calamita) in Scotland goby (Pomatoschistus microps) to an in relation to present and historic environmentally relevant mercury sites | Sean MacLeod, University of the concentration | Amadeu Soares, West of Scotland, United Kingdom Universidade de Aveiro, Portugal
2.04 – Ecosystem Functions and Services: Understanding and Managing Anthropogenic Impact
Chairs: Claudia Rivetti, Ekaterina Kovaleva, Angel Cano
Session Discussion: Tuesday 5 May | 15:00 – 15:45 UTC
Platform 2.04P.2 | Biomonitoring in the 2.04P.9 | Assessing chemical risk within an Anthropocene: Rapid Assessment of ecosystem services framework: proof of 2.04.1 | Ecosystem functions and services Mining Remediation using Environmental concept case study with zinc | Andrew Ross of the land under municipal dumpsite DNA (eDNA) Metabarcoding | Roman Brown, Exeter University, United Kingdom impact | Ekaterina Kovaleva, M.V. Lanno, Ohio State University, United States Lomonosov Moscow State University, Russia 2.04P.10 | Environmental risk assessment 2.04P.4 | Structural and functional changes of plant protection products using 2.04.2 | Functional traits link in ground beetle communities of different the ecosystem services concept: anthropogenic impact and disturbance ecosystems over a period of 25 years | Prospective proof of concept case study regimes driving ecosystem function in Lucas Stratemann, RWTH-Aachen, Germany | Paul van den Brink, Wageningen a floodplain wetland complex| Natalie Environmental Research, Netherlands Rideout, Canadian Rivers Institute, Canada 2.04P.5 | Survey of the Scarabaiedae (Coleptera) fauna of ParNa Iguaçu 2.04P.11 | Assessing chemical risk within 2.04.4 | Disentangling multiple stressor in Santa Tereza do Oeste – Paraná, an ecosystem services framework: pathways in a highly complex deltaic Brazil | Natalia Pereira, Universidade proof of concept case study with a ecosystem | Wendy Monk, Environment Estadual do Oeste do Paraná, Brazil laundry surfactant | Stuart Marshall, and Climate Change Canada, Canada Consultant, United Kingdom 2.04P.6 | “Once upon a time in Brazil”, 2.04.5 | Assessing chemical risk within an Glyphosate, AMPA and Orthoptera lived 2.04P.12 | Bridging the gap between ecosystem services framework: proof of together… | Natalia Pereira, Universidade environmental sciences and societal concept case studies | Lorraine Maltby, Estadual do Oeste do Paraná, Brazil challenges aiming an integrated The University of Sheffield, United Kingdom management of coastal ecosystems 2.04P.7 | Ecotoxicological assessment of 2.04.6 | Towards a holistic method under the risk of salinization: SALTFREE coal-mining associated soil environments: deriving specific protection goals and SALTFREE II | Isabel Lopes, an earthworm bioassay | Mark Maboeta, based on ecosystem services | University of Aveiro, Portugal North-West University, South Africa Christoph Mayer, BASF SE, Germany 2.04P.13 | Embedding Ecosystem 2.04P.8 | Bringing an ecosystems Services in Plant Protection Product Poster perspective into ecological risk Regulation | Samantha Deacon, assessment: an overview | Claudia 2.04P.1 | Use of ecosystem services Ramboll UK Limited, United Kingdom concept in land degradation estimate Rivetti, Unilever, United Kingdom in Russian Federation | Maria Guchok, ANO Ecoterra, Russia
2.05 – Embedding Ecological Concepts in Ecotoxicology: Processes, Populations and Communities
Chairs: David Spurgeon, Andrew C Johnson, Jeremy J Piggott
Session Discussion: Wednesday 6 May | 13:00-13:45 UTC
Platform 2.05.4 | Mainstreaming biodiversity Poster in European field crop production| 2.05.1 | Responses of invertebrates 2.05P.1 | Are forests providing their Annik Dollacker, Bayer Ag, Germany in streams to pesticides: review of ecosystem service to guarantee the field studies and conclusions for risk 2.05.5 | Predictive Modelling of biological community? | Natalia assessment | Ralf Bernhard Schaefer, Metal Mixture Toxicity to Daphnia Pereira, Universidade Estadual University Koblenz Landau, Germany magna Populations | Simon Hansul, do Oeste do Paraná, Brazil Ghent University (UGent), Belgium 2.05.2 | Hot, dry and deadly: Climate 2.05P.2 | Stressor indication – to what warming and imidacloprid pulses 2.05.6 | Excellent growth of fish in extent are environmental impacts determine macroinvertebrate German rivers as a consequence of independent? | Liana Liebmann, Helmholtz- community dynamics in experimental re-oligotrophication? | Charlotte Zentrum fur Umweltforschung UFZ, Germany streams | Samuel Macaulay, Wesch, Trier University, Germany 2.05P. 3 | Impact of multiple pressures on University of Otago, New Zealand 2.05.7 | Assessing the impact of freshwater communities, using ecological 2.05.3 | Integrating field indicators of wastewater exposure on macroinvertebrate and ecotoxicological indicators | Noelle contamination in structural equation populations in England | Andrew Sarkis, Institut national de recherche en modelling to understand the effects of Johnson, UKCEH, United Kingdom sciences et technologies pour l environnement multi-pressures in freshwater | Noelle et l agriculture (Irstea), France Sarkis, Institut national de recherche en sciences et technologies pour l environnement et l agriculture (Irstea), France
48 scicon.setac.org 2.05P.4 | Effects of antidepressant 2.05P.8 | Use of spatial ecology 2.05P.11 | Dissolved Organic Matter exposure on aquatic communities | to assess exposure of red-legged and pH control toxic response, Lara Schuijt, Wageningen University partridges to pesticide-treated seeds tolerance acquisition and trade-offs to & Research, Netherlands | Manuel Ortiz Santaliestra, Spanish micropollutants exposure | Simone Institute for Game and Wildlife Research Rizzuto, Lancaster University, United Kingdom 2.05P.5 | Spatial variation in the sensitivity (IREC) UCLM-CSIC-JCCM, Spain of freshwater invertebrate assemblages 2.05P.12 | The influence of environmental to chemicals | Ruoyu Liang, The 2.05P.9 | Exposure to anthropogenic conditions on effect of insecticide University of Sheffield, United Kingdom chemicals in wild carnivores: a silent chlorpyrifos | Qinghua Zhao, conservation threat demanding long- Wageningen University, Netherlands 2.05P.6 | Extrapolation of Metal Toxicity term surveillance | Rafael Mateo from Individuals to Communities 2.05P.13 | Multiple stressors in Soria, IREC (CSIC – UCLM), Spain in Three Daphnid Species: A DEB- agricultural freshwater ecosystems: based Approach | Simon Hansul, 2.05P.10 | Single and joint effects interactions between two widely used Ghent University (UGent), Belgium of recurring heat waves, increased pesticides (chlorpyrifos and diuron) temperature and a fungicide and nutrients under Mediterranean 2.05P.7 | Nutrient enrichment and on zooplankton-dominated conditions | Francesco Polazzo, predator stress influence the impacts of freshwater microcosms | Markus IMDEA Water Institute, Spain pesticides on D. pulex populations under Hermann, Wageningen University Mediterranean conditions | Francesco & Research, Netherlands Polazzo, IMDEA Water Institute, Spain
2.06 – From Lab to Field: Relevance of Effects Observed in Lab Studies for Non-target Local Populations and Communities and their Habitat Selection
Chairs: Julian Blasco, Laurent L.-M. Lagadic, Matilde Moreira dos Santos
Session Discussion: Wednesday 6 May | 13:45-14:30 UTC
Platform 2.06.5 | When the environmental stress 2.06P.4 | Interactive effects of NaCl and due to contamination is beyond the Cu on spatial avoidance in multispecific 2.06.1 | Endocrine disruption of fish traditional toxic effects: Changing the non-forced exposure assays | João Pontes, growth and reproduction in DEBtox paradigm of confined exposure to a Universidade de Coimbra, Portugal | Erik Muller, University of California, habitat selection approach | Matilde Santa Barbara, United States 2.06P.5 | Contamination-driven Moreira dos Santos, CFE – Centre behavioral plasticity: When the habitat 2.06.2 | Development of a neurobehavior for Functional Ecology, Portugal selection is based on a cost-benefits adverse outcome pathway in larval fish to balance among contamination, refuges facilitate cross-species extrapolations and Poster and predation. | Julian Blasco, Inst. assess population risk | Cheryl Murphy, 2.06P.1 | Environmental concentrations Ciencias Marinas de Andalucia, Spain Michigan State University, United States of cocaine induced sub-individual 2.06P.6 | Detection of Biodiversity Loss in a 2.06.3 | To be or not to be a rat? Translating and behavioural effects in Daphnia Large Boreal Wetland Complex to Support toxicology data for use in wild mammal magna | Beatrice De Felice, Università Ecological Risk Assessment of Multiple risk assessment. | Nina Hallmark, Bayer degli Studi di Milano, Italy Stressors | Donald Baird, Environment AG – Crop Science Division, Germany 2.06P.2 | Can copepod diapause be and Climate Change Canada, Canada 2.06.4 | Spatial avoidance of the induced in the lab? | Elise Skottene, 2.06P.7 | Toxicity Translation: An shrimp Palaemon varians exposed to a Norwegian University of Science & emerging theme for modeling to contaminant gradient of galaxolide and Technology (NTNU), Norway understand adverse effects of chemical tonalide in seawater | Friday Ojie Ehiguese, 2.06P. 3 | Sublethal effects of pirimicarb, exposures on wildlife populations | Cactymar-University of Cadiz, Spain azoxystrobin and isoproturon Sandy Raimondo, U.S. Environmental on the snail Lymnaea stagnalis | Protection Agency, United States Maria Bighiu, Swedish University of Agricultural Sciences (SLU), Sweden
2.07 – Impact and Trophic Transfer of Chemical Pollutants in Food Webs within and across Ecosystem Boundaries
Chairs: Mirco Bundschuh, Ana Marta Gonçalves, M. Gloria Pereira
Session Discussion: Monday 4 May | 15:45-16:30 UTC
Platform 2.07.3 | Cross-boundary transport 2.07.5 | Aquatic and terrestrial of nanoparticles via merolimnic contaminants in Pied flycatcher nestlings 2.07.1 | Synthesis: Predicting the insects compromises aquatic – effect of diet on metal uptake| Johan Dark Side of Ecological Subsidies | subsidy quality | Alexander Feckler, Lidman, Umeå university, Sweden Johanna Kraus, USGS, United States University Koblenz-Landau, Sweden 2.07.6 | Trophic transfer of isotopically 2.07.2 | Transcending borders? Effects 2.07.4 | Food web controls on mercury labelled 65CuO NPs from sediment to of heavy metals on the development flux and fate in the Colorado River, worms (Tubifex tubifex) to fish (three- and emergence of Chironomus Grand Canyon (USA) | David Walters, spined stickleback) | Tobias Lammel, riparius | Sebastian Pietz, University U.S. Geological Survey, United States University of Gothenburg, Sweden Koblenz-Landau, Germany 2.07.7 | Mercury biomagnification in a Southern Ocean food web | José Seco, Aveiro University & CESAM, Portugal
SETAC Europe 30th Annual Meeting - SETAC SciCon 49 2.07.8 | Can stable isotopes in 2.07P.3 | Are low mercury levels in 2.07P.7 | A pilot study to determine the consumers improve interpretation of commercial mid-trophic level fishes potential impacts of plastics on Aotearoa- long-term contaminant data? | Agnes detrimental? Evidences from oxidative New Zealand’s marine environment Karlson, Stockholm University, Sweden damage assessment | Sara Novais, | Olga Pantos, ESR, New Zealand Polytechnic of Leiria, Portugal Poster 2.07P.8 | Qualipertuis project – 2.07P.4 | Combined impacts of environment and port areas: monitoring 2.07P.1 | Impacts of Roundup® UltraMax pollutants and temperature on the the quality of the environment for a and the active ingredient glyphosate on biochemical profile of the freshwater better understanding of the effect the growth and biochemical profile of two primary consumer Daphnia magna of environmental variables at a freshwater macrophytes | Ana Gonçalves, | Carolina Rocha, MARE – Marine and spatial-temporal scale. | Marine MARE, Department of Life Sciences, University Environmental Sciences Centre, Portugal Barbarin, LIENSs UMR7266, France of Coimbra / Biology Department and CESAM, University of Aveiro, Portugal 2.07P.5 | Improving Status of Imposex 2.07P.9 | Food chain transfer and toxicity in Dogwhelk (Nucella lapillus) in Irish of engineered Zinc Oxide nanoparticles: 2.07P.2 | Cyanobacterial bloom associated and UK Marine Waters. | Brendan effect of particle size| Bhuvaneshwari M, with mass fish mortality in the dam Béni- McHugh, Marine Institute Ireland, Ireland Agriculture Research Organization, Israel Haroun, Algeria | Naila BENAYACHE, Université de Constantine 1, Algeria 2.07P.6 | Environmental microplastics 2.07P.10 | Predicting effects of affected oyster (Crassostrea gigas) survival, contaminants on food webs: Aquatic reproduction and larval stages behaviour pollution, adult aquatic insects, and | Marine Barbarin, LIENSs UMR7266 2 rue terrestrial insectivores | Johanna Olympe de Gouges 17000 La Rochelle, France Kraus, USGS, United States
2.08 – Microbial Community Ecotoxicology under Multiple Stressors Scenarios
Chairs: Lorenzo Proia, Joan Artigas, Marie Simonin
Session Discussion: Wednesday 6 May | 15:00 – 15:45 UTC
Platform 2.08.9 | Connecting gut microbiome 2.08P.6 | Does history really matter? changes and fish metabolism in oil Aquatic microbial communities’ functioning 2.08.1 | Biofilm interactions can exposure studies | Giovanna Monticelli, under multiple stress | Sara Gonçalves, modulate microbial decomposer University of Stavanger, Norway University of Koblenz-Landau, Germany responses to antibiotics | Joan Artigas, Université Clermont Auvergne, France 2.08.10 | Gut microbiota and host-related 2.08P.7 | Removal efficiency of Water responses of Xenopus laevis tadpoles Accommodated Fraction (WAF) in 2.08.2 | Microbial community structure in a exposed to nanoparticles | Lauris Evariste, cold environments and its effects on chemically stressed freshwater ecosystem. ECOLAB UMR5245 CNRS UPS INPT, France Microbial communities’ dynamics Do chemical mixtures play a role? | Pedro | Robert Duran, Université de Pau Inostroza, University of Gothenburg, Sweden Poster et des Pays de l’Adour, France 2.08.3 | Looking beneath the surface: 2.08P.1 | The effect of wastewater 2.08P.8 | Climate change and are fungicide effects in sediments treatment plant effluents on the nanoparticle toxicity effects on ecosystem comparable to those in the benthic gut microbiome of aquatic and functioning | Berta Bonet, University zone? | Eric Bollinger, University riparian organisms | Karen Kidd, of Birmingham, United Kingdom of Koblenz-Landau, Germany McMaster University, Canada 2.08P.9 | Soil bacterial community 2.08.4 | Long-term effects of copper 2.08P.2 | Holobiont: interaction responses to AgNPs | Sara nanopesticides on soil and sediment between terrestrial isopods and Cristiana Lopes Peixoto, CESAM microbiome diversity in two outdoor their hepatopancreas’ microbiome. & University of Aveiro, Portugal mesocosm experiments | Marie | Natalia Pereira, Universidade Simonin, INRAE – IRHS, United States Estadual do Oeste do Paraná, Brazil 2.08P.11 | Biodegradation of mulch films in soil: Isolation and identification of 2.08.5 | Microbial communities and 2.08P. 3 | Investigating the potential degrading microbes | Kristina Bitter, hydrocarbon biodegradation in land of probiotic to mitigate BPA toxicity in RWTH Aachen University, Germany sea continuum | Elise Châtillon, zebrafish (Danio rerio): A metagenomic IPREM UMR5254 CNRS UPPA, France perspective | Danilo Basili, University 2.08P.12 | Effect of the antibiotic oxytetracycline on the growth of 2.08.6 | Crossing obstacles: fungal of Cambridge, United Kingdom soil bacterial communities | David transport of bacteria in PAHs 2.08P.4 | Effects of metal mining Calviño, University of Vigo, Spain contaminated marine sediments | Joyce effluents from abandoned mines on Alvarez, IPREM CNRS UPPA, France freshwater ecosystems. Frongoch mine 2.08P.13 | Sediment microbiome as a tool for assessing metal 2.08.7 | Nanoscale micronutrients as a case study. | Lorenzo Proia, BETA contamination in a multi-species to enhance crop disease resistance: Technological Center – UVic, Spain setup experiment | Julian Blasco, Inst. Unintended consequences in the 2.08P.5 | Understanding the link Ciencias Marinas de Andalucia, Spain rhizosphere? | Jason White, Connecticut between micropollutants in wastewater Agricultural Experiment Station, United States effluents and community tolerance 2.08.8 | The effect of oxytetracycline of river periphyton | Louis Carles, long-term exposure on zebrafish Eawag, Swiss Federal Institute of Aquatic and water microbiome in a post- Science and Technology, Switzerland exposure scenario | Ana Rita Almeida, University of Aveiro, Portugal
50 twitter.com/SETAC_World #SETACSciCon 2.09 – Soil Ecotoxicology: New Methods and Novel Applications in Environmental Risk Assessment
Chairs: Mark Maboeta, Claudia Lima
Session Discussion: Monday 4 May | 13:00-13:45 UTC
Platform Poster 2.09P.8 | epicPCR – a Novel Culture- Independent Method to Study the Host 2.09.1 | Identifying structural responses 2.09P.1 | Development of a more Range of Antimicrobial Resistance of bacterial, fungal and eukaryote practical, cost effective and ecologically Genes in the Environment | Jesse communities to trace-metals using relevant multi-chamber circular ISO Vänttinen, University of Helsinki, Finland multi-marker metabarcoding | 17512-1 earthworm avoidance test. | David Spurgeon, Centre for Ecology Claire Brami, Phytorestore, France 2.09P.9 | Impact of manure application & Hydrology, United Kingdom on the enrichment of ARGs in agricultural 2.09P.2 | Toxicological effects of soils: longitudinal study over two 2.09.2 | Proteomic profiling to unravel chlorpyrifos and glyphosate on soil vegetation periods and natural resilience the mechanisms of Ag NM300K in organisms, Achatina fulica and Eisenia of the soil | Elena Radu, AGES – Austrian Enchytraeus crypticus – novel approach fetida | Norah Basopo, National University Agency for Health and Food Safety, Austria to understand risks | Vera Maria, Biology of Science & Technology, Zimbabwe Department of Aveiro University, Portugal 2.09P.10 | Innovative solutions to extend 2.09P. 3 | Evaluation of an analytical selectivity and sensitivity of VOC analysis 2.09.3 | Applying the EFSA Scientific Draft method to determine pesticide residues in in soils. | Jan Peter Mayser, Markes Opinions on standard testing in terrestrial earthworms Eisenia andrei | Audrey Trisna, International Ltd, United Kingdom ecotoxicology: Current state, challenges Bayer AG – Crop Science Division, Germany and outlook | Marco Candolfi, Eurofins 2.09P.12 | Identification of copper 2.09P.5 | Biomarkers responses in the Agroscience Services Ecotox GmbH, Germany transport pathways in the isopod Oniscus earthworm Eisenia fetida (Savigny, 1826) asellus and their response to copper 2.09.4 | Uptake, toxicity, and maternal exposed to commercial fungicides: exposure. | Natalia Pereira, Universidade transfer of cadmium in the oribatid laboratory and field toxicity assessment Estadual do Oeste do Paraná, Brazil soil mite, Oppia nitens: Implication in | Ilaria Caliani, University of Siena, Italy the risk assessment of cadmium to 2.09P.13 | Sustainable food production: 2.09P.6 | ECPA cross industry working soil invertebrates | Hamzat Fajana, how can we bring circularity to group on Soil Organism Ecotoxicology, University of Saskatchewan, Canada agriculture? | Susana Loureiro, Regulatory Testing and Risk Assessment Universidade de Aveiro, Portugal 2.09.5 | Can the Avoidance tests work | Gregor Ernst, Bayer Ag, Germany as a tool to evaluate the influence of soil 2.09P.15 | A combined field and laboratory 2.09P.7 | Plant ecotoxicity test using the pH in earthworm’s re-colonization after approach to assess pesticide effects on tree species Mimosa scabrella Benth.: a fumigant application? | Antonieta soil invertebrates | C.A.M. van Gestel, biomonitoring soil ecotoxicity and Gabriel, University of Aveiro, Portugal Vrije Universiteit Amsterdam, Netherlands ecosystem recover potential | Fernanda 2.09.6 | Focal and target species in ecology, Santo, Federal University of Santa Catarina nature conservation and risk assessment, a (UFSC), Campus Curitibanos, Brazil sometimes confusing matter of definition| Herman Eijsackers, WUR/NWU, South Africa
2.10 – Soil Function and Biodiversity: Impacts and Resilience under Stressed Environments
Chairs: Susana Loureiro, M. Nazaret González-Alcaraz
Session Discussion: Monday 4 May | 13:45-14:30 UTC
Platform 2.10.5 | Pesticides impact on soil 2.10P. 3 | Does habitat quality influence microbial community composition bioenergetics and reproduction of 2.10.1 | Soil Biodiversity: Current status and activity | Anzhelica Astaikina, Oppia nitens in response to cadmium- and further developments (Results Moscow State University, Russia induced stress? | Hamzat Fajana, of the SETAC Europe Special Science University of Saskatchewan, Canada Symposium 14) | Jörg Römbke, ECT 2.10.6 | Agroecosystems’ soil quality Oekotoxikologie GmbH, Germany under long-term exposure to pesticides 2.10P.4 | Investigating the impact of | Natalia Pereira, Universidade insecticides on soil mesofauna abundance 2.10.2 | Can metals mixtures negatively Estadual do Oeste do Paraná, Brazil and biodiversity and its impacts on impact soil functioning in the absence of organic matter break down in arable structural effects? – A TME experiment Poster fields| Gregor Ernst, Bayer Ag, Germany | Jean Mathieu Renaud, CFE – Centre for Functional Ecology, Portugal 2.10P.1 | Synergistic interaction between 2.10P.5 | Gut and faecal microbiota of effects of phenanthrene and dynamic the terrestrial isopod Porcellionides 2.10.3 | Nanofertilizers as sustainable heat cycles on Folsomia candida | Wencai pruinosus: potential use for monitoring innovative agroproducts? Let soil Dai, Aarhus University (AU), China exposure scenarios | Susana Loureiro, organisms decide! | Catarina Universidade de Aveiro, Portugal Malheiro, Department of Biology, 2.10P.2 | Effects of different climate University of Aveiro, Portugal factors on target genes expression and 2.10P.6 | Development Of A Tiered enzymatic biomarkers in Enchytraeus Approach For Ecotoxicological 2.10.4 | Long-term effects of Cu(OH)2 crypticus exposed to metal soil Risk Assessment Of Abandoned nanopesticide on soil microbiome | contamination | M. Nazaret González- Landfills And Dump Sites| Leen Sara Cristiana Lopes Peixoto, CESAM Alcaraz, Department of Biology & Jansen, Arche consulting, Belgium & University of Aveiro, Portugal CESAM – University of Aveiro, Portugal facebook.com/setacworld #SETACSciCon 51 2.10P.7 | Biological activity of metal mine tailing soils under different scenarios of climate change | M. Nazaret González- Alcaraz, Department of Biology & CESAM – University of Aveiro, Portugal
2.11 – Advancing Use of Behavioural Studies in Regulatory Assessment of Contaminants
Chairs: Minna Saaristo, Gerd Maack
Session Discussion: Tuesday 5 May | 17:00 – 17:30 UTC
Poster Corner 2.11PC.2 | Impact of the two 2.11P. 3 | Analysis of inter-individual antidepressants citalopram and variation in locomotor activity of larval 2.11PC.1 | Behavioural effects of the venlafaxine on brown trout (salmo zebrafish to explore toxicological pharmaceutical fluoxetine on freshwater trutta f. fario) | Michael Ziegler, response pathways | Jennifer Fitzgerald, invertebrates: a comparison of toxicity University of Tubingen, Germany Eawag Swiss Federal Institute of Aquatic between the laboratory and the field. Science and Technology, Switzerland | Sanne van den Berg, Wageningen Poster University & Research, Netherlands 2.11P.1 | Are behavioural effects of a synthetic oestrogen mediated by brain size in female fish?| Michael Bertram, Swedish University of Agricultural Sciences, Sweden
2.12 – Impacts on Agroecosystems Resulting from Chemical Exposure in the Anthropocene
Chairs: Jonathan Brett Sallach, Shannon Bartelt-Hunt
Session Discussion: Tuesday 5 May | 17:00 – 17:30 UTC
Poster Corner Poster 2.12P.4 | Nickel toxicity to Brasica napus cultivars under optimal and deficiency of 2.12PC.1 | Investigation on the impacts 2.12P.1 | Breaking the Cycle of Pesticide Use sulphur availability | Gintare Sujetoviene, of raw and bioremediated olive oil in Agriculture: A Conceptual Framework Vytautas Magnus University, Lithuania mill waste on agroecosystems | Silvia Focused on Risk Management | Paul Casini, University of Siena, Italy Sibley, University of Guelph, Canada 2.12P.5 | Transfer of contaminants of emerging concern (from irrigation water 2.12PC.2 | Pharmacodynamics of 2.12P.2 | Cumulative Hazard and to crops in Saudi Arabia) | Rodrigo Psychoactive Pharmaceuticals and Risk Assessment of Pesticides from Alvarez Ruiz, Centro de Investigación Plants | Tomer Malchi, The Hebrew agricultural activities | Knut Erik sobre Desertificación (CIDE), Spain University of Jerusalem, Israel Tollefsen, NIVA – Norwegian Institute for Water Research, Norway 2.12PC.3 | Comparative metabolomic analysis of plant responses to 2.12P. 3 | Influence of soil organic stress including drought and amendments on carbon based pharmaceutical exposure | Bella metabolites in rosemary (Rosmarinus Gaffney, Chemistry Department, officinalis L.) plants| Isabel Nogues, University of York, United Kingdom Consiglio Nazionale delle Ricerche, Italy
2.13 – A Risky Life History: Contaminant Threats to Scavenging Wildlife
Chairs: Rafael Mateo Soria, Richard F. Shore, John E. Elliott
Session Discussion: Wednesday 6 May | 17:00 – 17:30 UTC
Poster Corner 2.13PC.4 | Causes of death in Red Kites 2.13P. 3 | Scavenging increases the risk (Milvus milvus) in the Pyreneans in of exposure to lead and other heavy 2.13PC.1 | Anticoagulant rodenticides France : impact of poisoning during a metals in raptors. | Antonio Juan Garcia- in predatory birds: probabilistic 13-year survey (2005-2018) | Philippe Fernandez, University of Murcia, Spain characterisation of toxic liver Berny, VETAGRO-SUP, France concentrations – Part II | John 2.13P.4 | Assessment of the exposure Elliott, Environment and Climate Poster to environmental toxics in free-living Change Canada, Canada European griffons (Gyps fulvus) and 2.13P.1 | Derivation of indicators for Cinereous vultures (Aegypius monachus) 2.13PC.2 | Monitoring NSAIDs in carrion assessing the quality of biota samples in the Balkans | María Escobar-González, and vultures after diclofenac registration and their suitability for environmental Instituto de Investigación en Recursos for veterinary use in Spain | Marta Herrero monitoring studies | Burkhard Knopf, Cinegéticos (IREC) CSIC-UCLM-JCCM, Spain Villar, Instituto de Investigación en Recursos Fraunhofer Institute for Molecular Biology Cinegéticos (IREC) CSIC-UCLM-JCCM, Spain and Applied Ecology IME, Germany 2.13P.5 | Lead exposure in Bearded Vultures (Gypaetus barbatus) : risk analysis 2.13PC.3 | Barbiturate poisoning in 2.13P.2 | Mercury in feathers of the for a reintroduced population in the French scavengers in Spain | Rafael Mateo Andean condor (Vultur gryphus) from Alps | Philippe Berny, VETAGRO-SUP, France Soria, IREC (CSIC – UCLM), Spain three areas of contrasting anthropogenic influence in Chile| Antonio Juan Garcia- Fernandez, University of Murcia, Spain
52 scicon.setac.org 2.13P.6 | Improving the systematic use of contaminant data from apex predators and their prey in chemicals management | Wiebke Drost, Federal Environment Agency (UBA), Germany
Track 3: Environmental Chemistry and Exposure Assessment: Analysis, Monitoring, Fate and Modeling
3.01 – Advances in Bioavailability Science and Application to Chemical Regulation
Chairs: Christopher Hughes, José Julio Ortega-Calvo, John Parsons
Session Discussion: Tuesday 5 May | 15:00 – 15:45 UTC
Platform 3.01.4 | Regulation of pollutants 3.01P.4 | Impact of use of the ionizable bioavailability in soil with the help of pH buffer MOPS on bioavailability 3.01.1 | Biavailability of organic chemicals natural adsorbents | Galina Vasilyeva, research: tests with the cyanobacteria in soils and sediments: potential regulatory Institute of physicochemical and biological Microcystis aeruginosa | Qiyun Zhang, aspects? | José Julio Ortega-Calvo, Instituto problems in soil science RAS, Russia GhEnToxLab (Ghent University), Belgium de Recursos Naturales y Agrobiologia, Spain 3.01P.5 | Miniaturised passive dosing 3.01.2 | Bioavailability as A Poster Daphnia magna biotest with Polycyclic Determinant in Assessing Need for 3.01P. 3 | Biochar as a Tool Aromatic Hydrocarbons (PAHs) – Remediation | Jay Gan, University of forAmelioratingthe Effect of Antibiotic Investigation of single PAH substances and California, Riverside, United States intheBiodigestion of Doxy-Gen PAH mixtures | Silja Kroeger, Hamburg 3.01.3 | Improving modelling of Contaminated Poultry Dropping University of Applied Sciences (HAW), Germany chemical bioavailability in terrestrial and and Cassava Peel | Chibuike Ubani, 3.01P.6 | Measuring of the bioavailable aquatic ecosystems: Novel approaches University of Nigeria, Nigeria fraction of HOCs in North Sea sediment estimating association of neutral and pore water: Recreation of realistic ionizable organic chemicals to dissolved mixtures in passive dosing bioassays | organic carbon | Chiara Maria Vitale, Anne Kreutzer, HAW Hamburg, Germany Masaryk University, Czech Republic
3.02 – Advances in Exposure Modelling: Bridging the Gap Between Research and Application
Chairs: Matthew MacLeod
Session Discussion: Tuesday 5 May | 13:45-14:30 UTC
Platform 3.02.7 | Poster spotlight: Fate and transport 3.02P.7 | Advances in exposure and models for nano – and microplastics risk assessment of fertilizers under 3.02.1 | Bridging the Gap between | Antonia Praetorius, University of REACH: updates of the fertilizers Research and Application with Amsterdam/IBED Institute, Sweden environmental exposure (FEE) tool | EASE Suite | Jon Arnot, ARC Arnot Sabine Navis, Arche consulting, Belgium Research & Consulting, Canada Poster 3.02P.8 | Update of Input Parameters for 3.02.2 | The new EUSES for REACH 3.02P.1 | Bottom up exposure the PEC Calculation of VMP – A Farm Survey and Biocides environmental exposure modelling of engineered nanoparticles of Manure Application | Julia Steinhoff- assessment: implementation plan and in urban environments: tools for Wagner, University of Bonn, Germany challenges | Stefano Frattini, European deciphering spatial and temporal Chemical Agency (ECHA), Finland trends | Maria del Prado Demercq, 3.02P.9 | Multimedia fugacity- based model for the exposure 3.02.3 | Advances in Exposure Modelling Stockholm University, ACES, Sweden assessment of antiparasitic drugs – Spatial and Temporal Refinements in 3.02P.2 | How to make one’s used by salmon farms | Ricardo Barra, Receiving Water Modelling in Australia (spatiotemporal multimedia Universidad de concepcion, Chile | Christopher Lee-Steere, Australian nanomaterial) exposure model as Environment Agency Pty Ltd, Australia extensible, usable and useful as 3.02P.11 | An improved method to calibrate emission estimations for pharmaceuticals 3.02.4 | Multimedia modelling of nano possible | Sam Harrison, UK Centre for from sewage treatment plants | Sarah – and microplastics in the environment Ecology & Hydrology, United Kingdom Falk, University of Osnabrueck, Germany | Joris Quik, RIVM, Netherlands 3.02P.3 | Fate and transport models 3.02P.13 | A new tool for assessing the 3.02.5 | Poster spotlight: Bottom up for nano – and microplastics | potential bioaccumulation of active exposure modelling of engineered Antonia Praetorius, University of substances and their metabolites in nanoparticles in urban environments: Amsterdam/IBED Institute, Sweden food webs: MOSAIC-bioacc | Sandrine tools for deciphering spatial and temporal 3.02P.4 | Sensitivity analysis of the aquatic Charles, University Lyon 1, France trends | Maria del Prado Domercq, pesticide fate models in SYNOPS and Stockholm University, ACES, Sweden their parametrization for Switzerland | 3.02P.14 | SorpKinAnalysis – Implementation of a two-site aged 3.02.6 | Poster spotlight: How to make Laura de Baan, Agroscope, Switzerland sorption model in accordance with one’s (spatiotemporal multimedia 3.02P.5 | Multidimensional Modelling of EFSA PPR Panel (2018) | Judith Klein, nanomaterial) exposure model as Reactive Transport of Plant Protection Fraunhofer IME – Institute for Molecular extensible, usable and useful as Products | Reza Zolfaghari, Bayer Biology and Applied Ecology, Germany possible | Sam Harrison, UK Centre for AG Crop Science Division, Germany Ecology & Hydrology, United Kingdom
SETAC Europe 30th Annual Meeting - SETAC SciCon 53 SETAC Meetings 2020 Due to the Coronavirus pandemic, you are viewing the program book and this ad in the safe confines of your home or office instead of Dublin. However, we do hope that we can meet you face to face again in the near future. As information is changing rapidly, please visit each meeting website to find out which SETAC meetings are still happening and which are postponed.
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54 twitter.com/SETAC_World #SETACSciCon 3.02P.15 | Development of a prediction 3.02P.17 | Evaluating the CiP- 3.02P.19 | Benzene in-vitro characterization model for daily change of hydrogen CAFE and RAIDAR models with and oral bioavailability assessment in peroxide in rivers all over Japan | monitoring and biomonitoring data 3-tier model of gastrointestinal epithelial Yoshitaka Imaizumi, National Institute from Europe | Jon Arnot, ARC Arnot cells | Solomon Babatunde Adeleke, for Environmental Studies, Japan Research & Consulting, Canada University of Saskatchewan, Canada
3.02P.16 | Development of emission 3.02P.18 | Use of toxicokinetic (TK) inventories and exposure modelling of model applications on freshwater emerging pollutants to define a “Watch invertebrates in regulation. | Sandrine List” for the lagoon of Venice | Elena Charles, University Lyon 1, France Semenzin, University Cà Foscari Venice, Italy
3.03 – Advancing our Understanding of Contaminants of Emerging Concerns Associated with Plastic and Microplastics: Identification, Analysis, Occurrence and Effects
Chairs: Yelena Sapozhnikova, Yolanda Pico, Glaucia Olivatto
Session Discussion: Wednesday 6 May | 13:00-13:45 UTC
Platform Poster 3.03P.12 | Bis(4-chlorophenyl) sulfone (BCPS) found in Austrian fresh water fish 3.03.1 | A Multihyphenated TGA-FTIR- 3.03P.1 | The global environmental and cormorants (Phalacrocorax carbo) GC-MS Approach For Characterisation Of footprint of indigo denim fibers| Samantha indicating biomagnification – a screening Polymer Type In Microplastic Research Athey, University of Toronto, Canada study | Romana Hornek-Gausterer, | Andrew Chetwynd, The University 3.03P.2 | Biofouling on solid litter: what Environment Agency Austria, Austria of Birmingham, United Kingdom do they prefer? | Lara Pinheiro, FURG – 3.03P.13 | Safety of commercially 3.03.2 | Chemical composition and Universidade Federal do Rio Grande, Brazil available child-dedicated chocolate ecotoxicity of plastic and car tire rubber 3.03P.3 | Low cost and high-throughput: food products on the Polish market – leachates to aquatic organisms | Nile red a tool for microplastic monitoring PBDEs levels and children’s exposure Andy Booth, SINTEF Ocean, Norway and hotspot identification.| Holly Nel, estimation | Monika Śmiełowska, Gdańsk 3.03.3 | In vitro toxicity and chemical University of Birmingham, United Kingdom University of Technology (GUT), Poland composition of plastic consumer 3.03P.5 | Microplastics analysis of 3.03P.14 | Determination of the retention products – What is in and what is getting Environmental Samples using FTIR time of microfibers and their effects out? | Lisa Zimmermann, Goethe and Raman Spectroscopy | Barbara on behaviour in zebrafish Danio rerio| University Frankfurt am Main, Germany Bravo, Thermo Fisher Scientific, Italy Pinar Arslan, Ankara University, Turkey 3.03.4 | Bioconcentration of organic 3.03P.6 | Screening of Plastic Additives 3.03P.15 | The impact of plastic and car tire contaminants in fish in the presence and Organic Contaminants in Microplastics rubber leachates on the Mediterranean of microplastics: Is the “Trojan horse” exposed to the Marine Environment mussel Mytilus galloprovincialis | effect a matter of concern?| Theresa | José Benito Quintana, University Marco Capolupo, Alma Mater Studiorum Schell, IMDEA Water Institute, Spain of Santiago de Compostela, Spain – University of Bologna, Italy 3.03.5 | Desorption of organic pollutant 3.03P.7 | Determination of bisphenol 3.03P.16 | Effects of microplastic-associated from microplastics under simulated A in sheep’s urine and faeces | chemicals on European perch (Perca physiological conditions | Glaucia Olivatto, Vesna Cerkvenik Flajs, University of fluviatilis): an exposure through sediment University of São Paulo USP, Brazil Ljubljana, Veterinary Faculty, Slovenia and leachates | Malin Andersson Stavridis, 3.03.6 | From Beakers to Basins: How University of Gothenburg, Sweden 3.03P.8 | Degradation products from experimental data help to assess the novel biodegradable polymers in 3.03P.17 | Cu affects worm bioturbation contaminant transfer potential of marine settings | Karen Rodgers, and the fate of microplastic particles microplastics in the field| Christiane University of Hull, United Kingdom in sediment | Amalie Thit Jensen, Zarfl, University of Tuebingen, Germany Roskilde University, Denmark 3.03P.9 | Investigation of microplastic 3.03.7 | Tracking of plastic emissions particles in rural karst groundwater 3.03P.18 | Increasing the environmental from aquaculture industry | Alessio systems and their links with on-site realism of laboratory exposures of Gomiero, International Research domestic wastewater effluent| Luka Daphnia magna to polyethylene Institute of Stavanger, Norway Vucinic, Trinity College Dublin, Ireland microplastics affects the degree of 3.03.8 | Neat or on the rocks? toxicity of the plastics and associated 3.03P.10 | First record of the occurrence Comparing the effects of virgin and co-pollutants | Katie Reilly, The University and composition of microplastics in contaminated polystyrene nanobeads of Birmingham, United Kingdom sediments in Eyjafjordur, Iceland. | on zebrafish larvae| Camilla Carla Alessio Gomiero, International Research 3.03P.20 | Marine Biodegradability Parenti, University of Milan, Italy Institute of Stavanger, Norway and Toxicity of Commercially Available 3.03.9 | Poster spotlight: The global Biobased Plastics – A Sustainable 3.03P.11 | A temporal sediment record of environmental footprint of indigo Alternative To Petrochemical Plastics? | microplastics in Haukadalsvatn, a lake in denim fibers| Samantha Athey, Peter Roslev, Aalborg University, Denmark Iceland | Alessio Gomiero, International University of Toronto, Canada Research Institute of Stavanger, Norway 3.03P.21 | Problems with electrostatic 3.03.10 | Poster spotlight: Biofouling charge when measuring the mass of on solid litter: what do they prefer? plastics; a practical, problem-solving | Lara Pinheiro, FURG – Universidade approach | Ulrike Scholz, German Federal do Rio Grande, Brazil Environment Agency (UBA), Germany facebook.com/setacworld #SETACSciCon 55 3.03P.22 | Adsorption of polychlorinated biphenyls on microplastics under environmental conditions. | Marinella Farre, IDAEA – CSIC, Spain
3.04 – Analysis of Microplastics and Nanoplastics – From Harmonisable Protocols and Data Treatment to the Peculiarities of the Environmental Nanofraction
Chairs: Michaela Meyns, Natalia P. Ivleva, Sebastian Primpke
Session Discussion: Monday 4 May | 13:00-13:45 UTC
Platform 3.04.10 | Panel discussion | 3.04P.10 | Analysis and evaluation Michaela Meyns, Alfred-Wegener- of elemental composition of 3.04.1 | Detection of microplastics in the Institute, Helmholtz Centre for Polar plastic items | Philipp Kloeckner, water treatment process: Considerations and Marine Research, Germany Helmholtz Centre for Environmental for sampling, processing, analytical Research GmbH – UFZ, Germany methods and reporting microplastic Poster occurrence in increasingly complex 3.04P.12 | Qualitative Analysis Of media | Richard Cross, Centre for 3.04P.1 | Characterization of chemical and Microplastics: A Problem To Be Ecology and Hydrology, United Kingdom morphological changes in microplastics solved | Helen Martin, Markes during bacterial degradation at International, United States 3.04.2 | Tackling the Challenge of environmentally relevant conditions | Extracting Microplastics from Soils: Lisa Göpfert, Institute of Hydrochemistry 3.04P.13 | How can we answer the A Protocol to Purify Soil Samples – Technical University of Munich, Germany question “How many MP particles do we before µ-FTIR Analysis | Julia Moeller, have in our sample?” accurately in an University of Bayreuth, Germany 3.04P.2 | Suspected screening of acceptable timeframe? | Natalia Ivleva, nano – and microplastics composition Technical University of Munich, Germany 3.04.3 | Automated Analysis of in the Ebro Delta area | Marinella Microplastics in Environmental Samples Farre, IDAEA – CSIC, Spain 3.04P.14 | Simple Generation of with a Combination of Optical Microscopy Suspensible Secondary Microplastic with FTIR and Raman Spectroscopy 3.04P. 3 | Plastic in our waters; microplastic Reference Particles via Ultrasound | Dieter Fischer, Leibniz-Institut f. analysis in The Netherlands | Stefan Kools, Treatment | Natalia Ivleva, Technical Polymerforschung Dresden, Germany KWR Water Research Institute, Netherlands University of Munich, Germany
3.04.4 | Abundance and distribution 3.04P.4 | Microplastic pollution in 3.04P.15 | Nanoplastic analysis by of microplastics in the German the Garonne catchment: seasonal Raman microscopy on-line coupled bight – A first try of source tracking| variability and consequences of to field-flow fractionation via optical Barbara Scholz-Boettcher, University rainfall | Aline Carvalho, University tweezers | Natalia Ivleva, Technical of Oldenburg, ICBM, Afghanistan of Toulouse, CNRS, France University of Munich, Germany
3.04.5 | Investigation into Recovery 3.04P.5 | One Pot Method for the Collection 3.04P.16 | Nano-FTIR – plastics Rates of Microfibres from Water and Preparation of Natural Water for identification at the nanoscale| Samples Using a Forensic Fibre Tape Microplastic Analyses: Microplastics in Michaela Meyns, Alfred-Wegener- Lifting System | Claire Gwinnett, the Mississippi River System During and Institute, Helmholtz Centre for Polar Staffordshire University, United Kingdom After Historic Flooding | James Cizdziel, and Marine Research, Germany University of Mississippi, United States 3.04.6 | Poster spotlight: Characterization 3.04P.17 | Nanoparticle Separation of chemical and morphological changes in 3.04P.6 | Method development for via Crossflow Filtration | André microplastics during bacterial degradation microplastic analysis in atmospheric Bienfait, Havforskningsinstituttet/ at environmentally relevant conditions | bulk-deposition and first evidences Institute of Marine Research, Norway Lisa Göpfert, Institute of Hydrochemistry from a transect in Bavaria (GER) | 3.04P.18 | Towards a standardized method – Technical University of Munich, Germany Christoph Naab, Bavarian Environment Agency, Wielenbach, Germany for the extraction and characterization 3.04.7 | Poster spotlight: Suspected of nanoplastics in complex matrices | screening of nano – and microplastics 3.04P.7 | Separation of microplastics Andrea Valsesia, European Commission composition in the Ebro Delta area | from aquatic systems using reused DG Joint Research Centre, Italy Marinella Farre, IDAEA – CSIC, Spain zinc chloride | Ana Gonçalves, MARE, Department of Life Sciences, University 3.04P.19 | Quantitative characterization 3.04.8 | First lab-scale feasibility study of Coimbra / Biology Department and of the hydrophobicity of nanoplastic on the enrichment of nanoplastic CESAM, University of Aveiro, Portugal models | Cloé Desmet, European particles from water samples by Commission – Joint Research Centre, Italy continuous flow centrifugation using 3.04P.8 | Chemometric Classification 3.04P.21 | “The Plastic Nile”: First evidence metal-doped nanoplastics and ICP- and Quantification of Microplastic (< of microplastic contamination in fish from MS/MS detection | Lars Hildebrandt, 100 µm) using µ-FTIR Imaging | Vitor the River Nile (Cairo, Egypt) | Farhan Helmholtz-Zentrum Geesthacht, Germany da Silva, Aahrus University, Denmark Khan, Roskilde University, Denmark 3.04.9 | Capabilities of transmission 3.04P.9 | Rapid identification and 3.04P.22 | Centrifugal field flow electron microscopy to detect and quantification of microplastics fractionation and coupled detectors in identify nanoplastic particles | Ralf Kaegi, using quantum cascade laser (QCL) the analysis of nano – and microplastics Eawag – Swiss federal Institute of Aquatic imaging | Sebastian Primpke, Alfred | Dora Mehn, European Commission- Science and Technology, Switzerland Wegener Institute, Germany Joint Research Centre, Italy
56 scicon.setac.org 3.05 – Assessment of the Exposure and Effects of Contaminants of Emerging Concern in Drinking and Wastewater Systems and Assays to Evaluate their Removal
Chairs: Susan T. Glassmeyer, Despo Fatta-Kassinos, Viviane V. Yargeau
Session Discussion: Tuesday 5 May | 15:00 – 15:45 UTC
Platform 3.05P.4 | Formation of iodinated 3.05P.17 | Managed aquifer recharge trihalomethanes during chlorination and with reactive barriers (rbMAR): 3.05.1 | Assessing the impact of water chloramination: an update | Bogdan achievements and future challenges reuse strategies using an integrated Slencu, University of Medicine and | Cristina Valhondo, Ins of Environ modelling approach | Riccardo Delli Pharmacy Grigore T. Popa Iasi, Romania Assessment&Water Resch (IDAEA-CSIC), Spain Compagni, Politecnico di Milano, Italy 3.05P.5 | Pilot Scale Evaluation of Removal 3.05P.18 | Effect of pH and Storage Times 3.05.2 | Biological responses in of Contaminants of Emerging Concern (CEC) on the Leaching of Potentially Toxic rainbow trout to wastewater treated Using Ozonation and Activated Carbon Metals (PTMs) from Different Types of by catalytic ozonation | Viviane Filtration | Malin Ullberg, Swedish University Used Cooking Pots | Kehinde Olayinka, Yargeau, McGill University, Canada of Agricultural Sciences (SLU), Sweden University of Lagos, Nigeria, Nigeria 3.05.3 | Novel insights into the toxicological 3.05P.6 | A study of photo-Fenton 3.05P.19 | Comparison of three ISO and antibacterial perspectives of disinfection at near neutral pH | Kris standardized in vitro bioassay investigating transformation products of antibiotics O’Dowd, institute of technology Sligo, Ireland estrogenic activity in waste water effluents formed during UV-C/H2O2 oxidation | Eszter Simon, Centre Ecotox, Switzerland in ultrapure water and wastewater 3.05P.7 | Pilot-scale assessment of tertiary effluent matrices| Vasiliki G. Beretsou, treatment technologies for pharmaceuticals 3.05P.20 | Evaluation of the physico- Nireas-International Water Research and personal care products removal from chemical properties of drugs, based on Center, University of Cyprus, Cyprus municipal wastewater | Sara Valsecchi, the qsar model, to identify the potential Water Research Institute – Italian National of bioaccumulation of these substances 3.05.4 | Still Haven’t Found What You’re Research Council IRSA-CNR, Italy in the environment | Suzete Caminada, Looking For? Integrated Interdisciplinary Faculdade Saúde Pública – USP, Brazil Analyses May Be the Solution. | 3.05P.8 | Influence of Wastewater Susan Glassmeyer, U.S. Environmental Treatment Technology on Removal 3.05P.21 | Behavior and potential of Protection Agency, United States Efficiency of Organic Contaminants| drug making in composted biosoid Zhe Li, Stockholm University, Sweden from ete and its implications in 3.05.5 | Occurrence of human- public health | Suzete Caminada, excreted contaminants within a 3.05P.9 | UV Irradiation Decreases Faculdade Saúde Pública – USP, Brazil decantation tank: respective impacts of Ecotoxicity of Glyphosate | Peter historical consumption and sediment Roslev, Aalborg University, Denmark 3.05P.22 | Can spatial distribution of properties | Thomas Thiebault, organic contaminants in Gammarus 3.05P.10 | Removal of Emerging EPHE PSL University, France pulex explain toxic effects?| Micropollutants Through Biochar Enhanced Johannes Raths, Eawag, Germany 3.05.6 | From soil to mouth: Assessment Soil Retention Filters – an Additional Tool of the effect of organic fertilizers on for Wastewater Treatment? | Jan Specker, the rate of incorporation of Antibiotic RWTH Aachen University, Germany Resistant Genes in Lactuca sativa and 3.05P.12 | Toxicity of disinfected Raphanus sativus. Real-scale studies. wastewater effluents probed by genetically | Claudia Sanz, CSIC/IDAEA, Spain modified bioluminescent bacteria and 3.05.7 | Contaminants of emerging cyanobacteria | Bhuvaneshwari M, concern in irrigation water and fresh Agriculture Research Organization, Israel produce | Evyatar Ben Mordechay, The 3.05P.13 | From pharmacy to field: Hebrew University of Jerusalem, Israel predicting the exposure and fate of Poster antiepileptic drugs in agricultural systems | Alice Marshall, Environment Department, 3.05P.1 | Nitrosamines in drinking University of York, United Kingdom water: Case study in the Metropolitan Region Area of Campinas-SP, Brazil | 3.05P.14 | EU-Interreg project CWPharma Cassiana Montagner, UNICAMP, Brazil – Biotests evaluate contaminats reduction via advanced waste water 3.05P.2 | Mapping degradation pathways of treatment | Ieva Putna, Latvian Institute pharmaceuticals in advanced oxidation with of Aqutic Ecology, agency of DU, Latvia liquid chromatography – UV/MS | Mimi den Uijl, Universiteit van Amsterdam, Netherlands 3.05P.15 | Effect-based monitoring for water safety planning: Why and 3.05P. 3 | Structural Investigations how? | Beate Escher, Helmholtz of Transformation Products of the Centre for Environmental Research Anticoagulant Drug and Rodenticide GmbH – UFZ, Germany Warfarin | Wipert Jannik von Törne, BAM – Federal Institute Materials 3.05P.16 | EDC-WFD: A project to Research and Testing, Germany deliver reliable measurements for better monitoring survey and risks assessments | Wipert Jannik von Törne, BAM – Federal Institute Materials Research and Testing, Germany
SETAC Europe 30th Annual Meeting - SETAC SciCon 57 3.06 – Chemical Exposome of Human and Wildlife – Advancements in Non-targeted Analytical Methodology and Modelling Approaches
Chairs: Nicolas Creusot, Arthur David
Session Discussion: Monday 4 May | 13:45-14:30 UTC
Platform 3.06.3 | Optimizing a suspect 3.06P.2 | Honey Bee (Apis mellifera) screening annotation workflow for Exposomes and Biological Pathways 3.06.1 | Non-targeted screening of large-scale application in human Associated with Nosema ceranae markers of chemical exposure in human cohort | Jade Chaker, EHESP, France Infection | Stephan Baumann, Agilent breast milk: development and challenges Technologies Inc., United States regarding sample preparation and 3.06.4 | Combination of Non-targeted data processing | Mariane Pourchet, and Targeted Analyses to Identify 3.06P.4 | Evaluation of in vitro LABERCA-Oniris-INRA, France Biomarkers of Pesticide Exposures | assays for investigation of fish Nathalie Bonvallot, EHESP, France metabolism | Maxie Kohler, Bayer 3.06.2 | Holistic approach for AG, Crop Science Division, Germany comprehensive xeno-metabolome Poster coverage of Zebrafish embryos exposed to Benzotriazoles, combining 3.06P.1 | Transition-state rate theory orthogonal chromatographic modes, sheds light on ‘black-box’ chemical trapped ion mobility and HRMS | fate algorithms | tom nolte, Radboud Dimitrios Damalas, National and University Nijmegen, Netherlands Kapodistrian University of Athens, Greece
3.07 – Chlorinated Paraffins – State of Science, Insights, Challenges and the Way Forward
Chairs: Louise van Mourik, Sicco Brandsma, Bo Yuan, Mafalda Castro
Session Discussion: Tuesday 5 May | 13:45-14:30 UTC
Platform 3.07.4 | Poster spotlight: What’s 3.07P.3 | CHLOFFIN – answering the in a name? Understanding the urgent call for chlorinated paraffins 3.07.1 | Passive dosing vs. liposome complexities and impact of chloro alkane standards | Marina Ricci, EC-JRC, Belgium delivery for bioaccumulation and toxicity nomenclature around the globe. | Chris assessment: method comparison 3.07P.4 | Analysis of Short chain Howick, INOVYN, United Kingdom using Chlorinated Paraffins as a chlorinated paraffins by high-resolution model substance | Mafalda Castro, 3.07.5 | Poster spotlight: New GC/Q-TOF | Tarun Anumol, Agilent Stockholm University, Sweden standards for chlorinated paraffins – Technologies Inc., United States Eurostars CHLOFFIN project | Solveig 3.07.2 | Environmental behaviour 3.07P.5 | Congener-specific partition Valderhaug, Chiron AS, Norway and bioaccumulation of chlorinated properties of chlorinated paraffins paraffins, dechloranes and PCBs in Poster evaluated with COSMOtherm and GC- northern freshwater ecosystems | Aline retention indices | Jort Hammer, National Arriola, Akvaplan-niva AS, Norway 3.07P.1 | What’s in a name? Understanding Institute for Environmental Studies, Japan the complexities and impact of chloro 3.07.3 | Chlorinated paraffins and alkane nomenclature around the globe. | 3.07P.6 | New standards for chlorinated tris (1-chloro-2-propyl) phosphate Chris Howick, INOVYN, United Kingdom paraffins – Eurostars CHLOFFIN project| in PUR foam – a source for indoor Solveig Valderhaug, Chiron AS, Norway exposure? | Sicco Brandsma, VU 3.07P.2 | Testing and substance evaluation 3.07P.7 | Assessment of Human University Amsterdam, Netherlands of Medium Chain Chlorinated Paraffin (MCCP) under REACH | Louise van Mourik, Exposure to Chlorinated Paraffins Vrije Universiteit Amsterdam, Netherlands in a Norwegian Cohort | Bo Yuan, Stockholm University, ACES, Sweden
3.08 – Emerging Environmental Contaminants – Status, Trends, Challenges and Knowledge Gaps
Chairs: Beatrice Opeolu, Blánaid White, Temitope Olawunmi Sogbanmu
Session Discussion: Tuesday 5 May | 15:45-16:30 UTC
Platform 3.08.4 | Combined analytical and Poster effect-based monitoring of EU 3.08.2 | Occurrence, risk assessment and 3.08P.1 | Toxicity Assessment Of Two Watch List water samples | Eszter prioritization of organic micropollutants: Metallic Nanoparticles On Aquatic Biota | Simon, Centre Ecotox, Switzerland A multi-compartment analysis of Isabel Lopes, University of Aveiro, Portugal freshwater systems in western Kenya | 3.08.5 | Water toxicity monitoring using 3.08P.2 | Monitoring of antibiotics, Faith Kandie, Moi University, Germany CHO cell lines and genetically modified pollutants, and AMR in formal and bioluminescent bacteria | Bhuvaneshwari 3.08.3 | Comparison of Rare Earth informal settlements: Back-calculation M, Agriculture Research Organization, Israel Element levels in muscles of key species of antibiotic usage in the absence of of Amazonian freshwater ecosystem 3.08.6 | Development of a high prescription data | Elizabeth Holton, close to an open landfill| Laurence throughput tool for improving hazard University of Bath, United Kingdom Poirier, Universite de Nantes/MMS, France assessment using microalgae | Ana Almeida, NIVA, Section 213, Norway
58 twitter.com/SETAC_World #SETACSciCon 3.08P. 3 | High throughput method 3.08P.8 | Whole Genome Sequence Analysis 3.08P.14 | The global database revealing the specific toxic effects of of Multidrug Resistant K. pneumoniae “Pharmaceuticals in the Environment” – azithromycin to Raphidocelis subcapitata and E. coli Isolated from Human Update and new analysis | Gerd Maack, | Ana Almeida, NIVA, Section 213, Norway Stool Samples in West Africa | Melina German Environment Agency, Germany Markkanen, University of Helsinki, Finland 3.08P.4 | Using a sensitive multiple 3.08P.15 | Understanding chemical biomarker response to improve 3.08P.9 | Effects of sertraline on fish contaminants in urban freshwater environmental hazard assessment in the embryos | Miguel Oliveira, University environment | Alizée Desrousseaux, green microalgae Raphidocelis subcapitata of Aveiro & CESAM, Portugal York University, United Kingdom | Ana Almeida, NIVA, Section 213, Norway 3.08P.10 | Antagonistic modulators of 3.08P.16 | Occurrence of Plastic Waste 3.08P.5 | Determination of chemicals the Aryl Hydrocarbon Receptor (AhR) Dumps in the Lagos Lagoon, Nigeria of emerging concern in livers of from a chemical-structural outlook | and Stakeholders’ Ecological Risk white-tailed sea eagle from Germany Elizabeth Goya-Jorge, ProtoQSAR SL, Spain Perception | Temitope Sogbanmu, using novel and complementary High University of Lagos, Nigeria 3.08P.11 | Direct analysis of river water for Resolution Mass Spectrometry techniques monitoring emerging contaminant influx 3.08P.17 | Investigating the occurrence | Georgios Gkotsis, National and from agricultural runoff and wastewater and trend of emerging contaminants Kapodistrian University of Athens, Greece treatment plant effluent| Alicia Hartmann, in Asopos river basin using LC-QToF- 3.08P.6 | Rare earth element Hochschule Fresenius, United Kingdom MS and advanced chemometric tools organotropism in European eel | Varvara Nikolopoulou, National and 3.08P.12 | Examination of embryotoxic (Anguilla anguilla): gender and life Kapodistrian University of Athens, Greece potential in sediments by means of the stage influence| Aurore Zalouk sediment contact test with Danio rerio 3.08P.18 | The use of Pollution Induced Vergnoux, Universite de Nantes, France | Markus Schmitz, Goethe University Community Tolerance (PICT) for 3.08P.7 | Ecological and human health Frankfurt am Main, Germany soil Cu decontamination techniques risk assessment of selected veterinary efficiency assessment| Cristina Perez- 3.08P.13 | Determination of 40 pharmaceuticals’ residues in livestock Novo, University of Vigo, Spain contaminants of emerging concern in production effluents and surface water sediment samples from the Trondheim samples | Beatrice Opeolu, Cape Peninsula fjord, Norway | Kristine Vike-Jonas, University of Technology, South Africa Norwegian University of Science and Technology (NTNU), Norway
3.09 – Mass Spectrometry Screening Strategies to Evaluate Environmental Exposures: What Have We Learned and Where Are We Going?
Chairs: Bozo Zonja, Cristina Postigo, Christian Zwiener
Session Discussion: Wednesday 6 May | 15:45-16:30 UTC
Platform Poster 3.09P.8 | Photodegradation products of poly – and perfluorinated alkyl substances 3.09.1 | Development of an effect- 3.09P.1 | Community engagement (PFAS) on agricultural soils identified by LC- directed method for the identification and perceptions of targeted and non- HRMS | Christian Zwiener, Environmental of toxic contaminants present in targeted chemicals of concern for Analytical Chemistry, Center for Applied hospital effluents| Naroa Lopez, municipal wastewater reuse onto Geoscience, University of Tuebingen, Germany University of the Basque Country, Spain human food crops. | Elizabeth Nichols, NC State University, United States 3.09P.9 | Biotic and abiotic transformation 3.09.2 | Ozonation transformation products of the antidepressant fluoxetine products in water and wastewater 3.09P.2 | Non-target screening using identified by LC-HRMS| Christian treatment with different post-treatments two-dimensional GC coupled to Zwiener, Environmental Analytical | Christa McArdell, Eawag, Switzerland high-resolution MS reveals complex Chemistry, Center for Applied Geoscience, pattern of contamination in Arctic 3.09.3 | A chemometrics workflow for MS University of Tuebingen, Germany marine zooplankton | Ida Beathe environmental data analysis: the ROIMCR Øverjordet, SINTEF Ocean, Norway 3.09P.10 | Evaluation of reprotoxic procedure | Roma Tauler, IDAEA CSIC, Spain effects in the model cell line JEG-3 by 3.09P.4 | Mass spectrometry-based 3.09.4 | Poster spotlight: Community means of an LC-MS/MS based aproach | approaches to characterize chemodiversity engagement and perceptions of targeted Cristina Postigo, IDAEA, CID-CSIC, Spain of chlor(am)inated water | Cristina and non-targeted chemicals of concern Postigo, IDAEA, CID-CSIC, Spain 3.09P.11 | Carbamazepine exposure in for municipal wastewater reuse onto the sea anemones Anemonia sulcata and human food crops. | Elizabeth Nichols, 3.09P.6 | Seasonal trends of xenobiotic Actinia equina: metabolite identification NC State University, United States compounds in wastewater treatment and physiological responses | Yolanda plants effluents from Madrid (Spain): target 3.09.5 | Poster spotlight: Non-target Pico, University of Valencia, Spain and suspect screening | Naroa Lopez, screening using two-dimensional GC University of the Basque Country, Spain 3.09P.12 | Intraweek occurrence and coupled to high-resolution MS reveals fate of approximately 200 contaminants complex pattern of contamination in 3.09P.7 | Advancing throughput for of emerging concern, including Arctic marine zooplankton | Ida Beathe comprehensive HRMS screening of drinking antibiotics, in wastewater samples from Øverjordet, SINTEF Ocean, Norway water: Combined approach of online SPE 5 wastewater treatment plants in Cyprus and direct injection | Tarun Anumol, by LC-QTOF-MS/MS | Vasiliki G. Beretsou, Agilent Technologies Inc., United States Nireas-International Water Research Center, University of Cyprus, Cyprus facebook.com/setacworld #SETACSciCon 59 3.09P.13 | Quantification of 3.09P.14 | Seasonal changes in emerging 3.09P.15 | Profiling of human exposures Pharmaceuticals and Personal Care contaminant occurrence in the River to broad range of anticancer drugs Products in Sediment, Seawater, and Thames using passive sampling by mass spectrometry techniques – Biota Collected Around a Wastewater and liquid chromatography-mass monitoring of hospitals, pharmacies and Discharge Point in Norway | Susanne spectrometry | Alexandra Richardson, patient households | Lucie Blahova, Bøe, University of Stavanger, Norway Kings College London, United Kingdom Masaryk University, Czech Republic
3.10 – Measuring, Modelling and Monitoring of Pesticides Fate in a Regulatory Context
Chairs: Bernhard Gottesbueren, Dieter Schaefer, Mark Egsmose
Session Discussion: Tuesday 5 May | 13:00-13:45 UTC
Platform Poster 3.10P.5 | Comparison of different parameters and methods for the 3.10.1 | Initiative to Develop a Harmonised 3.10P.1 | Improved parameterization of assessment of microbial activity of surface Framework for Spatially Distributed sediment trapping in VFSMOD | Stephan waters in OECD 309 | Boris Meisterjahn, Leaching Modelling of Pesticides | Sittig, knoell Germany GmbH, Germany Fraunhofer IME – Institute for Molecular Bernhard Jene, BASF SE, Germany 3.10P.2 | Degradation and adsorption of Biology and Applied Ecology, Germany 3.10.2 | Lipophilicity and translocation metsulfuron methyl and its metabolites 3.10P.6 | Sorption of epoxiconazole of (non-)ionised chemicals in intact in different types of soils commonly and tebuconazole in arable soils plants – one curve fits all?| Carola occuring in Europe | Agnieszka and its relationship to basic and Schriever, BASF SE, Germany Godziek-Botor, Łukasiewicz Research advanced soil properties | Nikola Network Institute of Industrial Organic 3.10.3 | Impact of 20-year FOCUS Boskovic, Masaryk University, Faculty Chemistry, Branch Pszczyna, Poland SW simulations on data storage of Science, RECETOX, Czech Republic capacity – practical solutions for data 3.10P. 3 | Challenges with Ready 3.10P.7 | Field Study to Assess the Influence reduction | Denis Weber, Exponent Biodegradability Test of Poorly Water- of Tied Ridging Technology Used in Potato International Ltd., Switzerland Soluble Compounds | Padmaja Prabhu, Cultivation on the Rate of Surface Runoff Jai Research Foundation (JRF) Global, India 3.10.4 | Determination of plant uptake of a Herbicide | Bashir Surfraz, Cambridge of TFA by inverse modelling of a long- 3.10P.4 | The Effect of Laboratory Environmental Assessments, United Kingdom term semi-field study – incorporating Lighting on the Isomerisation of root imagery | Klaus Hammel, Bayer Pesticides | Joanne Gilbert, Smithers AG, Crop Science Division, Germany ERS Limited, United Kingdom
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60 scicon.setac.org 3.10P.8 | Simulating rainfall to 3.10P.16 | Enhanced FOCUS MACRO 3.10P.26 | Preparation and measure the effect of three cultivation groundwater calculations | Michael Brauer, characterization of a nanoformulation methods on pesticide run-off| Bashir Exponent International Ltd., Switzerland of poly(3-hydroxybutyrate) loaded with Surfraz, Cambridge Environmental tebuconazole | María del Rocío López- 3.10P.18 | A model-data integration Assessments, United Kingdom Cabeza, Masaryk University, Faculty of study of plant uptake process using a Science, RECETOX, Czech Republic 3.10P.9 | Analysing exposure virtual 3D soil-root system | Trung Hieu profiles based on 20-year FOCUS SW Mai, knoell Germany GmbH, Germany 3.10P.27 | Non-target toxicity of conazole simulations | Oliver Körner, ADAMA fungicides to Caenorhabditis elegans and 3.10P.20 | Contributing to the evaluation Deutschland GmbH, Afghanistan Chironomus riparius | Lucia Skulcova, of hydraulic pedotransfer functions: A Masaryk University, RECETOX, Czech Republic 3.10P.10 | Sensitivity analysis of pesticide case study from Central Europe | Nils application timing on exposure estimates Kehrein, knoell Germany, Germany 3.10P.28 | The application of 2d hplc to of the new 20-year FOCUS surface water address the need to investigate the chiral 3.10P.22 | Spatial and temporal distribution drainage scenarios | Prakash Srinivasan, profile of active ingredients and their of the current-use and recently-banned knoell Germany GmbH, Germany metabolites in environmental fate and pesticides in arable soils of the Czech metabolism studies | Rory Mumford, 3.10P.11 | Landscape level simulation Republic | Lucie Bielská, RECETOX, Faculty Smithers ERS Limited, United Kingdom of off-field exposure by runoff – of Science, Masaryk University, Czech Republic Hydrology, run-off generation and 3.10P.29 | Monitoring of pesticides in 3.10P.23 | Modelling Strategies For filtering| Klaus Hammel, Bayer AG, groundwater of Catalonia (NE Spain): Arable Spray Drift Of Plant Protection Crop Science Division, Germany evaluation of spatial and temporal Products In Europe | Neil Mackay, trends of groundwater quality status, 3.10P.12 | On the use of EU-wide geo- FMC Corporation, United Kingdom and environmental and human risk databases for aquatic risk assessment – a 3.10P.24 | Using a higher-tier coupled assessment | Maria Vittoria Barbieri, case study on pH characteristics in surface modelling approach to support the Institute of Environmental Assessment water | Beate Erzgraeber, BASF SE, Germany evaluation of groundwater monitoring and Water Research (IDAEA-CSIC), Spain 3.10P.13 | Stepwise development studies on a sub-catchment scale | Nils 3.10P. 30 | More than one environmental of catchment hydrology for effect Kehrein, knoell Germany, Germany risk assessment methodology for botanical modelling in regulatory landscape- 3.10P.25 | Detection and occurrence of substances in Plant Protection Products scale aquatic risk assessment | Florian 62 pesticides in a Typical Mediterranean | Estelle Beltran, CEHTRA SAS, France Krebs, knoell Germany GmbH, Germany Coastal Wetland by HPLC-MS/MS | 3.10P.14 | Pan-European catchment Yolanda Pico, University of Valencia, Spain modelling: an open data analysis | Florian Krebs, knoell Germany GmbH, Germany
3.11 – Metal Speciation and Bioavailability: Mechanistic Links between Exposure and Effects in Multi Stressor Environments
Chairs: Raewyn M. Town, Christopher Cooper
Session Discussion: Monday 4 May | 15:00 – 15:45 UTC
Platform 3.11.6 | Starvation causes changes 3.11.11 | Elucidation of chemical factors to arsenolipid profile in Mytilus driving ecotoxicity of Flanders’ freshwater 3.11.1 | Persistent Residues of Silver galloprovincialis: evidence for and brackish sediments | tom nolte, in Northern Pike (Esox lucius) from a remobilization, consumption, and Radboud University Nijmegen, Netherlands Lake Dosed with Nanosilver | Chris depuration | Fabiana Freitas, Aveiro Metcalfe, Trent University, Canada University & CESAM, Portugal Poster 3.11.2 | Considerations on assessment 3.11.7 | Rigorous physicochemical 3.11P.1 | Integrating Zn speciation of ecotoxicological risks of metals framework for metal ion binding by and availability information about in mining affected boreal lake nanoparticulate humic substances: a Mediterranean stream | Josep sediments | Jarkko Akkanen, implications for speciation codes Galceran, Universitat de Lleida, Spain University of Eastern Finland, Finland and biovailability models | Raewyn 3.11P.2 | Analysing the proton binding 3.11.3 | Integrated ecotoxicological Town, Systemic Physiological and characteristics of a natural organic matter assessment of Rare Earth Elements Ecotoxicological Research (SPHERE), fraction extracted from brackish waters | mixtures in freshwater bivalve | University of Antwerp, Belgium Josep Galceran, Universitat de Lleida, Spain Nicolas Lachaux, LIEC, France 3.11.8 | Assessing metal speciation 3.11P. 3 | Lipids that contain arsenic 3.11.4 | Empirical bioavailability with the technique AGNES | Josep in the Mediterranean mussel, Mytilus corrections for nickel in freshwaters | Galceran, Universitat de Lleida, Spain galloprovincialis | Fabiana Freitas, Adam Peters, wca, United Kingdom 3.11.9 | A newly observed metal Aveiro University & CESAM, Portugal 3.11.5 | The impact of speciation and bioaccumulation route in intertidal 3.11P.4 | Bioaccessibility testing of metals, bioavailability on uptake and toxicity mussels: cadmium uptake from mantle inorganic metal compounds, and complex of metal mixtures in Tisbe battagliai cavity liquid during low tide in Xenostrobus metal-containing materials in selected | Emil Jarosz, Norwegian University atratus | Zhi Lin, Xiamen University, China artifical media simulating relevant human- of Life Sciences (NMBU), Norway 3.11.10 | Exploring the link between chemical interactions | Burkhard Knopf, cadmium stable isotope compositions Fraunhofer Institute for Molecular Biology and speciation in plants: a case study and Applied Ecology IME, Germany in plants from the Solanum species. | Marie-Laure Pons, CEREGE, France SETAC Europe 30th Annual Meeting - SETAC SciCon 61 3.11P.5 | Polymorphic variants of As3MT 3.11P.7 | Nickel and chromium marine 3.11P.9 | Mining environmental liabilities: and GSTs on distribution of profiles urinary ecotoxicity: relevant for risk assessment a potential source of metal contamination arsenic species in population exposures by of enhanced olivine weathering in for freshwater ecosystems in Costa drinking groundwater in Colombia | Farith coastal zones | Gunter Flipkens, Systemic Rica | Johanna Rojas Conejo, Water Gonzalez, University of Cartagena, Colombia Physiological and Ecotoxicological Research Resources Center for Central America and (SPHERE), University of Antwerp, Belgium the Caribbean (HIDROCEC-UNA), Costa Rica 3.11P.6 | An assessment of heavy metals intake in four Danish dietary profiles – A 3.11P.8 | Effects of marine tailing 3.11P.10 | The role of fish helminth need of policy instruments securing exposure on the growth and development parasites in monitoring metal pollution soil health and food safety | Michele of Calanus finmarchicus| Linn in aquatic ecosystems: a case study in Marini, Aarhus University, Denmark Svendheim, Nord University, Norway the world’s most productive platinum mining region | Nicholas Smit, NorthWest University, South Africa
3.12 – Micro(nano)plastics Occurrence, Fate and Effects: Mechanistic Approaches to Study Risks to Environmental and Human Health
Chairs: Miguel Oliveira, Miguel Tamayo Belda, Amy Lusher
Session Discussion: Tuesday 5 May | 13:45-14:30 UTC
Platform 3.12.13 | Poster spotlight: Impact of Poster PMMA nanoplastics in the microalgae 3.12.1 | Microplastic occurrence in urban 3.12P.2 | Distribution of microplastics Rhodomonas baltica: effects of surface sewage systems: Identification of sources in Surface waters of ponds and functionalization | Tânia Gomes, Norwegian for pathways into the environment | channels in two South Ryadh and Institute for Water Research (NIVA), Norway Korinna Altmann, BAM – Federal Institute Al-Jubail (Saudi Arabia) | Yolanda Materials Research and Testing, Germany 3.12.14 | No Trojan Horse In Sight: Pico, University of Valencia, Spain Wastewater Treatment Reduces 3.12.2 | Occurrence and fate of 3.12P. 3 | Assessment of the Effects Multigenerational Effects Of microplastics in fat, grease, and sludge of Chronic Exposure of Polystyrene Polystyrene Microplastics On Daphnia feeding to the anaerobic sludge digester | Micro – and Nanoplastics to Daphnia magna | Christoph Schuer, Goethe Rupa Chand, Aalborg University, Denmark magna | Oluwadamilola Pikuda, University Frankfurt, Germany McGill University, Canada 3.12.3 | Spatial distribution of 3.12.16 | The role of microplastics on the microplastic in surface water, sediment 3.12P.4 | Impact of PMMA nanoplastics bioaccumulation, biotransformation and and biota along a river | Anna Winkler, in the microalgae Rhodomonas baltica: toxicity of the antibiotic clarithromycin State University of Milano, Italy effects of surface functionalization on river biofilms| Lúcia Santos, Catalan | Tânia Gomes, Norwegian Institute 3.12.4 | Distribution of microplastics Institute for Water Research (ICRA), Spain for Water Research (NIVA), Norway in abiotic and biotic compartments 3.12.17 | Poster spotlight: Intracellular of Arcachon Bay during spring and 3.12P.5 | Intracellular fate and toxicity of fate and toxicity of nano and microplastics summer. | Charlotte Lefebvre, nano and microplastics and associated and associated benzo(a)pyrene in mussel Environnements et Paléoenvironnements benzo(a)pyrene in mussel hemocytes hemocytes in vitro | Miren Cajaraville, Océaniques et Continentaux, France in vitro | Miren Cajaraville, University University of the Basque Country, Spain of the Basque Country, Spain 3.12.5 | Detection and quantification of 3.12.18 | Asymmetrical-flow field nanoplastic in natural samples by multi- 3.12P.6 | Rapid fragmentation of flow fractionation approach for the scale characterization | Alexandra Ter microplastics by the freshwater amphipod separation and characterization of Halle, University of Toulouse, CNRS, France Gammarus duebeni (Lilj.) | Alicia Mateos nanoplastics in complex matrices | Cardenas, University College Cork, Ireland 3.12.7 | Poster spotlight: Distribution Andrea Valsesia, European Commission of microplastics in Surface waters of DG Joint Research Centre, Italy 3.12P.7 | Microplastics across Drake ponds and channels in two South Ryadh Passage | Alethea Mountford, 3.12.19 | Conventional drinking water and Al-Jubail (Saudi Arabia) | Yolanda Newcastle University, United Kingdom treatment processes and nanoplastic Pico, University of Valencia, Spain particle removal | Gerardo Pulido- 3.12P.8 | Development of Cost-Effective 3.12.9 | Virgin and oxo-degradable plastic Reyes, Eawag, Switzerland Methodologies to Identify and Quantify leachates effects in freshwater environment Microplastics in Seawater Samples | Gert 3.12.21 | Plastic debris and PAHs: | simona schiavo, ENEA CR, Italy Everaert, Flanders Marine Institute, Belgium concerns in the southern retention 3.12.11 | Tackling the detection issues of basin of the Cheviré Bridge (Nantes, 3.12P.9 | Bivalves as indicators for effects caused by nanoparticles enable to France) | Aurore Zalouk-Vergnoux, microplastic pollution: A large-scale build Adverse Outcome Pathways | Martina Univeristé de Nantes, France investigation of Nordic seas | Amy Vijver, CML Leiden University, Netherlands Lusher, NIVA Norwegian Institute 3.12.22 | Fate of microplastics in of Water Research, Norway 3.12.12 | Poster spotlight: Assessment the marine environment | Carla of the Effects of Chronic Exposure of AlChahir Bel Hajjar, CIRAIG – École 3.12P.10 | A systematic study of Polystyrene Micro – and Nanoplastics Polytechnique de Montréal, Canada microplastic fiber release from 12 polyester to Daphnia magna | Oluwadamilola textiles through washing | Yaping Cai, 3.12.23 | Poster spotlight: Biological Pikuda, McGill University, Canada Empa Swiss Federal Laboratories for Materials fragmentation of microplastics by Science and Technology, Switzerland the freshwater amphipod Gammarus duebeni | Alicia Mateos Cardenas, University College Cork, Ireland
62 twitter.com/SETAC_World #SETACSciCon 3.12P.11 | Does nanosized 3.12P.22 | Stitching the patchwork 3.12P. 33 | Adsorption of musk polymethylmethacrylate toxicity dependent quilt; The gaps in microplastic research fragrances by conventional (PA) and on the route of exposure and on the in freshwater biota. | Anna Kukkola, biodegradable (PHB) microplastics selected food items? | Miguel Oliveira, University of Birmingham, United Kingdom in seawater | Soledad Muniategui- University of Aveiro & CESAM, Portugal Lorenzo, Universidade da Coruña, Spain 3.12P.23 | Do microplastics affect 3.12P.12 | Evidences of the cosmopolitan zoanthid Zoanthus 3.12P. 34 | Bivalves as indicators for polymethylmethacrylate PMMA sociatus, in a short-term exposure microplastic pollution: A large-scale nanoplastics toxicity and teratogenicity on scenario? – responses at physiological investigation of Nordic seas | Astrid the freshwater cnidarian Hydra viridissima and biochemical levels | Miguel Oliveira, Bartonitz, Aquatic Systems Biology Unit, | Isabel Lopes, University of Aveiro, Portugal University of Aveiro & CESAM, Portugal Technical University of Munich, Germany
3.12P.13 | Suborganismal acute responses 3.12P.24 | Oxidative stress and energy 3.12P. 35 | Microplastics as possible of the aquatic midge Chironomus unbalance in Chironomus riparius vectors of inorganic pollutants: the riparius to polyethylene microplastics larvae after ingestion of polyethylene study case Ofanto river | claudia | Ana Belén González, UNED, Spain microplastics | João Pestana, CESAM campanale, Water Research Institute & University of Aveiro, Portugal Italian National Research Council, Italy 3.12P.14 | Use of fluorescent-labelled nanoplastics (NPs) to demonstrate 3.12P.25 | Occurrence and effects 3.12P. 36 | Lost in the lab: Where NP absorption is inconclusive without of microplastics in tissues of coastal is all the microplastic? | Aurelia adequate controls | Ana I Catarino, animals in a plastic polluted area | Laubscher, University Koblenz- Flanders Marine Institute, Belgium Alessio Gomiero, International Research Landau, Campus Landau, Germany Institute of Stavanger, Norway 3.12P.15 | Adverse effects induced by 3.12P. 37 | The Hidden Microbial World micronized polyethylene terephthalate 3.12P.26 | Investigating effects of of Environmental Plastic: An Initial microparticles (PET-µPs) to the Manila clam Nanoplastics on the Bioavailability Examination of the Interactions Between (Ruditapes philippinarum) | Beatrice De of Sediment-associated Toxicants Plastic and Aquatic Microbial Communities Felice, Università degli Studi di Milano, Italy by Assessment of Zebrafish Gene in a Freshwater Environment. | Katey Expression | Ana I Catarino, Valentine, Environment Department, 3.12P.16 | Evaluation of microplastic toxicity Flanders Marine Institute, Belgium University of York, United Kingdom in accordance with different sizes and exposure times in the marine copepod 3.12P.28 | Does the presence of natural 3.12P. 38 | The effect of intrinsic Tigriopus japonicus | June Woo Park, particles alter microplastics ingestion properties, UV-degradation and biofilm Korea Institute of Toxicology, South Korea and effects in freshwater sediment- formation on the fate of microplastic dwelling invertebrates? | João Pestana, fibers in the marine environment| 3.12P.17 | Do polyethylene terephtalate CESAM & University of Aveiro, Portugal Lisbet Sørensen, SINTEF Ocean, Norway microplastics (PET-µPs) affect or suffer the effects by the sea urchin 3.12P.29 | Assessment of the Degradability 3.12P. 39 | Investigation of the correlation Paracentrotus lividus? | Beatrice De Felice, and Toxicity of Biobased Composites | Ana between wastewater treatment parameters Università degli Studi di Milano, Italy I Catarino, Flanders Marine Institute, Belgium and pollutant accumulation on LDPE in the long-term deployment tests at municipal 3.12P.18 | Minimum reporting criteria for 3.12P. 30 | Modelling environmental wastewater treatment plants | Michael microplastic ecotoxicity testing – do we relevant experimental data: Atlantic Gottschling, TU Darmstadt, Germany meet our own prerequisites? | Sebastian cod feeding on plastic | Noel Diepens, Beggel, Aquatic Systems Biology, Technische Wageningen University, Netherlands 3.12P.40 | Impact of Biofilm- Universitaet Muenchen, Germany Formation on Microplastics’ Sinking 3.12P. 31 | Plastic Additives: How “pure” Rates | Tobias Schmitt, Universität 3.12P.20 | Uptake and interactions of are neat polymers? | Soledad Muniategui- Koblenz-Landau, Germany nanoplastics with wheat plants | Denise Lorenzo, Universidade da Coruña, Spain Mitrano, Eawag – Swiss federal Institute of 3.12P.41 | Attached And Free-Living 3.12P. 32 | Sorption of Chlorpyrifos Aquatic Science and Technology, Switzerland Bacterial Communities Associated With on plastics and bioplastics in marine Different Plastic Types And Sizes In 3.12P.21 | Toxicity of polystyrene environment. Effect of temperature Seawater And Freshwater | Nhung Nguyen, nanobeads to the marine microalgae and weathering | Soledad Muniategui- Technical University of Liberec, Czech Republic Rhodomonas baltica | Tânia Lorenzo, Universidade da Coruña, Spain Gomes, Norwegian Institute for 3.12P.42 | Modelling influence of seasonal Water Research (NIVA), Norway variability of plankton and organic matter on distribution of microplastic in water column | Evgeniy Yakushev, Norwegian Institute for Water Research (NIVA), Norway
3.13 – New Approaches to Characterising the Global Chemical Exposome
Chairs: John Wilkinson, Alistair Boxall
Session Discussion: Monday 4 May | 13:00-13:45 UTC
Platform 3.13.2 | Assessing Chemical Mixtures 3.13.3 | Global chemical monitoring: in Air at the Global Scale: Advances Novel methodologies elucidating 3.13.1 | A First Comprehensive Analysis of with PUF Disk Passive Air Samplers the extent and drivers of the riverine National/Regional Chemical Inventories | Tom Harner, Environment and chemical exposome | John Wilkinson, | Zhanyun Wang, Swiss Federal Climate Change Canada, Canada The University of York, United Kingdom institute of Technology, Switzerland
facebook.com/setacworld #SETACSciCon 63 3.13.4 | An exposome-based approach Poster 3.13P. 3 | Results of the German using Big Data to compare the health Environmental Survey for Children 3.13P.1 | Poly – and perfluoroalkyl impacts of multi-chemicals and multi- and Adolescents 2014-2017: PCB and substances (PFASs) in surface waters of stressor exposures | Olivier Jolliet, OCP in blood plasma | Nicole Bandow, Western Europe, North America, and the University of Michigan, United States German Environment Agency, Germany global oceans. A review of spatial and temporal trends | Derek Muir, Environment 3.13P.4 | Results of the German and Climate Change Canada, Canada Environmental Survey for Children and Adolescents (GerES 2014-2017): 3.13P.2 | Screening for persistent Per – and polyfluoroalkyl substances and bioaccumulative chemicals in in blood plasma | Nicole Bandow, China’s industrial chemical inventory German Environment Agency, Germany | Derek Muir, Environment and Climate Change Canada, Canada
3.14 – New Methods in Environmental Analytical Chemistry: From Interrogation of Complex Matrices to Innovative Tools for Monitoring
Chairs: Leon Barron
Session Discussion: Wednesday 6 May | 15:00 – 15:45 (Platform) & 17:00 – 17:30 (Poster corner) UTC
Platform 3.14P.2 | High sensitive detection of 3.14P.7 | Hyphenated Laser ablation- hormones (E1, E2, EE2) according to single particle ICP-MS to quantify size and 3.14.1 | Rapid, direct-injection LC- the requirements of the EU Water concentration of engineered nanomaterials MS/MS micropollutant analysis and Framework Directive | Stephane Moreau, in environmental solid samples without multivariate classification of international Shimadzu Europa Gmbh, Germany prior extraction | Geert Cornelis, Swedish water samples | Leon Barron, Kings University of Agricultural Sciences, Sweden College London, United Kingdom 3.14P. 3 | From niche to necessity: GC | Jan Peter Mayser, Markes 3.14.2 | Analyzing unknown C2-C12 Poster Corner International Ltd, United Kingdom PFAA-precursors in environmental 3.14PC.1 | Characterization of the samples using optimized TOP assay | 3.14P.4 | Development of a Solid Phase endocrine disruptors pollutant load Yiming Yao, Nankai Univeristy, China Microextraction Method for Fast Analysis according to the size of air particles | of Cyclic Volatile Methylsiloxanes in 3.14.3 | Method development for Diane Le Bayon, EPHE UMR 7619, France Water | Derek Muir, Environment and the monitoring of pesticides and Climate Change Canada, Canada 3.14PC.2 | Game of Unknowns: Non- transformation products in waterfowls’ Target Analysis strategies for identifying eggs | Vincent Dufour, URAFPA-INRA, France 3.14P.5 | m´Mobility of micronized emerging PFAS in Water | Tarun Anumol, materials in groundwater by using on-line 3.14.4 | Paper-origami device enabling low- Agilent Technologies Inc., United States absorption spectrometry | Vicenç Martí, cost and rapid microbial analysis | Zhugen Universitat Politecnica Catalunya, Spain 3.14PC.3 | Quantification of the Yang, Cranfield University, United Kingdom anthropogenic Ce fraction in biosolids 3.14P.6 | Uncertainty analysis in based on REE patterns and the Poster synchrotron hard X-ray chemical oxidation state of Ce | Ralf Kaegi, 3.14P.1 | The Total Oxidizable Precursor imaging of nano CuO in digested Eawag – Swiss federal Institute of Aquatic (TOP) Assay as a Tool to Detect Unknown sewage sludge | Jonas Wielinski, Science and Technology, Switzerland Per – and Polyfluoroalkyl Substances ETH Zürich/Eawag, Switzerland in German Rivers | Claire MacKenzie, Fraunhofer IME – Institute for Molecular Biology and Applied Ecology, Germany
3.15 – Non-target Analysis in Environmental Sciences: The State of the Art and Future Perspectives
Chairs: Lubertus Bijlsma, Marja Lamoree
Session Discussion: Wednesday 6 May | 13:45-14:30 UTC
Platform 3.15.4 | Poster spotlight: Suspect Poster and non target analysis of emerging 3.15.1 | patRoon: Open-Source Software 3.15P.1 | Suspect and non target polar xenobiotics in water: workflows Platform for Environmental Non-Target analysis of emerging polar xenobiotics relevance | Belen Gonzalez-Gaya, Studies | Rick Helmus, Universiteit in water: workflows relevance| Plentzia Marine Station. UPV/EHU, Spain van Amsterdam, Netherlands Belen Gonzalez-Gaya, Plentzia 3.15.5 | Poster spotlight: Detection and Marine Station. UPV/EHU, Spain 3.15.2 | Combining in vitro bioanalyses prioritization of unknown compounds with ion mobility-high resolution 3.15P.2 | Detection and prioritization of in water extracts from drinking mass spectrometry as a refined unknown compounds in water extracts water production | Timo Hamers, screening workflow in environmental from drinking water production | Timo VU University Amsterdam, Institute for analyses | Alberto Celma Tirado, Hamers, VU University Amsterdam, Institute Environmental Studies (IVM), Netherlands University Jaume I, Spain for Environmental Studies (IVM), Netherlands
3.15.3 | Implementation of non-targeted analysis as a water characterization tool | Solène Motteau, IC2MP, France
64 scicon.setac.org 3.15P. 3 | Ion mobility separations 3.15P.5 | Multi-target analysis and 3.15P.7 | Fractionation of wastewater in environmental analysis: the suspect screening of emerging polar effluent for the characterization of organic additional value to current high xenobiotics in milk | Belen Gonzalez-Gaya, micropollutants by high-resolution mass resolution mass spectrometry Plentzia Marine Station. UPV/EHU, Spain spectrometry | Nina Huynh, LEESU, France screening strategies | Alberto Celma 3.15P.6 | Non-target screening approach 3.15P.8 | Suspect screening and non- Tirado, University Jaume I, Spain applied to groundwater samples can target analysis in human biomonitoring: 3.15P.4 | Prediction of the removal lead to a better characterization of an overview of new challenges and efficiency of organic contaminants in the territory | Sara Valsecchi, Water perspectives | Chiara Maria Vitale, wastewater treatment plants by QSAR | Research Institute – Italian National Masaryk University, Czech Republic Ester Papa, University of Insubria, Italy Research Council IRSA-CNR, Italy
3.16 – Occurrence, Fate, Transport and Reactivity of Emerging Micropollutants in Aquatic Systems
Moderators: Eszter Simon, Marja Lamoree
Session Discussion: Monday 4 May | 15:45-16:30 UTC
Platform 3.16P. 3 | Pharmaceuticals and personal 3.16P.12 | The influence of perfluoroalkyl care products – An anthropogenic acid (PFAA) concentrations on the 3.16.1 | Occurrence of micropollutants in fingerprint in the Pearl River Estuary enrichment of PFAAs in sea spray fish collected from an aquatic ecosystem and South China Sea | Kathrin aerosols (SSA) in a laboratory study | influenced by municipal effluent discharge Fisch, Leibniz Institute for Baltic Sea Bo Sha, Stockholm University, Sweden and snowmelt | Yelena Sapozhnikova, U.S. Research Warnemünde, Germany Department of Agriculture, United States 3.16P.13 | A Temporal Study of 3.16P.4 | Mycotoxins as Micropollutants Pyrethroid Pesticides in Irish Surface 3.16.2 | Identification of Emerging of Emerging Concern in Freshwater Water Environments | Imogen Hands, Contaminants in Freshwater Invertebrates Systems. | Emily Eagles, University Dublin City University, Ireland to Facilitate Toxic or Effect Pressure of Plymouth, United Kingdom Estimation | Keng Tiong Ng, Kings 3.16P.14 | Occurrence of antifouling College London, United Kingdom 3.16P.5 | Development and validation of a biocides in areas under influence high-throughput method for biomonitoring of different naval activities| 3.16.3 | Impact of Vanillic Acid and exposure of invertebrates to contaminants Fiamma Abreu, FURG, Brazil o-Methoxyphenol on Adsorption and in aquatic systems. | Lucy Birkitt, Transformation of Lamotrigine by 3.16P.15 | Occurrence of organic antifouling Kings College London, United Kingdom Manganese Oxide | Marina Karpov, The biocides in Danish marinas | Jasper Hebrew University of Jerusalem, Israel 3.16P.6 | Competitive adsorption Koning, Aarhus University, Department and desorption of three tetracycline of Environmental Science, Denmark 3.16.4 | Detection of the herbicide antibiotics on bio-sorbent materials in Glyphosate and its metabolite 3.16P.16 | Determination Of Marine binary systems | George Metreveli, Aminomethylphosphonic acid in Toxins In Ebro Delta By HPLC-HRMS | University of Koblenz-Landau, Germany the Marine Environment | Marisa Marinella Farre, IDAEA – CSIC, Spain Wirth, Leibniz Institute for Baltic Sea 3.16P.7 | Evaluation of enrofloxacin 3.16P.17 | Technology-critical Research Warnemünde, Germany adsorption/desorption in soils using a element in marine organisms – stirred flow chamber| Manuel Arias- 3.16.5 | Estrogenic compounds in analytical challenges, toxicology, and Estevez, University of Vigo, Spain the Pearl River Estuary | Carina environmental aspects | Melina Abdou, Deich, Leibniz Institute for Baltic Sea 3.16P.8 | Measuring the dissipation University of Geneva, Switzerland Research Warnemünde, Germany half-life of PPCPs in the Brisbane 3.16P.18 | Anthropogenic anomalies River estuary using a mass balance 3.16.6 | Sulfidized silver nanoparticles of Gadolinium in waste-water model and benchmarking | Rodrigo in abiotic and biotic compartments – A influenced creeks in the Rhine-Main Alvarez Ruiz, Centro de Investigación mesocosm study | Sebastian Kühr, area, Germany | Thomas Schiedek, sobre Desertificación (CIDE), Spain Fraunhofer IME – Institute for Molecular Applied Geosciences, Germany Biology and Applied Ecology, Germany 3.16P.9 | Polycyclic Aromatic Hydrocarbons 3.16P.19 | Assessment pollution for (PAH) in alpine surface water of the 3.16.7 | Investigation of the synergy heavy metals in sediments of irrigation European Alps | Thomas Schiedek, of nanoparticles and antibiotics canals of Ramada, Cundinamarca, Applied Geosciences, Germany contamination in natural waters – a Colombia. | Carlos Sanchez Romero, focus on pyrenees aquatic environment 3.16P.10 | Emerging and legacy Carlos Sanchez Romero, Colombia | Sebastiano Gozzo, CNRS (LCABIE- contaminants across land-use gradients 3.16P.20 | Screening Emerging IPREM, Université de Pau), France and the risk to aquatic ecosystems | Contaminants of Wastewater Paula Sardina, Environment Protection Origin in Boreal Sediments and Poster Authority (Victoria), Australia Surface Waters | Timo Ilo, University 3.16P.1 | Sources and occurrence of 3.16P.11 | Estimation of Trophic of Eastern Finland, Finland pharmaceuticals in Irish surface waters. | Magnification Factor (TMF) in a real trophic 3.16P.21 | Urban wastewater Dylan O’Flynn, Dublin City University, Ireland web: a case study of Lake Mergozzo streams differ in CEC composition: (Northern Italy) | Sara Valsecchi, Water 3.16P.2 | A year-long study of results from a screening study in Research Institute – Italian National pharmaceutical and personal care Nijmegen (NL) | Caterina Zillien, Research Council IRSA-CNR, Italy products in Irish urban and rural Radboud University, Netherlands water samples using SPE-LC-MS/MS | Helena Rapp Wright, DCU Water Institute, Dublin City University, Ireland
SETAC Europe 30th Annual Meeting - SETAC SciCon 65 3.17 – Persistent (P) and PMT/vPvM Substances in the Environment: Improving Experimental and Weight of Evidence Assessment Methods, Providing Solutions, and Informing Regulations
Chairs: Aaron D. Redman, John Parsons, Michael Neumann, Hans Peter Arp
Session Discussion: Tuesday 5 May | 13:00-13:45 UTC
Platform 3.17P.2 | Demonstration of Phenanthrene 3.17P.8 | Seeking Alternatives to ready biodegradability and enhancements the Proposed ‘M’ criteria in the PMT 3.17.1 | The P-Sufficient Approach: why of OECD 301 testing using bioavailability Concept | Aaron Redman, Exxon Mobil high persistence is a source of very high improvement methods. | David M Biomedical Sciences, Inc., Belgium concern | Zhanyun Wang, Swiss Federal Brown, Ricardo, United Kingdom institute of Technology, Switzerland 3.17P.9 | Consideration of Relevant 3.17P. 3 | Compartment specific Metabolites in the Context of the PMT 3.17.2 | Biodegradation of multi- half-life factors of hydrocarbons in Concept and Protection of Water Resources ring aromatic hydrocarbons in soil – water, soil and sediments. | David M | Sascha Pawlowski, BASF SE, Germany insights from OECD simulation testing Brown, Ricardo, United Kingdom | Christopher Hughes, Ricardo Energy 3.17P.10 | Review of predictive risk & Environment, United Kingdom 3.17P.4 | Biodegradation simulation assessment approaches for the transport testing of hydrocarbons in activated sludge of chemicals to groundwater. A proposal 3.17.3 | The identification and assessment systems | Christopher Hughes, Ricardo for an improved tiered approach for of PMT/vPvM substances under REACH Energy & Environment, United Kingdom use in Regulation | Nathalie Vallotton, | Hans Peter Arp, NGI, Norway Dow Europe GmbH, Switzerland 3.17P.5 | Optimization of closed setup for 3.17.4 | P chemicals and water resources biodegradation testing of volatile chemicals 3.17P.12 | Scientific and regulatory TP | Sascha Pawlowski, BASF SE, Germany in water-sediment systems (OECD 308) | challenges to deal with “mobile” Poster Prasit Shrestha, Fraunhofer – IME, Germany substances. | Steven Van de Broeck, Cefic, Belgium 3.17P.1 | Temperature dependency of 3.17P.6 | Scientific Concepts and Methods biodegradation kinetics in environmental for Moving persistence (P) assessments 3.17P.13 | Necessity of Joint Consideration surface waters across Europe | into the 21st Century | Russell Davenport, of Persistence and Mobility for Determining Karina Knudsmark Sjøholm, Technical Newcastle University, United Kingdom the Leaching Risk of Chemicals | Bernhard Jene, BASF SE, Germany University of Denmark (DTU), Denmark 3.17P.7 | Conceptual framework for moving persistence (P) assessments into the 21st Century | Aaron Redman, Exxon Mobil Biomedical Sciences, Inc., Belgium
3.18 – Potential Roles for Diffusive Gradient in Thin Film (DGT) Passive Samplers in Investigative and Regulatory Monitoring
Chairs: Iratxe Mentxaka
Session Discussion: Tuesday 5 May | 15:45-16:30 UTC
Platform Poster 3.18P.6 | Field testing of novel passive samplers to detect PFASs in aquatic 3.18.1 | Time-weighted average 3.18P.1 | High frequency measurement of environments | Rainer Lohmann, concentrations with Diffusive Gradients in metals: steps towards the acceptance of University of Rhode Island, United States Thin films (DGT)| Jaume Puy, Universitat passive samplers for regulatory monitoring de Lleida and AGROTECNIO, Spain | Iratxe Mentxaka, FUNDACION AZTI, Spain 3.18P.7 | Mixed polymer passive sampler development for large spectrum organic 3.18.2 | Can the existing Environmental 3.18P.2 | Impact of temperature, chemical sampling from different Quality Standards (EQS) be adapted seasonality and metal concentration on matrices in combination with passive for Diffusive Gradients in Thin films DGT membrane biofouling in marine dosing of complex mixtures | Paul Böhm, (DGT), for the chemical assessment of envrionments | Blánaid White, DCU Water RWTH Aachen University, Germany transitional and littoral waters? Yes, we Institute, Dublin City University, Ireland can! | Iratxe Mentxaka, AZTI, Spain 3.18P. 3 | Unravelling dynamic 3.18.3 | Monitoring of pharmaceuticals, characteristics of metal species in mixtures pesticides and perfluorinated compounds from Diffusive Gradients in Thin films (DGT) in wastewater using a hydrogel-based measurements | Jaume Puy, Universitat passive sampler (o-DGT) | Branislav de Lleida and AGROTECNIO, Spain Vrana, Masaryk University, Faculty of 3.18P.4 | A New Polar Organic Chemical Science, RECETOX, Czech Republic Integrative Sampler (POCIS) for Linear 3.18.4 | Evolution of soil-solution Alkylbenzene Sulfonate (LAS) | Kazushi transfers during one field season of Noro, Research Institute of Environment, viticulture: comparison of passive DGT Agriculture and Fisheries, Osaka, Japan, Japan sampling and active sampling | Manon 3.18P.5 | Experimental calibration of Pierdet, INRA BORDEAUX, France the copolymer ethylene vinyl acetate (EVA) passive sampler for emerging contaminants in freshwater. | Ricardo Barra, Universidad de concepcion, Chile
66 twitter.com/SETAC_World #SETACSciCon 3.19 – Siloxanes and Related Chemicals: Environmental Monitoring and Behavior, Ecosystem Exposure and Energetic Efficiency
Chairs: Nuno Ratola, Vera Homem
Session Discussion: Monday 4 May | 13:45-14:30 UTC
Platform 3.19P.2 | Sample Processing and 3.19P.8 | The presence of emerging Laboratory Supplies as Sources of contaminants in urban sewage sludge – 3.19.1 | Analytical Bias in the Contamination in the Trace Analysis results of a Portuguese snapshot | Vera Trace Analysis of Cyclic Volatile of Cyclic Volatile Methyl Siloxanes Homem, Univ. Porto – FEUP, Portugal Methylsiloxanes | Thomas Boehmer, | Jeremy Durham, Dow Chemical Evonik Nutrition & Care GmbH, Germany 3.19P.9 | Long-term Monitoring and Trend Corporation, United States Analysis of Cyclic Volatile Methylsiloxanes 3.19.2 | Interim results of an EU-wide 3.19P. 3 | Chemical Transformation (cVMS) in Aquatic Environments Receiving monitoring study assessing the effects as a Source of Analytical Bias in the Wastewater Effluent| Rita Seston, Hyla of announcing use restrictions on Trace Analysis of Cyclic Volatile Methyl Environmental Consulting, LLC, United States methylsiloxanes | Reinhard Gerhards, Siloxanes | Thomas Boehmer, Evonik Gerhard Consulting, Germany 3.19P.10 | Multimedia environmental Nutrition & Care GmbH, Germany fate of volatile methylsiloxanes modeled 3.19.3 | Occurrence of cyclic volatile 3.19P.4 | Siloxanes in Global Air in the Tokyo Bay catchment basin | methylsiloxanes D4, D5 and D6 in fish from and UV Filters in Urban Air | Tom Yoshitaka Imaizumi, National Institute German freshwaters | Georg Radermacher, Harner, Environment and Climate for Environmental Studies, Japan Fraunhofer IME – Institute for Molecular Change Canada, Canada Biology and Applied Ecology, Germany 3.19P.11 | Presence of volatile 3.19P.5 | Deposition of airborne volatile methylsiloxanes (VMSs) in beach sand 3.19.4 | Bioaccumulation of Linear methylsiloxanes is negligible in the surface | Nuno Ratola, Faculty of Engineering and Cyclic siloxanes in Rainbow trout media of remote regions | Jaeshin Kim, – University of Porto, Portugal (Oncorhynchus mykiss) | Mark Cantu, The Dow Chemical Company, United States Simon Fraser University, Canada 3.19P.12 | Reducing uncertainty in 3.19P.6 | Siloxanes as biogas impurities: predicting trophic magnification Poster sampling, analysis and occurrence in factors for cyclic and linear volatile 3.19P.1 | Analytical instrumentation as a landfills and WWTPs| Nuno Ratola, Faculty methylsiloxanes | Jaeshin Kim, The source of contamination in the analysis of Engineering – University of Porto, Portugal Dow Chemical Company, United States of siloxanes | Jeremy Durham, Dow 3.19P.7 | Impact of volatile 3.19P.13 | Toxicity assessment of siloxanes Chemical Corporation, United States methylsiloxanes in the solid line of an and human exposure by inhalation in urban wastewater treatment plant a WWTP within the project LaNSiloT | Vera Homem, LEPABE, Faculty of | Sofia Augusto, Institute of Public Engineering, University of Porto, Portugal Health, University of Porto, Portugal
3.20 – Sources, Fate and Effects of Metals in the Environment: Advances in Risk Assessment, Regulatory Guidance, and Remaining Gaps
Chairs: Stijn Baken, Severine Le Faucheur, Jelle Mertens
Session Discussion: Wednesday 6 May | 15:45-16:30 UTC
Platform 3.20.6 | Do counter-ions affect nickel Poster toxicity? | Elizabeth Middleton, 3.20.1 | EcoRelevance: Population 3.20P.1 | Aquatic hazard assessment of NiPERA Inc, United States modelling for metal risk assessment vanadium for the protection of organisms | Karel Viaene, ARCHE, Belgium 3.20.7 | Mixture toxicity of Ni, Cu and in European freshwaters based on a species Zn on eight freshwater algal species: sensitivity distribution approach | Astrid 3.20.2 | Integrating bioavailability of what determines a something- Voigt, EBRC Consulting GmbH, Germany metals in fish population models| Sharon from-nothing effect?| Andreas Janssen, Ghent University (UGent), Belgium 3.20P.2 | Water solubility testing of Fettweis, KULeuven, Belgium metals and metal compounds | Burkhard 3.20.3 | A Flexible Aquatic Metal 3.20.8 | Thirty-years of monitoring Knopf, Fraunhofer Institute for Molecular Bioavailability Modelling Tool for for metals in airborne particles (PM10) Biology and Applied Ecology IME, Germany Site-specific Risk Assessment| in the Canadian Great Lakes basin Stephen Lofts, UK Centre for Ecology 3.20P. 3 | Transformation/Dissolution – trends and source apportionment & Hydrology, United Kingdom testing of metals and metal compounds and | Hayley Hung, Environment and determination of dissolved ions | Burkhard 3.20.4 | Validation of bio-met for Climate Change Canada, Canada Knopf, Fraunhofer Institute for Molecular the site specific bioavailability 3.20.9 | High-resolution spatial Biology and Applied Ecology IME, Germany normalisation of EQS for copper, and temporal monitoring of trace nickel, and zinc | Christopher Cooper, 3.20P.4 | A Tiered Compliance metal speciation in a major International Zinc Association, Belgium Assessment of Zinc Exposures in European estuary | Melina Abdou, France Using a Nationally Derived 3.20.5 | Using national regulatory University of Geneva, Switzerland Environmental Quality Standard | freshwater monitoring data to define 3.20.10 | Geochemical factors affecting Adam Peters, wca, United Kingdom ecologically relevant bioavailability-based metal solubility in saline waters: EQS for metals: the example of France 3.20P.5 | Extending the application range implications for ecotoxicity | Brad | Adam Peters, wca, United Kingdom of the nickel biotic ligand models: the Angel, CSIRO Land and Water, Australia influence upon compliance assessment in France | Adam Peters, wca, United Kingdom facebook.com/setacworld #SETACSciCon 67 3.20P.6 | Validation of Bio-met 3.20P.14 | Establishment of Potamopyrgus 3.20P.21 | Ecological risk assessment for the site-specific bioavailability antipodarum in outdoor stream of heavy metals in marine sediments normalisation of the EQS for zinc | mesocosms and validation with tributyltin of the brownfield site of Ilva of Adam Peters, wca, United Kingdom (TBT) | Peter Ebke, MESOCOSM GmbH Bagnoli-Coroglio (Campania-Italy) Institut für Gewässerschutz, Germany | Sonia Manzo, ENEA CR, Italy 3.20P.7 | Validation of Bio-met for the site-specific bioavailability 3.20P.15 | Investigation of the molecular 3.20P.22 | History of lead contamination normalisation of the EQS for nickel | mechanism of toxicity of REE on the downstream of Sunny Corner mine Adam Peters, wca, United Kingdom model organism Daphnia magna | Kahina (NSW): a meta-analysis approach | Armin Mehennaoui, Laboratoire Interdisciplinaire Kavehei, Macquarie University, Australia 3.20P.8 | Validation of Bio-met des Environnements Continentaux for the site-specific bioavailability 3.20P.23 | Occurrence of mineral elements (LIEC) UMR 7360 CNRS, Luxembourg normalisation of the EQS for copper | and heavy metals in bee pollen from Adam Peters, wca, United Kingdom 3.20P.16 | Background values of Greece | Effrosyni Zafeiraki, Benaki selected metals in the sediments of the Phytopathological Institute, Greece 3.20P.9 | Sources and time trends of copper lagoon of Venice | Elena Semenzin, emissions to water as reported in the 3.20P.24 | Derivation of metal(loid) University Cà Foscari Venice, Italy E-PRTR | Adam Peters, wca, United Kingdom Effective Residues in freshwater 3.20P.17 | Soil-plant transfer of macroinvertebrates from a mining river 3.20P.10 | Influence of Spiking on critical high-tech metals: Extraction basin in North Spain | Iñigo Ocio, University Spatial Distribution and Fractionation potential by plants | Till Fehlauer, of the Basque country (UPV/EHU), Spain of Lead (Pb) in Crude Oil Spill Soil Aix Marseille University, France | Stella Olubodun, University of 3.20P.25 | Ecotoxicological study of Benin, Benin City, Nigeria, Nigeria 3.20P.18 | Impact of historical land metallic pollution along the Tunisian use and gardening practices on metal coast : Focus on two molluscan models 3.20P.11 | In situ and ex situ approaches concentrations and bioaccessibility (Solen marginatus, Patella caerulea) | to assess bioavailability of metal(loid) in garden soils in Kelowna and Zaidi Mariem, Le Mans University, France s to land snails | Maxime Louzon, West Kelowna, BC | Matt Dodd, Department of Chrono-Environnement, 3.20P.26 | Distribution of S, Ca, K and Royal Roads University, Canada UMR UFC/CNRS 6249 University of Fe in the lichen Punctelia hypoleucites Bourgogne Franche-Comté, France 3.20P.19 | Assessing toxicity of metal transplanted to Bajo de la Alumbrera contaminated soil from shooting mine, Catamarca (Argentina) | 3.20P.12 | Photosynthetic activity as range | Gintare Sujetoviene, Vytautas Martha Susana Cañas, Universidad a proxy for algal growth inhibition: Magnus University, Lithuania Nacional de Catamarca, Argentina relevance for the ecotoxicity assessment of the poorly soluble Cr(III) 3.20P.20 | Biological Response 3.20P.28 | Phytoeffects of chemical | Davide Vignati, CNRS, France of Eisenia fetida Exposed to Lead soil contamination in acute and chronic Contaminated Field Soils of the experiments | Vera Terekhova, Lomonosov 3.20P.13 | Ecotoxicity and speciation of Shooting Range | Jurate Cesynaite, Moscow State University, Russia Ni and Cr in a small ultramafic catchment Vytautas Magnus University, Lithuania | Davide Vignati, CNRS, France
3.21 – The Polar Regions: Pollutants & Environmental Change – Multiple Stressors, Ecosystem Response and Environmental Policy
Chairs: Efstathios Reppas-Chrysovitsinos, Ana Cabrerizo
Session Discussion: Monday 4 May | 15:45-16:30 UTC
Platform Poster 3.21P.5 | Long-term effects of thin layer capping in the Grenland fjords, 3.21.1 | How does Climate Change Affect 3.21P.1 | Assessing the bioaccumulation Norway: Reduced uptake of dioxins Contaminants in the Arctic? First Results of organic contaminants along an in passive samplers and sediment- from a new AMAP Assessment | Katrin Arctic marine food web using an dwelling organisms | Morten Thorne Vorkamp, Aarhus University, Denmark ecosystem modeling tool | Efstathios Schaanning, NIVA – Norwegian Reppas – Chrysovitsinos, Lancaster 3.21.2 | Warmer climate and Institute for Water Research, Norway University, United Kingdom increasing productivity affect mercury 3.21P.6 | Long-term effects of thin- biomagnification in subarctic lake food 3.21P.2 | Modelling polar bear layer capping in the Grenland fjords, webs | Natalia Kozak, Inland Norway subpopulation decline due to persistent Norway: Effects on benthic communities University of Applied Sciences, Norway organic pollutants | Renske Hoondert, | Morten Schaanning, Norwegian Radboud University Nijmegen, Netherlands 3.21.3 | Deposition of polychlorinated Institute for Water Research, Norway biphenyls to ice cores at opposite polar 3.21P. 3 | Temporal trends of legacy 3.21P.7 | Studies of distribution of sites: Holtedahlfonna, Svalbard and POPs and perfluoroalkyl substances marine microplastics in the Russian Site M, Antarctica. | Mark Hermanson, in landlocked char from High Arctic Arctic Seas during the RV “Academic Hermanson & Associates LLC, United States Lakes | Ana Cabrerizo, Environment Mstislav Keldysh” cruises in 2018 and and Climate Change Canada, Canada 3.21.4 | Seasonal kinetics POPs in 2019 | Evgeniy Yakushev, Norwegian Antarctic pelagic marine waters and 3.21P.4 | Comparison of trends of Institute for Water Research, Norway consequences for uptake in benthic perfluoroalkyl substances (PFASs) in ringed 3.21P.8 | Chemical identification of organisms | Nico van den Brink, seals and in Ocean waters across the microplastics ingested by Red Phalaropes Wageningen University, Netherlands Canadian Arctic | Derek Muir, Environment using Fourier Transform Infrared (FTIR) and Climate Change Canada, Canada spectrometry and evaluation of exposure to associated contaminants | Eloïse Teboul, CPE Lyon/Queens University, Canada 68 scicon.setac.org 3.22 – Tire Wear and Microrubber Particles – From Problems to Solutions
Chairs: Farhan Khan, Pieter Jan Kole
Session Discussion: Tuesday 5 May | 13:00-13:45 UTC
Platform 3.22.5 | Comparison of chemical 3.22P.5 | Analyses of tire and road wear characteristics and biological effects particles (TRWP) in environmental road 3.22.1 | Towards a global quantification of microrubber particle and leachate dust samples with an automated SEM/EDX of TRWP Fate & Transport in the exposures from a pristine and road- and single particle classification system terrestrial and freshwater environment worn tire to Hyalella azteca | Louise | Ida Järlskog, Swedish National Road and | Jos van Gils, DELTARES, Netherlands Halle, Roskilde University, Denmark Transport Research Institute (VTI), Sweden 3.22.2 | Quantification and 3.22P.6 | Acute and chronic effects characterization of tire and road wear Poster of tire particles and microfibers on particles in size-fractionated samples from 3.22P.1 | Modelling of the distribution Daphnia magna | Theresa Schell, road environments | Philipp Kloeckner, and fate of tyre and road wear particles IMDEA Water Institute, Spain Helmholtz Centre for Environmental by the combination of a novel GIS and Research GmbH – UFZ, Germany probabilistic model approach | Nils 3.22P.7 | Effects of tire rubber and polystyrene microplastics in the 3.22.3 | Analysis of tire wear particles in Thonemann, Fraunhofer UMSICHT, Germany gene expression of Chironomus soil samples from roadside using TED- 3.22P. 3 | Chemical and bioanalytical riparius | Victor Carrasco Navarro, GC-MS | Axel Müller, Bundesanstalt für characterization of polycyclic aromatic University of Eastern Finland, Finland Materialforschung und – prüfung, Germany compounds (PACs) in tire granulates 3.22P.8 | Crumb rubber toxicity 3.22.4 | The Effects of Tire Rubber Particles | Ulrika Eriksson, MTM Research in coastal marine systems | Andy and Their Leachates on the Baltic Clam Centre, Orebro University, Sweden Booth, SINTEF Ocean, Norway (Limecola balthica) | Pinja Näkki, Finnish 3.22P.4 | Processes for Transport Environment Institute SYKE, Finland of Tyre and Road Wear Microplastic Particles, Metals and Polycyclic Aromatic Hydrocarbons in Road Runoff – Characterisations and a Sorption and Desorption Laboratory Study | Ann-Margret Strömvall, Chalmers University of Technology, Sweden
3.23 – Trace Metal Biogeochemistry and Fate in Ecosystems
Moderators: Karel De Schamphelaere, Erik E.T. Smolders
Session Discussion: Monday 4 May | 15:45-16:30 UTC
Platform 3.23P.2 | Modeling Nickel Leaching from Abandoned Mine Tailing Deposits in 3.23.1 | Effects of metal mixture Jossingfjord | Evgeniy Yakushev, Norwegian and temperature stress on metal Institute for Water Research, Norway accumulation and ionoregulation in Cyprinus carpio. | Giovanni Castaldo, 3.23P. 3 | Sources of geogenic arsenic University of Antwerp, Belgium in surface water, a case study from the Spessart ranges, Germany | Thomas 3.23.2 | Metal bioaccumulation in Schiedek, Applied Geosciences, Germany macroinvertebrates: linking body burdens to the chemical and biological quality of 3.23P.4 | A comparison of uranium water bodies | Bart Slootmaekers, Systemic exposure route toxicokinetics and Physiological and Ecotoxicological Research toxicodynamics in the freshwater (SPHERE), University of Antwerp, Belgium crustacean Daphnia magna | Shane Scheibener, Norwegian University 3.23.3 | Evaluating the transport and of Life Sciences (NMBU), Norway fate of metal-bearing tailings dust into surface water | Carrie Rickwood, 3.23P.5 | Boron and Strontium isotope Natural Resources Canada, Canada ratio analysis in freshwater samples of the German Rhine River as a tracer of 3.23.4 | Plant and microbiota- anthropogenic contamination | Ole Klein, dependent effects on arsenic behaviour Helmholtz-Zentrum Geesthacht, Germany in the soil-plant system | Hang Guan, University of Bern, Switzerland 3.23P.6 | Rapid Loss of Copper from the Water Column: A Comparison Poster with PCBs | William Adams, Red 3.23P.1 | Bioaccumulation of Arsenic and Cap Consulting, United States Heavy Metals in the White Muscle of Fish 3.23P.7 | Physiological performances of from Pools in the Upper uMzingwane common carp (Cyrpinus carpio) are more Catchment Area Associated with Artisanal impacted by tertiary Cu/Cd/Zn metal Small-scale Gold Mining in Zimbabwe mixture at high temperature | Marion | Donald Tapfuma, National University Pillet, La Rochelle Université, France of Science and Technology, Zimbabwe
SETAC Europe 30th Annual Meeting - SETAC SciCon 69 3.24 – Water Quality under Pressure – Understanding Fate and Effects of Organic Pollutants in Rivers by Integrating Field, Laboratory and Modeling Approach
Chairs: Christiane Zarfl, Beate Escher
Session Discussion: Monday 4 May | 13:00-13:45 UTC
Platform 3.24.5 | Aquatic system pollution: A 3.24P.4 | Benthic organisms affect the long way to reach water sustainability degradation of trace organic compounds 3.24.1 | Measured and predicted natural in developing countries Case study during bank filtration: Effects on redox estrogens from agriculture in tributaries of Kinshasa (RD Congo) | Amandine zonation of littoral sediments | Anna Lena of Lake Baldegg in Switzerland | Daniela Laffite, University of Geneva, Switzerland Kronsbein, Leibniz Institute of Freshwater Rechsteiner, Agroscope, Switzerland Ecology and Inland Fisheries, Germany 3.24.6 | Monitoring and modelling 3.24.2 | Enrichment and attenuation antibiotic resistance in a Southeast 3.24P.5 | Evaluation of a global multiscale of organic contaminants in an Asian river catchment | Amelie Ott, multimedia fate model framework applied urban creek during a rainfall event Newcastle University, United Kingdom to home and personal care products | Boluwatife Awonaike, University in Europe and North America | John of Toronto, Scarborough, Canada Poster Kilgallon, Unilever, United Kingdom 3.24.3 | Assessing the mixture effects 3.24P.1 | Agricultural practices and 3.24P.6 | Fate and effects of agricultural in in vitro bioassays of chemicals fishpond management, a comprehensive and urban organic pollutants in a small occurring in small agricultural streams inventory of phytopharmaceuticals river catchment | Christiane Zarfl, during rain events | Beate Escher, fluxes from the watershed to University of Tuebingen, Germany Helmholtz Centre for Environmental downstream rivers. | François le Research GmbH – UFZ, Germany Cor, Universite de Lorraine, France 3.24P.8 | Dynamics of mixture effects and causative chemicals during 3.24.4 | Assessing benthic bioaccumulation 3.24P.2 | Spatial and Temporal rain events in rivers in agricultural of polychlorinated dioxins/furans (PCDD/ Variability of Metformin Transformation and urban areas | Christiane Zarfl, Fs) and polychlorinated biphenyls (PCBs) in in a Flume Study | Malte Posselt, University of Tuebingen, Germany the lower Passaic River (NJ, USA) based on Stockholm University, Sweden in situ passive sampling | Rainer Lohmann, 3.24P.9 | Landscape level exposure University of Rhode Island, United States assessment of pesticide concentration at drinking water abstraction locations – the road towards an EU-wide tiered approach | Bernhard Gottesbueren, BASF SE, Germany
3.25 – Non-Extractable Residue (NER) in Regulatory Testing of Chemicals
Chairs: Karolina Nowak, Boris Meisterjahn, Markus Telscher
Session Discussion: Tuesday 5 May | 17:00 – 17:30 UTC
Poster Corner Poster 3.25P. 3 | Characterization of NER and comparison with bioavailable 3.25PC.1 | Strategy to elucidate if NER are 3.25P.1 | Implications of application fraction in aerobic soil degradation of a hidden hazard or a safe sink of an active solution on NER formation and substance 14C-Phenanthrene | Boris Meisterjahn, ingredient in soil | Eduard Hellpointner, degradation in soil | Dennis Eckelmann, Fraunhofer IME – Institute for Molecular Bayer AG, Crop Science Division, Germany Bayer AG Crop Science Division, Germany Biology and Applied Ecology, Germany 3.25P.2 | Remobilization of non-extractable 3.25P.4 | Comparison of EPA and residues of 14C-labelled ionic compounds ECHA guidance on characterization in soil | Gina Bode, RWTH-Aachen, Germany of non-extractable residues (NER) in degradation assessment | Aleksandra Dean, Smithers Viscient, United States
3.26 – Semi – and Non-volatile Organic Compounds in Indoor Dust and Air: Early Warning Signals for the Outdoor Environment and Indicators of Indoor Environmental Quality
Chairs: Lisa Melymuk, Cynthia de Wit
Poster 3.26P. 3 | In vitro assessment of cytotoxicity and receptor activity of 3.26P.1 | Influence of insulation flame retardants and phthalates| Jacob materials and position on human indoor Mensah-Attipoe, Swedish University of exposure to SVOCs | Olivier Jolliet, Agricultural Sciences (SLU), Sweden University of Michigan, United States
3.26P.2 | Greenhouse gases and volatile organic compounds from degrading plastics | Georgia Beel, Centre for Ecology and Hydrology, United Kingdom
70 twitter.com/SETAC_World #SETACSciCon 3.27 – Chemicals in Short – and Medium-lifespan Products: Opportunities and Challenges to a Circular Economy
Chairs: Zhanyun Wang, Miriam L. Diamond, Helene Wiesinger
Poster 3.27P.2 | Establishing a comprehensive database of chemical additives used 3.27P.1 | Food packaging in the in plastics | Helene Wiesinger, circular economy: Identification of ETH Zurich, Switzerland hazardous chemicals and human exposure | Jane Muncke, Food Packaging Forum Foundation, Switzerland
Track 4: Ecological Risk Assessment and Human Health Risk Assessment of Chemicals, Mixtures and Stressors and Risk Mitigation Strategies
4.01 – Assessment and Management of Wastewater Effluents
Chairs: Mathijs G.D. Smit, Markus Hjort
Session Discussion: Monday 4 May | 13:45-14:30 UTC
Platform 4.01P.4 | Whole effluent toxicity testing: 4.01P.11 | Characterisation of dental Are there alternative approaches? | wastewaters associated with the use 4.01.1 | Assessing Risk to Sewage Teresa Norberg-King, U.S. Environmental of mercury-free materials | Hannah Treatment Plants from Upstream Chemical Protection Agency, United States Binner, University College Cork, Ireland Spills: A Combined Screening/Modelling Management Approach | John Hader, 4.01P.5 | On-line biosurveillance of 4.01P.12 | Toxicological biomarkers Stockholm University, ACES, Sweden wastewater discharges by analysing the on Eisenia andrei exposed to behaviour fo three invertebrates species effluent-contaminated soil| Barbara 4.01.3 | The use of bioassays to : feedback in an urban context and on its Clasen, Universidade Estadual evaluate the efficiency of a reactor relevance in different major industrial do Rio Grande do Sul, Brazil treating wastewater containing sectors | Didier Neuzeret, ViewPoint, France pharmaceutical compounds and 4.01P.13 | Assessing a polluted river LAS surfactant | Aline Bernegossi, 4.01P.6 | Mitochondrial toxicity of environment by the study of the University of Sao Paulo – USP, Brazil chemical mixtures: a tool for whole biological and physiological responses effluent testing| João Barbosa, Ghent in the gastropod Lymnaea stagnalis Poster University Laboratory of Environmental | Imene Benali, University of Sciences 4.01P.1 | Are micropollutant concentrations Toxicology and Aquatic Ecology, Belgium and Technology of Oran, Algeria driving biodegradation in activated sludge 4.01P.7 | Endocrine eûects of an advanced 4.01P.14 | Pharmaceutical and personal treatment? | Tamara Joanna Helena Maria wastewater treatment plant using eûect- care product (PPCP) profiling in a Bergen, Radboud University, Netherlands based methods in situ and in vitro | Sophie South African urban surface water 4.01P.2 | Photocatalytic atrazine Oster, Institute for Environmental Sciences, setting: Using a multi-faceted approach degradation with the nanocomposite University of Landau, Germany, Germany towards investigating emerging health challenges | Edward Archer, aerogel sPS/N-TiO2 under UV and 4.01P.9 | Determination of 18 opioid University of Stellenbosch, South Africa visible light irradiation and toxicity compounds in urban wastewater evaluation of the process. | Wanda (Valencia, Spain) by HPLC-MS/MS | Rodrigo 4.01P.15 | Chemicals of emerging Navarra, University of Salerno, Italy Alvarez Ruiz, Centro de Investigación concern in the urban environment – a 4.01P. 3 | Pharmaceuticals: studies on sobre Desertificación (CIDE), Spain catchment perspective | Kathryn Proctor, ERM, United Kingdom removal efficiency in waste treatment 4.01P.10 | Low-Cost and Rapid stations and toxicity tests considering Sensors for Profiling Sewage for Public different formulations| Suzete Caminada, Health Assessment | Zhugen Yang, Faculdade Saúde Pública – USP, Brazil Cranfield University, United Kingdom
4.02 – Assessment of Chemical Mixtures and Multiple Stressors: From Additivity and Synergy to Policy Options
Chairs: Thomas Backhaus, Mirco Bundschuh
Session Discussion: Tuesday 5 May | 13:45-14:30 UTC
Platform 4.02.4 | Invertebrates at risk in Poster agriculturally influenced Swiss streams 4.02.1 | Field species sensitivity 4.02P.1 | Quantifying synergistic | Miriam Langer, Oekotoxzentrum distributions of complex mixtures can be interactions between pathogens Eawag-EPFL, Switzerland derived, elucidate taxon-specific impact and chemicals on mortality in thresholds and provide latitude to improve 4.02.5 | Impacts of pollution, global invertebrates | Nina Cedergreen, polices | Leo Posthuma, RIVM, Netherlands warming & an invasive predator on University of Copenhagen, Denmark the survivorship and reproduction 4.02.2 | Ten years of mixing cocktails: 4.02P.2 | Exploring synergistic biocide of a model gastropod, Lymnaea a systematic review and quantitative mixtures: Concentration dependent stagnalis | Emily Moore, University of re-appraisal of mixture interactions synergy for high efficacy at target the West of Scotland, United Kingdom | Olwenn Martin, Brunel University sites with low environmental impacts London, United Kingdom | Anton Sandblom, University of Gothenburg, Sweden, Sweden facebook.com/setacworld #SETACSciCon 71 4.02P.3 | Can organophosphates 4.02P.6 | Physiological responses to 4.02P.10 | Characterisation of cumulative and carbamates cause synergisms fluctuating pCO2/pH drive opposing risk of contaminants to organisms by inhibiting esterases responsible interactions with copper toxicity exposed to stormwater in Oslo, Norway for biotransformation of other | Alice Wilson McNeal, University | Anders Ruus, NIVA, Norway chemicals? | Nina Cedergreen, of Exeter, United Kingdom 4.02P.11 | Characterisation of University of Copenhagen, Denmark 4.02P.7 | Multiple-stressor effects of cumulative risk of pollutants to marine 4.02P.4 | Using the concept of chemical climate change and copper to temperature organisms in Sørfjorden, Norway | activity to assess mixture toxicity acclimatised daphnia | Tom Sinclair, Karina Petersen, NIVA – Norwegian in Daphnia magna | Sabrina Roth, University of Sheffield, United Kingdom Institute for Water Research, Norway Stockholm University, ACES, Sweden 4.02P.8 | Effect of combined exposure 4.02P.12 | Rural emission to Kaldvellfjorden 4.02P.5 | Predicting mixture toxicity effects to microplastics and organophosphates in Norway and characterization of over time with toxicokinetic-toxicodynamic on the immune system of terrestrial cumulative risk of metals | Knut models (GUTS): assumptions, experimental isopod Porcellio scaber | Andraž Erik Tollefsen, Norwegian Institute testing & predictive power | Sylvain Dolar, Biotechnical faculty, Slovenia for Water Research (NIVA), Norway Bart, University of York, United Kingdom 4.02P.9 | Pesticides in the Sado River 4.02P.13 | Derogation considerations estuary (Southwest Iberian Peninsula, in the context of guidance for Portugal) – What levels and who is at risk? endocrine disruptor (ED) assessment | | Maria Rocha, ICBAS – U.PORTO, Portugal Steven Andrews, Compliance Services International, United Kingdom
4.03 – Bioaccumulation and Biotransformation: Advances, Challenges, and State of the Science for Chemicals Regulation
Chairs: Jon A. Arnot, Michelle Rau Embry, Ester Papa, Stefan Kimmel
Session Discussion: Wednesday 6 May | 15:00 – 15:45 UTC
Platform 4.03P.2 | Biomagnification of ionic 4.03P.10 | QSAR approach for the organic compounds (IOCs) in rainbow analysis and prediction of in vitro intrinsic 4.03.1 | A Novel Multi-Species trout (Oncorhynchus mykiss) | Carolin hepatic clearance in rat and mouse | Physiologically-Based Toxicokinetic Müller, Fraunhofer Institute for Molecular Ester Papa, University of Insubria, Italy Modelling Approach in Support of Biology and Applied Ecology IME, Germany Chemicals Risk Assessment | Annika 4.03P.11 | Refining bioaccumulation Mangold-Döring, Wageningen 4.03P.3 | Assessing Bioaccumulation of screening of neutral hydrophobic University & Research, Germany Cyclosiloxanes using the Bioaccumulation organic chemicals in air-breathing Assessment Tool (BAT) | Katherine Coady, organisms using in vitro liver S9 4.03.2 | Is additional complexity in models The Dow Chemical Company, United States biotransformation assays | Frank for BCF prediction worth the efforts? Gobas, Simon Fraser University, Canada | Sophia Krause, Helmholtz centre for 4.03P.4 | Trace metal bioaccumulation environmental research – UFZ, Germany in freshwater macroinvertebrates: 4.03P.12 | Determination of In Vitro a comparative approach of lab and Intrinsic Clearance – a Discussion on 4.03.3 | QSAR prediction of in vitro field studies| Irene O’Callaghan, Evaluation Criteria | Julita Stadnicka- biotransformation in human and rodents University College Cork, Ireland Michalak, Eawag, Switzerland | Ester Papa, University of Insubria, Italy 4.03P.5 | The application of artificial 4.03P.13 | Biotransformation and blood 4.03.4 | Food web on ice: A pragmatic mussels in conjunction with transplanted flow: Does the well-stirred liver model approach to investigate the trophic bivalves to assess metal exposure in underestimate in vivo clearance? | magnification of chemicals of a platinum mining area. | Marelize Sophia Krause, Helmholtz centre for concern | Verena Kosfeld, Fraunhofer Labuschagne, North-West University – environmental research – UFZ, Germany IME – Institute for Molecular Biology Potchefstroom Campus, South Africa and Applied Ecology, Germany 4.03P.14 | Quantifying the Biomagnification 4.03P.6 | Copper and zinc plant Potential of Polychlorinated Biphenyls 4.03.5 | A tiered testing strategy for bioaccumulation in Crambe abyssinica in Arctic Wolf and Domestic Dog by rapid estimation of bioaccumulation fertilised with liquid swine manure and Equilibrium Sampling | Yuhao Chen, via modelling and in vitro data | poultry litter | Natalia Pereira, Universidade University of Toronto, Scarborough, Canada Kristin Schirmer, Eawag, Switzerland Estadual do Oeste do Paraná, Brazil 4.03.6 | Lipid Normalizing the 4.03P.7 | Fish Biotransformation in Biomagnification Factor| Frank Gobas, Bioaccumulation: Output from a Simon Fraser University, Canada HESI Technical Workshop | Michelle Poster Embry, Health and Environmental Sciences Institute (HESI), United States 4.03P.1 | Bioaccumulation of PFOS and GenX in the benthic freshwater 4.03P.8 | Toxicokinetics of amphipod Hyalella azteca | Carolin silver nanoparticles in a stream Müller, Fraunhofer Institute for Molecular mesocosm | Susana Loureiro, Biology and Applied Ecology IME, Germany Universidade de Aveiro, Portugal 4.03P.9 | QSAR modelling and prediction of organic chemical half-lives in aquatic and terrestrial organisms | Ester Papa, University of Insubria, Italy
72 scicon.setac.org 4.04 – Bioremediation and Phytoremediation of Contaminated Ecosystems
Chairs: Anna Barra Caracciolo, Vera Terekhova
Session Discussion: Tuesday 5 May | 13:00-13:45 UTC
Platform 4.04P.2 | Bioaugmentation of a consortium 4.04P.9 | Chemoeffectors influence isolate for the degradation of Sodium on the motile behavior and dispersion 4.04.1 | Green roofs in Milan metropolitan Lauryl Ether Sulphate in soil | Anna Barra of pollutant-degrading bacteria in area: runoff water quality and quantity| Caracciolo, National Research Council, Italy membrane bioreactors with restricted Laura Marziali, IRSA-CNR (Brugherio), Italy porosities. | José Carlos Castilla 4.04P. 3 | Terrestrial Microbial fuel 4.04.2 | Phytostabilization of heavy Alcántara, IRNAS CSIC, Spain cells for degrading persistent organic metal contaminated soils in urban pollutants | Anna Barra Caracciolo, 4.04P.10 | Use of a standardized and rural communities in Wisconsin, National Research Council, Italy desorption extraction method to USA | Kristin McAdow, University of study the effect of enhanced phase Wisconsin, Madison, United States 4.04P.4 | Waste Water Treatment exchange in bioremediation | José Julio Plants? – Phytoremediation by 4.04.3 | Managing water evaporation Ortega-Calvo, Instituto de Recursos submerged macrophytes | Alina Nowak, and trace element accumulation using Naturales y Agrobiologia, Spain Institute for Environmental Research tree species at a red gypsum landfill (RWTH Aachen University), Germany 4.04P.11 | Ecological modelling in support | Abdoulaye Mahamat Malabad, of soil remediation in metal polluted nature Laboratoire Chrono-environnement, France 4.04P.5 | Estimation of key micropollutants areas | Karel Viaene, ARCHE, Belgium present in different wastewater settings 4.04.4 | Leverage Effect Of The Relationship across New Delhi and development 4.04P.12 | Bioaccumulation of α-, «Belowground-Aboveground» For The of treatment system for their β-, and δ-HCH isomers by Alnus Rehabilitation Of Contaminated Marginal mitigation | Rishabh Shukla, Indian glutinosa | Aday Amirbekov, Technical Lands | Olivier Hullot, INRAE, France Institute of Technology Delhi, India University of Liberec, Czech Republic 4.04.5 | Assessment of compost 4.04P.6 | Molecular biology tools 4.04P.13 | Differential transport of BTEX and biochar in improving plant- (mbts) coupled with compound-specific in groundwater – Experimental and assisted bioremediation of a multi- isotope analysis (csia) to define a computational data to predict its removal contaminated area | Valeria Ancona, reclamation plan, based on enhanced by bioremediation | Maria Vila, Faculty of Italian National Research Council, Italy bioremediation, for a contaminated Engineering – University of Porto, Portugal 4.04.6 | Application of in situ aquifer | Ilaria Pietrini, ENI S.p.A., Italy 4.04P.15 | Integrated biological biorremediation strategies in soils 4.04P.7 | Bacterial degradation of approaches for the remediation and amended with sewage sludges | organophosphorus and organochlorine the requalification of a hydrocarbon Erik Urionabarrenetxea, Estación pesticides in contaminated agricultural polluted urban area | Paolo Angelis, Marina De Plentzia. UPV/EHU, Spain soils of the Colombian Caribbean DIBAF – Università Studi Tuscia, Italy 4.04.7 | Poster spotlight: | Beatriz Jaramillo-Colorado, 4.04P.16 | Rhizobacteria inoculants Hexachlorocyclohexane bioaccumulation University of Cartagena, Colombia for phytoremediation of oil-sludge- in Alnus glutinosa – height, age, season 4.04P.8 | Pyrene co-metabolism in soil by contaminated soil: from lab formulation and isomer specificity| Pavel Hrabák, Pseudomonas putida G7 and metabolite to pilot production | Kamila Kydralieva, Technical University of Liberec, Czech Republic uptake and distribution by sunflower Moscow Aviation Institute, Russia crops. | Carmen Fernández-López, Poster 4.04P.17 | Differences in the sensitivity University Center of Defence (CUD), Spanish of plant species in standard phytotests 4.04P.1 | Hexachlorocyclohexane Air Force Academy, MDE-UPCT, Spain bioaccumulation in Alnus glutinosa | Anastasia Paramonova, Lomonosov – height, age, season and isomer Moscow State University, Russia specificity| Pavel Hrabák, Technical University of Liberec, Czech Republic
4.05 – Complex Mixtures in User Products and the Environment: Chemical and Toxicity Profiling, and Modelling to Identify Risk Drivers and Estimate Footprints
Chairs: Marja Lamoree, Leo Posthuma
Session Discussion: Tuesday 5 May | 13:00-13:45 UTC
Platform 4.05.3 | Advancements in effect-based 4.05P.2 | Identification of chemical-gene- surface water quality assessment | Milo de associations applying network inference 4.05.1 | Chemical fingerprints of WWTP Baat, University of Amsterdam, Netherlands and association rule mining | Stefan effluents – performing a large-scale Kraemer, Helmholtz Centre for Environmental target analysis for LVSPE samples of Poster Research – UFZ GmbH, Germany 52 European WWTPs | Saskia Finckh, Helmholtz Center for Environmental 4.05P.1 | Conceptual models for the 4.05P. 3 | Development of national land Research – UFZ GmbH, Germany identification and prioritisation of use regression models for atmospheric chemical mixtures in environmental concentrations of PAHs, PCBs, and 4.05.2 | High levels of brominated dioxin- risk assessment for bees and other DDT across the Czech Republic | Lisa like activity discovered in plastic toys using terrestrial invertebrates | Jose V. Tarazona, Melymuk, Masaryk University, Faculty a combination of in vitro Aryl hydrocarbon European Food Safety Authority, Italy of Science, RECETOX, Czech Republic receptor-based reporter gene assays and GC-MS analysis | Clémence Budin, Biodetection Systems BV, Netherlands
SETAC Europe 30th Annual Meeting - SETAC SciCon 73 4.05P.5 | Chemical safety of food 4.05P.6 | Bridging the gap between 4.05P.9 | S. aurata primary hepatocytes packaging: (HPTLC-)bioassays for detection chemical fingerprinting and site- as a tool to assess PAH mixtures and identification of toxic non-intentionally specific hazard and risk assessment| cytotoxic effects| Marta Martins, added substances | Alan Bergmann, Knut Erik Tollefsen, NIVA – Norwegian Faculty of Sciences andTechnology, Oekotoxzentrum Eawag-EPFL, Switzerland Institute for Water Research, Norway Universidade Nova de Lisboa, Portugal
4.05P.8 | Environmental risks posed by PAHs and PCBs in seawater from Northwest Iberian Peninsula (Portugal) | Maria Rocha, ICBAS – U.PORTO, Portugal
4.06 – Dealing with and Communicating Uncertainties in Environmental Risk Assessment While Ensuring Trust Among Stakeholders: Mission Impossible?
Chairs: Sandrine Charles, Annette Aldrich, Thomas Preuss, Marion Junghans
Session Discussion: Monday 4 May | 13:45-14:30 UTC
Platform 4.06P.2 | Differences in physiology 4.06P.8 | Stereo noise: acknowledging and enzyme activity of two genetically uncertainties and generalizing both 4.06.1 | Identifying and Characterising distinct Daphnia magna laboratory sides of environmental risk assessment Uncertainties to Improve In Silico lineages related phylogeny | Rikke | Raoul Wolf, NIVA – Norwegian Models for Toxicity Prediction | Poulsen, Aarhus University, Denmark Institute for Water Research, Norway Mark Cronin, Liverpool John Moores University, United Kingdom 4.06P. 3 | From linear to circular – 4.06P.9 | Take two – Uncertainties with concept for a simplified and dynamic ECx calculations are reduced by assessing 4.06.2 | Modelling can help understand risk assessment for pesticides | Annette confidence limits as well as performing and apprehend uncertainties | Benoit Aldrich, Agroscope, Switzerland the “good old” visual inspection of data Goussen, IBACON GmbH, Germany | Thomas Schmidt, IES Ltd, Switzerland 4.06P.4 | Is a blog helpful for 4.06.3 | Bayesian Evidence Synthesis in communicating risk assessment’s 4.06P.10 | Towards a More Reliable and scientific assessments of risk| Ullrika subtleties to the administration and Appropriate ECx Endpoint Derivation Sahlin, Lund University, Sweden to the society ? | Nathalie Chèvre, Scheme in Environmental Risk 4.06.4 | Identifying uncertainty trade- University of Lausanne, Switzerland Assessments within Regulatory Context offs of ecological risk assessment | Zhenglei Gao, Bayer Ag, Germany 4.06P.5 | NOEC verses EC10: An impact objectives to guide model complexity analysis based on the decision scheme 4.06P.11 | Towards a non-toxic | Sandy Raimondo, U.S. Environmental presented in EFSA (2019) Pesticide environment: an analysis of current EU Protection Agency, United States Peer Review Meeting on general chemicals legislation and recommendations Poster recurring issues in ecotoxicology | Alex for a harmonised risk assessment Blakey, Syngenta, United Kingdom framework | Joanke van Dijk, Copernicus 4.06P.1 | A Bayesian Network approach Institute of Sustainable Development, 4.06P.6 | On the influence of uncertainty for probabilistic risk assessment of Utrecht University, Netherlands pesticides: expanding the binary on SSD analyses – A case study with outcome of risk assessment | Sophie non-terrestrial target plants | Sandrine 4.06P.12 | Uncertainty in acute fish Mentzel, NIVA – Norwegian Institute Charles, University Lyon 1, France testing data – a meta analysis | Hans Plugge, Verisk 3E, United States for Water Research, Norway 4.06P.7 | Statistical framework for regulatory risk assessment of 4.06P.13 | Using historical control data to field studies for soil organisms| contextualise the variability in ecotoxicity Harry Byers, ANSES, France studies | Amy Brooks, Cambridge Environmental Assessments, United Kingdom
4.07 – Effect Modelling for Regulatory Environmental Risk Assessment: Current Applications and Future Directions
Chairs: Andreas Focks, Alpar Barsi, Pernille Thorbek
Session Discussion: Monday 4 May | 13:00-13:45 UTC
Platform 4.07.4 | Testing DEBtox model 4.07.7 | Calibrating and Validating the predictions of effects of time BEEHAVE model to field data| Jack 4.07.1 | On the model choice for variable exposure to a fungicide on Rumkee, Syngenta, United Kingdom the prediction of chronic lethality | reproduction and survival of Daphnia Andre Gergs, Bayer Ag, Germany 4.07.8 | On the use of population magna | Andreas Focks, Wageningen models in ecological risk assessment 4.07.2 | Modelling sublethal effects Environmental Research, Netherlands | Emily McVey, Ctgb, Netherlands of chemicals: DEB model options 4.07.5 | Assessing effects of salmon lice and challenges | Neil Sherborne, 4.07.9 | Aquatic risk assessment treatment (H2O2) on shrimp populations: Syngenta, United Kingdom at catchment scale – case study on combined exposure, effect and population insecticide exposure concentrations 4.07.3 | Revisiting simplified modelling | Jannicke Moe, Norwegian and effects on macroinvertebrates DEBtox models for regulatory risk Institute for Water Research (NIVA), Norway | Wim Beltman, Wageningen assessment of pesticides | Tjalling 4.07.6 | Unexpected recovery and non- Environmental Research, Netherlands Jager, DEBtox Research, Netherlands effects predicted with a mixture toxicity implementation in a population model | Karel Vlaeminck, Arche consulting, Belgium 74 twitter.com/SETAC_World #SETACSciCon Poster 4.07P.7 | Impact of different calibration 4.07P.12 | Pop-GUIDE: Population methods for forward prediction modeling Guidance, Use, 4.07P.1 | Exploring GUTS as a tool for and uncertainty propagation in Interpretation, and Development marine environmental risk assessment: environmental risk assessment | Benoit for Ecological Risk Assessment | a case study on metal toxicity to Goussen, IBACON GmbH, Germany Sandy Raimondo, U.S. Environmental marine copepod Tisbe battagliai | Protection Agency, United States Raoul Wolf, NIVA – Norwegian Institute 4.07P.8 | Evaluating model performance for Water Research, Norway criteria for primary producer TKTD models 4.07P.13 | Towards a coupled exposure | Johannes Witt, Bayer AG, Germany and effect model for earthworms| 4.07P.2 | How to reduce computation Andre Gergs, Bayer Ag, Germany effort for GUTS modelling while retaining 4.07P.9 | Objectives and results of the output reliability for risk assessment Lemna Working Group in the SETAC 4.07P.15 | Aquatic risk assessment at use? | Tanja Klopper, Carl von Ossietzky Effect Modelling Interest Group| Udo landscape scale – conceptual development Universität Oldenburg, Germany Hommen, Fraunhofer IME, Germany and risk communication | Louise Wipfler, Alterra Wageningen UR, Netherlands 4.07P.3 | Case study for DEBtox use in 4.07P.10 | Pesticide mixtures in soil: Environmental Risk Assessment | Benoit Simulation of time-dependent effects 4.07P.16 | SimpleBoxTreat4REACH: simple Goussen, IBACON GmbH, Germany on soil organisms | Alexandra Sybertz, and transparent method for chemical RWTH Aachen University, Institute for safety assessment under REACH | 4.07P.4 | OpenGUTS, user-friendly Environmental Research, Germany Klaas den Haan, Association of Retired software for survival modelling | Tjalling Environmental Scientists ARES, Netherlands Jager, DEBtox Research, Netherlands 4.07P.11 | Developing a DEB-IBM to Predict Population Level Effects of 4.07P.17 | Statistical Analysis of Survival/ 4.07P.5 | Hydrogen peroxide effects Ni on the Great Pond Snail, Lymnaea Mortality/Emergence Data | John Green, on Northern shrimp: dynamic stagnalis | Kristi Weighman, Ghent JohnWGreen-ecostats.com, United States modelling of mortality | Tjalling University Laboratory of Environmental Jager, DEBtox Research, Netherlands 4.07P.18 | Domain Wide Effect Toxicology and Aquatic Ecology, Belgium Modelling to Support Read-Across 4.07P.6 | Ready-to-use tools to efficiently in Hazard and Risk assessment | model effects and predict effect threshold Erik Myklebust, NIVA – Norwegian in the ERA framework | Sandrine Institute for Water Research, Norway Charles, University Lyon 1, France
4.08 – Engineered Nanomaterials: Complex from Chemistry to Multi-stressor Situations
Chairs: Moira McKee, Nadezhda Kudryasheva
Session Discussion: Thursday 7 May | 13:00-13:45 UTC
Platform 4.08P. 3 | Nanoscale zero valent iron- 4.08P.11 | Copper-doped silica induced stress response in Pseudomonas nanoparticles impair the mechano- 4.08.1 | Biological activity of fullerenol’ putida: Transcriptome changes in gene sensory based behavior of zebrafish nanoparticles. Bioluminescence expression | Cheryl Soo Yean Yeap, larvae (D. rerio) | Michael Burkard, monitoring | Nadezhda Kudryasheva, Technical University of Liberec, Czech Republic Eawag Aquatic Water Science, Switzerland Federal Research Center Krasnoyarsk Science Center of the Siberian Branch 4.08P.4 | Toxicity and bioavailability of 4.08P.12 | Transformation of zinc oxide of the Russian Academy o, Russia different forms of copper and copper nanoparticles in aquatic environment nanoparticles to the earthworm E. and its toxicity changes | Gyudong 4.08.2 | Impact of sewage sludge- fetida | David Spurgeon, Centre for Lee, Seoul National University of borne Ag and TiO2 nanoparticles on Ecology & Hydrology, United Kingdom Science and Technology, South Korea Eisenia fetida coelomocytes | Anastasia Georgantzopoulou, Norwegian Institute 4.08P.5 | Toxicity and antioxidant activity 4.08P.13 | Low concentrations of for Water Research NIVA, Norway of hydrated fullerene C-60. | Arina copper oxide nanoparticles are toxic Kicheeva, Siberian Federal University, Russia in three loamy soils | Jonas Fischer, 4.08.3 | Host-microbiota interactions University of Bremen, Germany modulate the sensitivity of zebrafish larvae 4.08P.6 | Fullerenol toxicity via to silver nanoparticle toxicity | Bregje bioluminescence monitoring. Role 4.08P.15 | Effects of graphene oxide Brinkmann, Institute of Environmental of oxygen substituents | Ekaterina alone and with sorbed PAHs on Sciences, Leiden University, Netherlands Kovel, FRC KSC SB RAS, Russia zebrafish*| Amaia Orbea, University of the Basque Country, Spain 4.08.4 | Environmental Risk Assessment 4.08P.7 | Effects of boron and vanadium of nanomaterials applied in the food and nanoparticles on Danio rerio embryos 4.08P.16 | Mixture toxicity of nanomaterials feed sector | Joris Quik, RIVM, Netherlands | Vera Maria, Biology Department and antibiotics in freshwater microcosms | of Aveiro University, Portugal Moira McKee, University of Bremen, Germany 4.08.5 | Poster spotlight: Bioactivities of polyligand Fe3O4 nanoparticles 4.08P.8 | Evaluating the toxicity 4.08P.17 | Assessing the risk of mediated by surface chemical of nanobiomaterials in different oral exposure to nanomaterials for states | Liubov Bondarenko, aquatic species | David Hernandez- vertebrates in the environment. Moscow Aviation Institute, Russia Moreno, INIA, Spain Extrapolation from EFSA human health guidance | Jose V. Tarazona, 4.08P.10 | Multiple Trophic Level Poster European Food Safety Authority, Italy Interspecies Studies on the Aquatic 4.08P.1 | Bioactivities of polyligand Ecotoxicity of Graphene Related Materials Fe3O4 nanoparticles mediated by surface in Freshwater and Marine Environments. chemical states | Liubov Bondarenko, | Maria Luisa Fernandez-Cruz, INIA Moscow Aviation Institute, Russia – National Institute for Agricultural and Food Research and Technology, Spain facebook.com/setacworld #SETACSciCon 75 4.09 – Environmental Risk Assessment of Pharmaceuticals: Connecting across Disciplines and Continents
Chairs: Gerd Maack, Jane P. Staveley
Session Discussion: Wednesday 6 May | 15:45-16:30 (Platform) & 17:00 – 17:30 (Poster corner) UTC
Platform 4.09P.9 | PERK: an interactive web- 4.09P.22 | Evaluation of the EMA trigger for based tool to model environmental risk fish BCF testing and secondary poisoning 4.09.1 | Invasive ascidians as a tool assessment | Kishore Kumar Jagadeesan, assessment: Evaluation of log D and fish for assessing the extent and effects University of Bath, United Kingdom BCF data for several pharmaceuticals | of pharmaceutical contamination Lisa Constantine, Pfizer, Inc., United States in marine environments | Noa 4.09P.10 | PrAna: an interactive web- Shenkar, Tel-Aviv University, Israel based tool to explore prescribing 4.09P.23 | Critical Environmental data in England with spatiotemporal Concentrations of Pharmaceuticals: 4.09.2 | The AMR Industry Alliance: trends | Kishore Kumar Jagadeesan, Read-Across from Human Therapeutic Where We Are, Where We Are Going and University of Bath, United Kingdom Concentrations or Mammalian Lessons Learned Along the Way | Joan Toxicology Endpoints | Alison Perkins, Tell, Merck & Co., Inc., United States 4.09P.11 | Development of initial Eli Lilly and Company, United States environmental risk assessment methods 4.09.3 | Occurrences and biological for pharmaceuticals by using Eco-QSAR 4.09P.24 | Antidepressant citalopram effects of emerging and legacy system | Akihiko Hirose, National stimulates population growth of contaminants around a marine Institute of Health Sciences, Japan the harpacticoid copepod Nitocra sewage outfall | Chris Inge Espeland, spinipes | Josef Koch, GhEnToxLab University of Stavanger, Norway 4.09P.12 | Fluoxetin hydrochloride (Ghent University), Belgium toxicity assessment using vibrio 4.09.4 | The Influence of Manure pH on fischeri bacteria| Suzete Caminada, the Degradation of Selected Antibiotic Poster Corner Faculdade Saúde Pública – USP, Brazil Compounds | John Nightingale, University 4.09PC.1 | Towards an ecologically of Leeds and Fera Science Ltd, United Kingdom 4.09P.13 | Evaluation of physical-chemical relevant Environmental Quality Standard properties of pharmaceuticals, in order to for diclofenac? | Dean Leverett, WCA- Poster identify the solid phase sortion potential Environment Ltd, United Kingdom 4.09P.1 | A risk assessment framework and toxicity of these environmental 4.09PC.2 | Investigating the Impact and for recycling of diapers and incontinence substances | Suzete Caminada, Scientific Justification Behind Changes materials, focussing on pharmaceuticals Faculdade Saúde Pública – USP, Brazil to Groundwater Risk Assessment of and pathogens. | Theo Traas, National 4.09P.14 | The impact of medicinal Human Pharmaceuticals | Samuel Institute for Public Health and the compounds on the physiology of Maynard, AstraZeneca, United Kingdom Environment (RIVM), Netherlands Daphnia magna | Katie ORourke, 4.09PC.4 | Does treatment of cats 4.09P.2 | How far does the apple Dublin City University, Ireland and dogs with pharmaceuticals pose fall from the tree? An approach for a 4.09P.15 | Oxidative stress-related effects a risk for the environment? | Caroline standardized multigenerational toxicity induced by independent and combined Moermond, RIVM, Netherlands testing with Daphnia magna | Frederik exposure to cocaine and benzoylecgonine Meyer, University Landau, Germany on the Mediterranean mussel Mytilus 4.09P. 3 | Prioritisation of environmentally galloprovincialis | Beatrice De Felice, hazardous pharmaceuticals | Università degli Studi di Milano, Italy Armin Zenker, University of Appl. Sc. 4.09P.16 | Data-Derived Predicted No Northwestern Switzerland, Switzerland Effect Concentrations for Antibiotics used 4.09P.4 | The effects of diclofenac in Human and Animal Health | Jessica on fertilisation in echinoderms and Vestel, Merck & Co., Inc., United States polychaete worms | Dean Leverett, 4.09P.17 | Investigating Selection WCA-Environment Ltd, United Kingdom for Antimicrobial Resistance by Non- 4.09P.5 | Impacts of sediment-associated Antibiotic Drugs (NADs) | April Hayes, diclofenac and citalopram to a sediment- University of Exeter, Afghanistan living amphipod: single compound 4.09P.18 | Algal and Cyanobacterial and mixture toxicity tests | Sara Toxicity of Four Antibiotics for Human Grønlund, Roskilde University, Denmark Clinical Use against Gram-Positive 4.09P.6 | Environmental risk assessment Bacteria | Ralf Arno Wess, Innovative of the anti-inflammatory diclofenac Environmental Services (IES) Ltd., Switzerland for marine organisms under ocean 4.09P.20 | Challenges in the one-size acidification scenarios| Mariana fits all approach to the Environmental Souza, Colégio Novo Tempo, Brazil Risk Assessment of pharmaceuticals | 4.09P.7 | Environmental risk assessment Erick Nfon, Smithers, United Kingdom for genetically modified live vaccines: 4.09P.21 | Science-Based Trigger for Critical issues for clinical trial and the Terrestrial Assessment of Human market authorisation applications | Joan Pharmaceuticals | Samuel Maynard, Tell, Merck & Co., Inc., United States AstraZeneca, United Kingdom 4.09P.8 | Orphenadrine biological effects under different oceanic acidification scenarios| Mariana Souza, Colégio Novo Tempo, Brazil 76 scicon.setac.org 4.10 – Environmental Risk Assessment of Polymers
Chairs: Hans Sanderson, Scott E. Belanger, Anna Magdalene Brun
Session Discussion: Tuesday 5 May | 15:00 – 15:45 UTC
Platform Poster 4.10P.5 | Probabilistic environmental risk assessment of microplastics in marine and 4.10.1 | Environmental concern 4.10P.1 | Development of an exposure terrestrial habitats | Véronique Adam, of cationic polymers: a literature assessment framework for polymeric EMPA Technology & Society Lab, Switzerland review | Anna Magdalene Brun, materials | Hattie Brunning, Aarhus University, Denmark University of York, United Kingdom 4.10P.6 | PISOX: a novel polyester family with relatively fast biodegradation | Yue 4.10.2 | Cationic polymers – aquatic 4.10P.2 | How to test algal toxicity of Wang, University of Amsterdam, Netherlands toxicity and modelling challenges | Hans polyquaterniums? | Anna Magdalene Sanderson, Aarhus University, Denmark Brun, Aarhus University, Denmark 4.10P.7 | Validation of the E-screen assay for toxicity testing of solar 4.10.3 | What Historical Assessment of 4.10P. 3 | The debate on the future of disinfected drinking water | Paloma Polymers in General and Fluoropolymers cationic polymers in REACH and on the Ozores, Dublin City University, Ireland Specifically Has Taught Us| Barbara Henry, EU market | Katarzyna Chmielinska, W.L. Gore & Associates, Inc., United States University of Copenhagen, Denmark 4.10P.8 | Aquatic Toxicity of Polyquaternium-10 to Daphnia 4.10P.4 | Additional tests to OECD 303A magna | Hope Woods, University to refine Risk Assessment for the cationic of Copenhagen, Denmark Polymer PHMB towards surface waters | Daniel Cros, Laboratoire PAREVA, France
4.11 – Fate, Effects and Risk Assessment Procedures for Chemicals in Tropical and Neotropical Regions
Chairs: Andreu Rico, Renata Guimaraes Moreira Whitton, Carlos E Tolussi
Session Discussion: Wednesday 6 May | 15:45-16:30 UTC
Platform 4.11P.4 | Evaluation of river waters in the 4.11P.11 | Interaction of cadmium development of Rhamdia quelen: biomarker (Cd) and reproductive physiology in 4.11.1 | Environmental risk assessment of approach. | Natalia Pereira, Universidade Callinectes danae in environments pesticides in tropical terrestrial ecosystems: Estadual do Oeste do Paraná, Brazil with different pollution levels| Priscila Test procedures, current status and Ortega, Universidade de Sao Paulo, Brazil future perspectives | Jörg Römbke, 4.11P.5 | Crab cells and hepatopancreas ECT Oekotoxikologie GmbH, Germany as biological model for assays in marine 4.11P.12 | Effects on gill surfaces of Poecilia ecotoxicology: applications as metal reticulata promoted by iron oxide NPs 4.11.2 | Endocrine disrupting compounds bioaccumulator and oxidative stress associated glyphosate-based herbicide and in Brazilian reservoirs are affecting gonadal quantifier| Hector Aguilar Vitorino, glyphosate pattern | João Marcos de Lima steroids of two fish species, Astyanax Universidade de Sao Paulo, Brazil Faria, Federal University of Goias, Brazil fasciatus and Hoplias malabaricus | Carlos Tolussi, Anhembi Morumbi University, Brazil 4.11P.6 | The influence of expansion of 4.11P.13 | Cell and tissue impacts of sugarcane cultivation on macrophyte- the surfactant polyoxyethylene amine 4.11.3 | The effects of aluminum associated macroinvertebrates of Salvinia (POEA) on behavior and histopathological associated with acid pH and increased auriculata | M. Paula C Yoshii, NEEA/ CHREA parameters of liver, gills and testis in guppy water temperature on the sperm quality – São Carlos Engineering School, Brazil Poecilia reticulata | João Marcos de Lima of the neotropical freshwater teleost Faria, Federal University of Goias, Brazil Astyanax altiparanae | João Paulo Silva 4.11P.7 | The effects of landscape change Pinheiro, Universidade de Sao Paulo, Brazil (natural pasture to sugarcane) to the 4.11P.14 | Non-steroidal anti-inflammatory aquatic macrophyte Salvinia auriculata drugs acting as endocrine disruptors 4.11.4 | Parhyale hawaiensis as a key | M. Paula C Yoshii, NEEA/ CHREA – São in Astyanax altiparanae (Teleostei: species for ecotoxicity evaluation in marine Carlos Engineering School, Brazil Characidae) tissue explants | Renata tropical environments | Gisela Umbuzeiro, Guimaraes Moreira Whitton, Inst. School of Technology – UNICAMP, Brazil 4.11P.8 | Environmental risk assessment Biociências, Universidade de São Paulo, Brazil of fipronil and 2,4-D during the Poster process of conversion of pasture 4.11P.15 | Diclofenac and caffeine induce 4.11P.1 | SILENT AMAZON: presence and to the sugarcane crops | Cassiana hepatic oxidative stress in Astyanax risks of anthropogenic contaminants Montagner, UNICAMP, Brazil altiparanae (Teleostei: Characidae) in acute and subchronic exposures | in the Amazon River | Andreu Rico, 4.11P.9 | Dietary intake of copper: Renata Guimaraes Moreira Whitton, Inst. IMDEA Water Institute, Spain a multi-biomarker approach in the Biociências, Universidade de São Paulo, Brazil 4.11P.2 | Sargassum contamination by neotropical carnivorous fish Hoplias arsenic and chlordecone: fate ashore malabaricus | Claudia B R Martinez, 4.11P.16 | Consideration of and in compost | Damien Devault, Universidade Estadual de Londrina, Brazil nectarivorous birds in wildlife risk assessments | Agnes Schimera, Université Paris Sud, Mayotte 4.11P.10 | Effect of aluminum at ADAMA Deutschland GmbH, Germany 4.11P. 3 | Biochemical alterations as environmental concentrations on the indicators of plasticity in Astyanax mitochondrial activity of Astyanax fasciatus (Teleostei: Characidae) females altiparanae spermatozoa. | João Paulo Silva living polluted reservoirs | Carlos Tolussi, Pinheiro, Universidade de Sao Paulo, Brazil Anhembi Morumbi University, Brazil
SETAC Europe 30th Annual Meeting - SETAC SciCon 77 4.12 – Multidisciplinary Efforts to Advance Knowledge on Environmental Risk Assessment of Chemicals for Amphibians and Reptiles
Chairs: Manuel Ortiz Santaliestra, Annette Aldrich, Isabel Lopes
Session Discussion: Tuesday 5 May | 15:45-16:30 UTC
Platform Poster 4.12P.4 | Reproductive Health of Common Toads (Bufo bufo) in Viticultural 4.12.1 | In vitro assays as predictors 4.12P.1 | Guidance for developing Landscapes | Elena Adams, Institute for gold nanorods effects in embryos amphibian population models for Environmental Sciences University of Xenopus laevis | Bruno Rafael for ecological risk assessment | of Koblenz-Landau, Germany Rabelo Costa, Department of Biology & Jill Awkerman, U.S. Environmental CESAM – University of Aveiro, Portugal Protection Agency, United States 4.12P.5 | Can polymethylmethacrylate (PMMA) nanoplastics affect Xenopus laevis 4.12.2 | Modelling the potential 4.12P.2 | Risk mitigation measures for eggs and tadpole’s development? | Isabel pesticide exposure to amphibians | terrestrial life stages of amphibians Lopes, University of Aveiro, Portugal Pernille Thorbek, BASF SE, Germany in agricultural areas | Annette Aldrich, Agroscope, Switzerland 4.12P.6 | Amphibian’s eggs jelly coat : 4.12.3 | A landscape-scale population structure, functions and implication for model for pesticide impact assessment 4.12P. 3 | Initial juvenile activity of common amphibians ecotoxicology. | Laurent for terrestrial phases of Great Crested frogs (Rana temporaria) around natal ponds Boualit, University of Lausanne, Switzerland Newts | Manuel Ortiz Santaliestra, in an agricultural landscape | Alexandra Spanish Institute for Game and Wildlife Esther, Julius Kuehn Institute, Germany Research (IREC) UCLM-CSIC-JCCM, Spain
4.13 – Real Risks in Real Soils: Linking Exposure and Effects in a Multifaceted World
Chairs: Janine Wong, Bettina Hitzfeld
Session Discussion: Monday 4 May | 15:00 – 15:45 UTC
Platform 4.13.4 | Developing a monitoring-concept 4.13P. 3 | Carbon content and soil to assess the ecological impact of pesticide organisms – Trick or Peat? | Thomas 4.13.1 | UNCERTAIN decisions in soil risk use in German agriculture | Andreas Schmidt, IES Ltd, Switzerland assessment – standing on solid ground Toschki, gaiac Research Institute, Germany or on feet of clay? | Bjoern Scholz- 4.13P.4 | PROSOIL – Protection of soil Starke, darwin statistics, Germany Poster organisms: Development of environmental toxicity criteria for soil organisms in the 4.13.2 | Is the concentration addition 4.13P.1 | Consequences of the test context of classification & labeling of model sufficient to predict toxicity design on the Minimum Detectable substances and PBT assessment | Felix of tank mixtures to non-target soil Difference in earthworm field tests| Udo Stibany, RWTH Aachen University, Germany organisms? | Fernanda Benedet de Hommen, Fraunhofer IME, Germany Santo, Universidade de Coimbra, Portugal 4.13P.5 | Filling the lack of effect data of 4.13P.2 | The Selection and Co-Selection Novaluron-based pesticides to non-target 4.13.3 | FORESEE – Results of a three- of Antimicrobial Resistance by Non- in-soil organisms | Fernanda Benedet de day workshop on TKTD earthworm Antibiotic Drugs and Plant Protection Santo, Universidade de Coimbra, Portugal modeling in the context of environmental Products | Laura Murray, University of risk assessment | Vanessa Roeben, Exeter Medical School, United Kingdom Research Institute gaiac, Germany
4.14 – Soils as Sinks for Plastics: Analysis, Transport and Effects of Nano – and Microplastics in Terrestrial Environments
Chairs: Geert Cornelis, Elma Lahive, Denise M Mitrano
Session Discussion: Wednesday 6 May | 13:45-14:30 UTC
Platform 4.14.4 | Microplastics as possible modifiers 4.14P. 3 | Using metal-doped plastics to of pesticide effects in soil – The effects of understand soil organism interactions 4.14.1 | Solve it! Using polyester fibers and tire wear particles with nanoplastics and microfibers 1,2,4-trichlorobenzene and p-xylene to on the toxicity of chlorpyrifos | Salla and their potential to bioaccumulate make polyolefin plastic debris amenable Selonen, Suomen ympäristökeskus, Finland | Elma Lahive, Centre for Ecology to pyrolysis-GC/MS quantification in and Hydrology, United Kingdom soil | Zacharias Steinmetz, University Poster Koblenz-Landau, Germany 4.14P.4 | Detecting microplastic ingestion 4.14P.1 | What is the impact of agricultural by terrestrial arthropods and other 4.14.2 | Fate of microplastics in agricultural mulch films on terrestrial ecosystems? invertebrates via Calcofluor White soils amended with sewage sludge | | Carmen Nickel, Institute of Energy and counterstaining | Maxwell Helmberger, Andreu Rico, IMDEA Water Institute, Spain Envionmental Technology e.V. – IUTA, Germany Michigan State University, United States 4.14.3 | Quantification and modelling 4.14P.2 | Transport of nano – and 4.14P.5 | Ecotoxicity of mulch of nanoplastic transport in soils by microplastic through unsaturated films| Antonia Weltmeyer, advection and bioturbation | Wiebke porous media from sewage sludge Institute for Environmental Research, Mareile Heinze, Swedish University application | Denise Mitrano, Eawag RWTH Aachen, Germany of Agricultural Science, Sweden – Swiss federal Institute of Aquatic Science and Technology, Switzerland
78 twitter.com/SETAC_World #SETACSciCon 4.14P.6 | Are polystyrene nanoplastics 4.14P.7 | Exposure to micronized harmful to soil organisms? – Evaluating polyethylene terephthalate microplastics behaviour, survival, reproduction and (PET-µPs) affected the growth of the Giant biochemical markers on Enchytraeus snail Achatina reticulata | Beatrice De crypticus | Vera Maria, Biology Felice, Università degli Studi di Milano, Italy Department of Aveiro University, Portugal
4.15 – Wastewater and Sludge Reuse in a Circular Economy: Benefits and Risks
Chairs: Caroline Moermond
Session Discussion: Wednesday 6 May | 13:45-14:30 UTC
Platform 4.15.4 | Recommendations to derive 4.15P.4 | Recovering phosphate in waste quality standards for chemical pollutants water treatment plants while dealing 4.15.1 | Water reuse: the risks of in reclaimed water intended for reuse with pathogens and pharmaceutical Contaminants of Emerging Concern (CECs) in agricultural irrigation | Lian Lundy, residues, including antibiotics | Theo transfer from reclaimed wastewater to Middlesex University, United Kingdom Traas, National Institute for Public Health agricultural products. | Adrià Sunyer and the Environment (RIVM), Netherlands Caldú, IDAEA, CID-CSIC, Spain Poster 4.15P.5 | Use of biochar from municipal 4.15.2 | The effect of biomass addition 4.15P.1 | Impact of organic fertilizers reuse sewage sludge (biocoke) for recultivation of to sewage sludge prior to pyrolysis on in groundwater quality: dissemination disturbed and contaminated soils | Galina the polycyclic aromatic hydrocarbons of antibiotics and antibiotic resistance Vasilyeva, Institute of physicochemical and persistence and bioavailability in biochar- genes | Meritxell Gros Calvo, Catalan biological problems in soil science RAS, Russia amended soil | Paulina Godlewska, Maria Institute for Water Research (ICRA), Spain Curie-Sklodowska University, Poland 4.15P.6 | AWAREGIO – Modular Wastewater 4.15P.2 | Occurrence of antibiotics and Treatment Approaches to Achieve a 4.15.3 | Organic pollutants as resistance selection risk assessment in Sustainable Reuse of Freshwater, Nutrients quality indicators in agricultural selected Kenyan wastewaters, surface and Energy in the Anticipation of Future application of biogas digestates | waters and sediments. | pius kairigo, Water Stress | Markus Schmitz, Goethe Ivo Havranek, Norwegian University University of Jyvaskyla, Finland University Frankfurt am Main, Germany of Life Sciences (NMBU), Norway 4.15P. 3 | Host range of antibiotic resistance genes in influent, effluent and dried sludge of a wastewater treatment plant | Denise Pezzutto, University of Helsinki, Finland
4.16 – Developments in the Ecological and Human Health Risk Assessment of Biopesticides: Microorganisms, Botanicals and Semiochemicals
Chairs: Mike Coulson, Alison Hamer
Session Discussion: Monday 4 May | 17:00 – 17:30 UTC
Poster Corner Poster
4.16PC.1 | Multicomponent biopesticide 4.16P.1 | Challenges associated with test items: Analytical challenges and registration of botanical active substances opportunities | Peter Crick, Innovative in the EU | Robin Blake, Compliance Environmental Services (IES) Ltd, Switzerland Services International, United Kingdom
4.16PC.2 | Unique Challenges in Evaluating 4.16P.2 | Botanical (plant extract) active the Pathogenicity of Microbial Pesticides in substances: a review of ecotoxicological Adult and Immature Honey Bees | Maryam risk assessments under EU Regulation Sultan, Bayer CropScience, Germany (EC) No. 1107/2009 | Elizabeth Collison, Staphyt Regulatory, United Kingdom 4.16PC.3 | Regulatory approach and developments in fate and behaviour for 4.16P. 3 | Toxicological assessment of botanical pesticides | Martin Tilbrook, ERM biopesticides from agricultural waste | Regulatory Services Limited, United Kingdom Noelia Domínguez-Morueco, National Health Institute Carlos III, Spain 4.16PC.4 | Regulatory risk assessment for environment and non-target species 4.16P.4 | QSARs models as a toxicological related to the use of microorganisms assessment tool for novel biopesticides as plant protection products | regulation | Noelia Domínguez-Morueco, Vanessa Mazerolles, ANSES, France National Health Institute Carlos III, Spain
4.16PC.5 | Characterization of botanical 4.16P.5 | A mesocosm approach for UVCBs for active substance registration evaluating freshwater macroinvertebrate under the plant protection product community responses and ecosystem regulation: an opportunity for data functioning to field-relevant levels miners | Stephan van der Heijden, Board of a Bacillus thuringiensis var. for the Authorisation of Plant Protection israelensis bioinsecticide | Isabel Products and Biocides, Netherlands Lopes, University of Aveiro, Portugal facebook.com/setacworld #SETACSciCon 79 Endocrine Disruptors
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2020-03-04_Endocrine disruptors_03_2020_2.indd 1 06.03.2020 14:25:08 4.17 – Dyes as Environmental Contaminants
Chairs: Gisela Umbuzeiro, Harold Freeman, Riikka Raisanen
Session Discussion: Monday 4 May | 17:00 – 17:30 UTC
Poster Corner 4.17PC.3 | Strategy for the evaluation of 4.17P.2 | Does wash-off from façade mutagenicity of natural dyes: Application to paintings pose a risk for the aquatic 4.17PC.1 | BioColour project – Search the BioColour project | Gisela Umbuzeiro, environment? | Ricki Rosenfeldt, University for environmentally sound bio-based School of Technology – UNICAMP, Brazil of Koblenz-Landau, iES Landau, Institute colourants and processes for textile, for Environmental Sciences, Germany packaging and coating applications | Riikka 4.17PC.4 | Design and Toxicity Evaluation Raisanen, University of Helsinki, Finland of Dyes for Waterless Dyeing of Textile 4.17P.4 | Purification of the natural Fibers | Harold S. Freeman, North dye (willow bark hot water extracts) 4.17PC.2 | Toxicological safety assessment Carolina State University, United States for toxicological evaluation | Riikka of biocolourants developed in the Raisanen, University of Helsinki, Finland BioColour – project | Mikko Herrala, Poster University of Eastern Finland, Finland 4.17P.1 | Aquatic toxicity assessment of auramine dyes | Cassiana Montagner, UNICAMP, Brazil
4.18 – Environmental Risk Assessment of UV filters
Chairs: Carys Louise Mitchelmore, Iain Andrew Davies
Session Discussion: Tuesday 5 May | 17:00 – 17:30 UTC
Poster Corner 4.18PC.4 | Assessing the Environmental 4.18P.2 | Down-the-drain exposure Risk of UV Filters to Coral | Iain Davies, modelling of UV filters in the U.S. 4.18PC.1 | UV filters and other personal Personal Care Products Council, United States | Emily Burns, PCPC (Personal Care care products: water-sediment distribution Products Council), United States and bioaccumulation in fish in the Evrotas 4.18PC.5 | Systematic Toxicity Tests River | Silvia Diaz-Cruz, IDAEA-CSIC, Spain with Corals of Different Age Classes 4.18P. 3 | Histopathological - First results of Coral Larvae Tests | assessment of UV-filters (TiO2-NPs 4.18PC.2 | Toxicity of UV filters on Sascha Pawlowski, BASF SE, Germany and BP-3) in Scophthalmus maximus marine bacteria: combined effects with liver at environmentally-relevant damaging solar radiation | Clément Poster concentrations | Marta Martins, Lozano, Observatoire océanographique Faculty of Sciences andTechnology, de Banyuls sur mer, France 4.18P.1 | Bioaccumulation of phenolic benzotriazoles in the benthic freshwater Universidade Nova de Lisboa, Portugal 4.18PC.3 | Investigating the acute amphipod Hyalella azteca | Carolin 4.18P.4 | Under the influence of and chronic toxicity of the UV filter Müller, Fraunhofer Institute for Molecular regulations: occurence and temporal Benzophenone-3 (oxybenzone) on Biology and Applied Ecology IME, Germany trends of the UV filter EHMC in German the coral Galaxea fascicularis | Carys rivers | Regine Nagorka, Federal Mitchelmore, University of MarylandCenter Environment Agency UBA, Germany for Environmental Science, United States
4.19 – Environmental Risks of Neonicotinoid Insecticides: Are They the Outliers?
Chairs: Paul van den Brink, Andreu Rico
Session Discussion: Wednesday 6 May | 17:00 – 17:30 UTC
Poster Corner Poster
4.19PC.1 | Risks of imidacloprid to 4.19P.1 | Confirming the SSD and the aquatic ecosystems: are current msPAF approach for the ecotoxicological risk assessments protective? | risk assessment of neonicotinoids Paul van den Brink, Wageningen under semi-field conditions| Andreu Environmental Research, Netherlands Rico, IMDEA Water Institute, Spain
4.19PC.2 | The toxicokinetics of 4.19P.2 | Capitalizing on existing imidacloprid and imidacloprid-olefin in knowledge of pesticide-CYP9 enzyme two aquatic nontargeted species | Anna interactions to understand chemical Huang, Wageningen University, Netherlands susceptibility across bee species using the SeqAPASS tool | Donovan 4.19PC.3 | Short-term benefits and Blatz, Oak Ridge Institute of Science carry-over effects of early-life pesticide and Education, United States exposure | Thomas Zgirski, Université du Québec À Rimouski, Canada 4.19P. 3 | Imidacloprid-based insecticide toxicity to soil fauna in loamy and sandy soils from Brazillian Cerrado | Fernanda Santo, Federal University of Santa Catarina (UFSC), Campus Curitibanos, Brazil
SETAC Europe 30th Annual Meeting - SETAC SciCon 81 4.20 – Difficulties in Waste Ecotoxicological Tests for HP14 Classification: Legislation Debate and Testing Challenges
Chairs: Paola Grenni
Poster 4.20P.2 | Challenges in development 4.20P. 3 | Mechanized tunnelling and of a leaching test for evaluation of management of spoil material containing 4.20P.1 | Critical points of the EU Directive ecotoxicity (HP14) of municipal solid foaming agents: currents trends and future on the HP14 classification: An Italian waste bottom ashes | Charlotta Tiberg, perspectives | Paola Grenni, National perspective | Paola Grenni, National Swedish Geotechnical Institute , Sweden Research Council of Italy (CNR), Italy Research Council of Italy (CNR), Italy 4.20P.4 | From HP 14 classification to the environmental criterium of End-of- Waste status: the case of inert waste | Giovanni Beggio, University of Padua, Italy
4.21 – New Developments in UVCB Risk Assessment
Chairs: Pim Leonards
Poster 4.21P.2 | Sniffing out cedar wood 4.21P.4 | Predicting mixture properties oil: further characterising an UVCB using COSMOtherm for human 4.21P.1 | OECD 301 Ready Biodegradability and evaluating its hazard potential | exposure risk assessment | Alena Test Set-up for UVCBs and Difficult-to- Louise van Mourik, Vrije Universiteit Celsie, Queens University, Canada test Substances Using Gas-to-Liquids Amsterdam, Netherlands Products as a Case Study | David 4.21P.5 | The Advantage of Using Saunders, Shell International, Netherlands 4.21P. 3 | How to develop combined Benchmarking in Dietary Exposure toxicological assessment for complex Bioconcentration Measurements inorganic UVCBs: “Slags, Doré furnace” in Fish | Matthew MacLeod, assessment | Koen Oorts, ARCHE, Belgium Stockholm University, Sweden
Track 5: Life Cycle Assessment and Foot-Printing
5.01 – Challenges, New Approaches in Life Cycle Inventory Data Collection and Modelling
Chairs: Roland Hischier
Session Discussion: Monday 4 May | 15:45-16:30 UTC
Platform Poster
5.01.1 | geoFootprint: the interactive 5.01P.1 | How to treat odorous emissions web-application for modelling spatially in Life cycle Assessment? | Grazia explicit agricultural inventory in LCA | Cappucci, University of Modena and Adrien Liernur, Quantis, Switzerland Reggio Emilia – Department of Sciences and Methods for Engineering, Italy 5.01.2 | The Challenge of Temporal Resolution in Dynamic LCA | Didier 5.01P.2 | High-throughput Exposure and Beloin-Saint-Pierre, EMPA, Switzerland Risks Assessment of Chemicals in plastic Toys | Nicolo Aurisano, DTU (Technical 5.01.3 | Predicting emission releases University of Denmark), Denmark from mine tailings: spatially and temporally resolved life cycle 5.01P. 3 | Improving LCI data collection assessment modelling | Lugas Raka methodologies: A case study on microalgae Adrianto, ETH Zurich, Switzerland cultivation for phycocyanin extraction | Lea Braud, University College Dublin, Ireland 5.01.4 | Key parameters for predicting the environmental impacts of conventional 5.01P.4 | Methodological issues geothermal technologies | Aleksandra associated to GHG avoided emissions Kim, Paul Scherrer Institute (PSI), Switzerland accounting in waste management and recycling | Jeanne Serre, VERI, France 5.01.5 | Canada’s Low-Carbon Assets through Life Cycle Assessment (LCA^2) 5.01P.5 | Improving Local Life Initiative: LCI dataset development Cycle Inventory approaches: strategy | Geoffrey Guest, National challenges, proposals and future Research Council of Canada, Canada perspectives to support cities towards sustainability transitions | Nadia 5.01.6 | Enlarging the scope of Mirabella, KU Leuven, Belgium conventional life-cycle inventories using supply chain management for Social Life 5.01P.6 | Model-based technology Cycle Assessment | Mario Martin-Gamboa, integration to support life cycle CESAM & University of Aveiro, Spain engineering of all-solid state batteries | Nikolas Dilger, Fraunhofer IST, Germany
82 twitter.com/SETAC_World #SETACSciCon 5.02 – Integrated Life Cycle Approaches for Decision Support towards Sustainable Development of Existing and Emerging Technologies, Products and Services
Chairs: Stefano Cucurachi, Jacques Lharidon, Sonia Manzo
Session Discussion: Monday 4 May | 15:00 – 15:45 UTC
Platform Poster 5.02P.12 | Life Cycle Assessment (LCA) as a decision support tool to achieve more 5.02.1 | Exploring the effects that a 5.02P.1 | Digitalisation of the supply sustainable ecosystem for port operations: non-stationary climate and dynamic chain to assess chemicals life cycle – First the case of PortForward Project. | Inma electricity grid mix has on whole building experiences in using blockchain technology Cantero, Leitat Technological Center, Spain life cycle assessment: a multi-city for mass flow analysis| Lorenzo Zullo, comparison | Geoffrey Guest, National My Chemical Monitoring, Netherlands 5.02P.13 | Should We Replace Plastic In Research Council of Canada, Canada The Milk Supply Chain? | Stuart Walker, 5.02P.2 | Future environmental impacts University of Sheffield, United Kingdom 5.02.2 | Up-scaling methods used of key metals and consequences for in ex-ante life cycle assessment low-carbon technologies | Carina 5.02P.14 | Detecting Inter-Industrial – a review | Natalya Tsoy, CML Harpprecht, Leiden University, Netherlands Clusters in the Supply Chain Networks to Leiden University, Netherlands Reduce Embodied Emissions | Fumiya 5.02P.3 | Joint use of life-cycle approaches Nagashima, Kindai University, Japan 5.02.3 | A systematic approach to and multi-criteria decision analysis tools assess the environmental impact of for evaluation of renewable natural gas 5.02P.15 | A two-fold perspective on End new technologies: A case study for production systems | Mario Martin- of Life of photovoltaic panels not properly CIGS photovoltaic laminate | Mitchell Gamboa, CESAM & University of Aveiro, Spain confined| Sonia Manzo, ENEA CR, Italy Hulst, Radboud University, Netherlands 5.02P.4 | Life cycle analysis (LCA) of 5.02P.16 | A conceptual framework 5.02.5 | Poster spotlight: Digitalisation biojet fuel obtained from Pinus pinaster for Integrating Life Cycle Assessment of the supply chain to assess chemicals resin | David Bolonio, Universidad and Environmental Risk Assessment life cycle – First experiences in using Politecnica de Madrid, Spain | Rukayya Ibrahim Muazu, The blockchain technology for mass University of Sheffield, United Kingdom 5.02P.5 | Integration of Product flow analysis| Lorenzo Zullo, My Environmental Footprint with RothC 5.02P.17 | How to conduct prospective Chemical Monitoring BV, Netherlands model for the valorisation of organic life cycle assessments for emerging 5.02.6 | Poster spotlight: Future agriculture environmental performance: technologies A systematic review environmental impacts of key metals the case of organic olive oil production and methodological guidance | Nils and consequences for low-carbon in Italy | Sonia Manzo, ENEA CR, Italy Thonemann, Fraunhofer UMSICHT, Germany technologies | Carina Harpprecht, 5.02P.6 | Environmental Life Cycle 5.02P.18 | LCA as decision support Leiden University, Netherlands Assessment of Innovative Dry Paper to understand and reduce potential 5.02.7 | Poster spotlight: Joint use of Recycling Technology | Norihiro environmental impacts of advanced life-cycle approaches and multi-criteria Itsubo, Tokyo City University, Japan materials and processes developed decision analysis tools for evaluation or applied in the EU Horizon 2020 5.02P.7 | Integrated environmental and of renewable natural gas production PRESTIGE Project | David Wilde, economic life cycle assessment of vanadium systems | Mario Martin-Gamboa, LEITAT Technological Centre, Spain redox flow batteries| Nick Blume, CESAM & University of Aveiro, Spain Research Center Energy Storage Technologies, 5.02P.19 | Scaling approach to assess 5.02.8 | Shared Futures: New tools Clausthal University of Technology, Germany the potential of the use of wood in an for transparent and shareable emerging market through material 5.02P.8 | Life cycle assessment scenario analysis in Prospective LCA flow analysis| Audrey Tanguy, LIRIDE- of rubber tires: Evaluation of the | Peter Joyce, Unilever, Sweden CIRCERB Université de Sherbrooke, Canada environmental benefits of a new 5.02.9 | Integrated LCA/EMA sequential activator in the vulcanization process 5.02P.20 | Use of a simplified LCA tool evaluation: opportunities and challenges | Thomas Hennequin, Radboud in the naval sector: advantages and | Mariana Ieda Ribeiro de Oliveira, University Nijmegen, Netherlands limits of the methodology. | Michele Università Parthenope di Napoli, Italy Cracco, University of Padova, Italy 5.02P.9 | Life Cycle Assessment of Flame 5.02.10 | Uncertain and sensitive Retardants: LIFE-FLAREX project | David 5.02P.22 | Integrated approaches to LCA models | Stefano Cucurachi, Wilde, Acondicionamiento tarrasense analysis of the influence of feedstocks and CML Leiden University, Netherlands (leitat technological center), Spain processing technologies on valorisation of bio-waste streams | Polina Yaseneva, 5.02.11 | Framework for dynamic 5.02P.10 | Ecorkwaste: environmental and University of Cambridge, United Kingdom carbon accounting: development socio-economic assessment of cork waste of complete carbon balances in LCA gasification| Ana Ramos, INEGI, Portugal | Arnaud Hélias, Irstea, France 5.02P.11 | Simultaneous Heat and Cooling 5.02.12 | Emerging Technologies and from District Heat – Environmental LCA: What LCA tells us about the status Impacts of the Innovative Thermal quo and future prospects | Steffi Energy Conversion Process TeTra | Weyand, TU Darmstadt, Germany Gerhard Piringer, University of Applied Sciences Burgenland, Austria 5.02.13 | Environmental impacts of emerging PV technologies: LCA meta- analysis as an early stage guidance tool | Carlos Blanco, Institute of Environmental Sciences, Leiden University, Netherlands facebook.com/setacworld #SETACSciCon 83 5.03 – LCA for Urban and Territorial Footprinting: Advancements, Trends and Applications to Promote Sustainable Consumption Patterns and Territorial Management
Chairs: Nadia Mirabella, Serenella Sala
Session Discussion: Thursday 7 May | 13:45-14:30 UTC
Platform 5.03.5 | LCI regionalization for urban 5.03P.2 | Exploring complementarity systems: sensitivity to parameter of Life Cycle Thinking & Landscape and 5.03.1 | Application of LCA and and scenario uncertainties | Urban Planning towards sustainable building energy simulation in the early Audrey Tanguy, LIRIDE-CIRCERB urban co-design Case study: a last design of an urban project | Bruno Université de Sherbrooke, Canada kilometer electric tricycle-based logistic Peuportier, Mines ParisTech, France technology | Ghada Bouillass, MINES 5.03.6 | Poster spotlight: A methodology to 5.03.2 | Environment Assessment of ParisTECH – OIE Research Center, France identify sustainability indicators in small, people’s daily mobility in an urban area: medium and large cities in Spain | Sara 5.03P.3 | Handprint approach turns coupling a Land-Use and Transport González-García, University of Santiago the focus on consumer’s impact | Interaction model with Life Cycle de Compostela CIF Q1518001A, Spain Risto Soukka, Lappeenranta Lahti Assessment | Cyrille Francois, Laboratoire University of Technology, Finland Ville Mobilité Transport, France 5.03.7 | Poster spotlight: Exploring complementarity of Life Cycle Thinking & 5.03P.4 | Comprehensive Analysis 5.03.3 | The City Environmental Footprint: Landscape and Urban Planning towards of Carbon Footprint Based on the development and application of an adapted sustainable urban co-design Case study: a Relative Location in the Global LCA method for urban footprinting | last kilometer electric tricycle-based logistic Supply Chain Networks | Shohei Nadia Mirabella, KU Leuven, Belgium technology | Ghada Bouillass, MINES Tokito, Yamagata University, Japan 5.03.4 | Coupling Optimisation with ParisTECH – OIE Research Center, France 5.03P.5 | Carbon footprint reduction territorial LCA to support agricultural potential of waste management strategies land-use planning – Case study in Poster in tourist cities | Gudrun Obersteiner, Wallonia | Tianran Ding, Université 5.03P.1 | A methodology to identify BOKU, Institute of Waste Management, Austria Libre de Bruxelles, Belgium sustainability indicators in small, medium and large cities in Spain | 5.03P.6 | Carbon footprint for sustainable Sara González-García, University of tourism and mice in japan | Yusuke Santiago de Compostela, Spain Kitamura, Tokyo City University, Japan
5.04 – Life Cycle Impact Assessment and Ecosystem Impact Assessment: Strengthening the Link Between LCA and Ecology
Chairs: Alexis Laurent, Anne Asselin, Serenella Sala, Sabine Elisabeth Apitz
Session Discussion: Tuesday 5 May | 15:45-16:30 UTC
Platform 5.04.7 | Review of life-cycle based methods 5.04.13 | Land use impact assessment for for absolute environmental sustainability marine constructions in the Mediterranean 5.04.2 | Factoring the uncertainty of assessment | Morten Ryberg, Technical Sea – are biodiversity data available underspecified archetypes on LCA University of Denmark (DTU), Denmark enough? | Aurore Léocadie, Université results | Miguel Fernandez Astudillo, Paul-Valéry Montpellier 3, France 2.-0 LCA consultants, Denmark 5.04.8 | The fate of evaporated water across basin boundaries 5.04.14 | An interdisciplinary approach 5.04.3 | Towards interim characterization – Implications for the Impact to improving LCIA methodologies for factors to account for the dissipation Assessment in Water Footprinting | freshwater use impacts on terrestrial of non-energetic abiotic resources Andreas Link, TU Berlin, Germany ecosystem quality | Alyssa Smart, in life cycle assessment | Alexandre University of British Columbia, Canada Charpentier Poncelet, ISM 5.04.9 | Improvement of the water UNIVERSITE DE BORDEAUX, France footprint AWARE model | Philippe 5.04.15 | Biodiversity impact assessment Roux, INRAE – Elsa-Pact Chair, France of low-pesticide scenarios for the Swiss 5.04.4 | Poster spotlight: Integration of food sector: How can we broaden our ProScale toxicity potential assessment 5.04.10 | Guiding the interpretation vision to include impacts abroad when in LCA applied to Utility Poles | Tomas of toxicity-related impacts in the addressing domestic food consumption? Rydberg, IVL Swedish Environmental Environmental Footprint 3.0: a case | Maria Bystricky, Agroscope, Switzerland Research Institute, Sweden study on the consumption of EU citizens | Serenella Sala, European 5.04.16 | Biodiversity Footprinting 5.04.5 | Poster spotlight: Development Commission – Joint Research Centre, Italy for Financial Institutions: A Case of a parsimonious characterisation study for ASN Bank | Daniël Kan, model to address space debris emission- 5.04.11 | Development of Eco-factors PRe Sustainability, Netherlands related damages for the LCA of space for the European Union based on the systems | Philippe Loubet, ISM, France Ecological Scarcity Method | Marco Muhl, 5.04.17 | Poster spotlight: Product Technical University Berlin, Germany Biodiversity Footprint – A case study on 5.04.6 | Framework to Define salmon | Anne Asselin, Sayari, France Environmental Sustainability 5.04.12 | Biodiversity impact of fisheries Boundaries | Eldbjørg Vea, Technical | Arnaud Helias, INRAE – ITAP, France 5.04.18 | Poster spotlight: Developping University of Denmark, Denmark a life cycle impact assessment model based on functionnality to assess competition between users | Camille Chabas, Ciraig UQAM, Canada
84 scicon.setac.org 5.04.19 | Poster spotlight: Domestic 5.04P.6 | Importance of region definition 5.04P.14 | Calculation of global average freshwater use in Life Cycle Assessment: for air pollution model: example in Africa | monthly “AWARE” water scarcity CFs at enhancing the characterization of Human Selim Karkour, Tokyo City University, Japan watershed level and evaluation through Health impacts | Laura Debarre, CIRAIG application to hydropower plants | Lugas 5.04P.7 | Regionalization of the AWARE – École Polytechnique de Montréal, Canada Raka Adrianto, ETH Zurich, Switzerland Characterization Factors for a Colombian Poster watershed | María Gomez, Universidad 5.04P.15 | The demonstration of the Nacional de Colombia, Colombia sustainability of multi-trophic aquaculture 5.04P.1 | Integration of ProScale toxicity systems under a holistic perspective: LCA 5.04P.8 | Assessing biodiversity impacts potential assessment in LCA applied to and Ecosystem Services Assessment | Inma of ecological intensification activities – a Utility Poles | Tomas Rydberg, IVL Swedish Cantero, Leitat Technological Center, Spain Environmental Research Institute, Sweden case study in southwest Germany | Jan Lask, University of Hohenheim, Germany 5.04P.16 | Biodiversity In Life Cycle 5.04P.2 | Development of a parsimonious Assessment: A Comparison Of Impact 5.04P.9 | Renewable resources in LCA: characterisation model to address Assessment Methods | Esther Sanye- proposal of a new characterization space debris emission-related Mengual, European Commission approach based on criticality | damages for the LCA of space systems – Joint Research Centre, Italy | Philippe Loubet, ISM, France Jade Garcia, SCORE LCA, France
5.04P. 3 | Product Biodiversity 5.04P.11 | The development of life cycle Footprint – A case study on salmon assessment method in desertification | Anne Asselin, Sayari, France considering land use and climate change. | Runya Liu, Graduate School 5.04P.4 | Developping a life cycle impact of Environmental and Information assessment model based on functionnality Studies, Tokyo City University, China to assess competition between users | Camille Chabas, Ciraig UQAM, Canada 5.04P.12 | Quantitative environmental impact assessment for rice cultivation 5.04P.5 | Domestic freshwater use caused by exposure of artificial in Life Cycle Assessment: enhancing light at night | Norihiro Itsubo, the characterization of Human Health Tokyo City University, Japan impacts | Laura Debarre, CIRAIG – École Polytechnique de Montréal, Canada 5.04P.13 | Characterising land use impacts on pollinators abundance for LCA | Elizabeth Alejandre, CML Leiden University, Netherlands
SETAC Europe 30th Annual Meeting - SETAC SciCon 85 5.05 – Quantifying Life Cycle Emissions and Environmental Impacts of Agricultural Practices Related to Pesticides and Fertilisers
Chairs: Thomas Nemecek, Angel Avadi
Session Discussion: Thursday 7 May | 13:00-13:45 UTC
Platform 5.05.4 | Indigo-N v.3 – a model for 5.05P. 3 | Combining LCA and the estimating direct field nitrogen soil model DNDC to assess the 5.05.1 | Emission and toxicity modelling emissions under contrasting agricultural environmental impacts of catch crops | for pesticides: operationalising situations | Christian Bockstaller, INRA, Iris Kral, University of Natural Resources the pesticide consensus | Thomas UMR1121 Agronomie et Environnement, and Life Sciences, Vienna, Austria Nemecek, Agroscope, Switzerland Inra-Université de Lorraine, France 5.05P.4 | Life Cycle Assessment of 5.05.2 | New insights for PestLCI 5.05.5 | AGEC-LCI: an open access tool wheat production in France: impact of Consensus model: sensitivity and for calculating emissions from fertilizers mineral and organic fertilizers | Saïcha scenario analyses for pesticide and metal-based fungicides applications Gerbinet, Université de Liège, Belgium emissions and impacts | Celine | Ivan Viveros Santos, CIRAIG – École Gentil, CIRAD – Centre de coopération 5.05P.5 | Life Cycle Assessment of Belgian Polytechnique de Montréal, Canada internationale en recherche agronomique organic apple cultivation using different pour le développement, Martinique 5.05.6 | Poster spotlight: Comparison allocation options for organic fertilisers of operational N direct field emissions | Freya Michiels, KU Leuven, Belgium 5.05.3 | Characterizing ecotoxicity models used in LCA – suitability for impacts on insect pollinators in life 5.05P.6 | Evaluations of benefits and contrasting agricultural situations cycle impact assessment | Eleonora impacts of nutrients recovery techniques | Angel Avadi, CIRAD, France Crenna, EMPA, Switzerland for dairy manure | Olivier Jolliet, Poster University of Michigan, United States
5.05P.1 | Comparison of operational N 5.05P.7 | Quantifying the Environmental direct field emissions models used in LCA Impacts of Trace Elements Used – suitability for contrasting agricultural in Animal Nutrition | Alessandra situations | Angel Avadi, CIRAD, France Monteiro, Animine, France
5.06 – Quantifying the Environmental Impacts of Marine Litter: Interdisciplinary Knowledge towards Addressing Marine Litter in LCA
Chairs: Esther Sanye-Mengual, Noel J. Diepens
Session Discussion: Wednesday 6 May | 15:00 – 15:45 UTC
Platform 5.06.4 | Approach to Consider Plastic 5.06P.2 | Conceptual framework for Emissions in Life Cycle Assessment assessing marine plastics pollution | 5.06.1 | Drawing a framework to assess | Daniel Maga, Fraunhofer Institute Morten Ryberg, Technical University marine plastic litter impacts in life cycle for Environmental, Safety, and Energy of Denmark (DTU), Denmark impact assessment: the MarILCA project Technology UMSICHT, Germany | Francesca Verones, NTNU, Norway 5.06P. 3 | Environmental Assessment 5.06.5 | Aquatic Micro – and Nano – Plastics of Possible Leaching of Additives 5.06.2 | The Plastic Leak Project: in LCA: Development of an ecotoxic effect Present in Plastics | Nils Thonemann, A pre-competitive initiative to factor | Jérôme Lavoie, UQAM, Canada Fraunhofer UMSICHT, Germany harmonize plastic metrics | Anna Kounina, Quantis / EPFL, Switzerland 5.06.6 | Reliable test methods to evaluate 5.06P.4 | Single-use plastic bags and the biodegradation of plastic materials in their alternatives – Recommendations 5.06.3 | Modelling the plastic footprint the marine environment | Miriam Weber, from Life Cycle Assessment studies of EU consumption: knowing the flows HYDRA Marine Sciences GmbH, Germany | Feng Wang, UNEP, France and stock as the basis for estimating plastic marine litter emissions | Esther Poster 5.06P.5 | Marine litter contribution Sanye-Mengual, European Commission of plastic packaging in Germany. – Joint Research Centre, Italy 5.06P.1 | Exposure to selected Micro | Carla Scagnetti Goyarzu, and Microplastics and Effect on Selected Universität Stuttgart, Germany Species in Marine Environments | Amila Abeynayaka, Tokyo City University, Japan
5.07 – Sustainability and Risk Assessments and Circularity Indicators for the Transition to a Circular Economy
Chairs: Guido Sonnemann, lucia rigamonti, Joris T.K. Quik
Session Discussion: Wednesday 6 May | 13:00-13:45 UTC
Platform 5.07.2 | Measuring the performance 5.07.3 | Return of the milkman: using of more circular complex product combination of circularity and life 5.07.1 | Calculation of technical supply chains | Ellen Bracquene, cycle metrics for decision making in substitutability coefficients in waste KU Leuven, Belgium context of circular models for fast management LCA studies | lucia moving consumer goods (FMCG) | rigamonti, Politecnico di Milano, Italy Marisa Vieira, PRé, Netherlands
86 twitter.com/SETAC_World #SETACSciCon 5.07.4 | Confronting challenges of 5.07P.4 | Assessing the environmental 5.07P.10 | Sustainable bioenergy systems: combining and comparing Material benefits of utilising residual flows: the an environmental profile of wood pellet and Circularity Indicator with Life Cycle case of urea production from basic wood logs for residential heating | Paula Assessment indicators: a case of oxygen furnace gas | Rosalie van Zelm, Quinteiro, University of Aveiro, Portugal alkaline batteries | Edis Glogic, Radboud University, Netherlands 5.07P.11 | Life cycle assessment of hard University of Bordeaux, France 5.07P.5 | Application of the GeoPolRisk carbon manufactured from organic Poster method at Midpoint and Endpoint level: The and anthropogenic waste precursors case of Li-ion batteries for the EU | Guido | Claudia Tomasini Montenegro, 5.07P.1 | Accounting for material properties Sonnemann, University of Bordeaux, France Helmholtz Institute Ulm, Germany and technology choices to assess effective recycling strategies | Jana Enking, 5.07P.7 | EU fertilizer regulation: Moving 5.07P.12 | Freshwater eutrophication CML Leiden University, Netherlands forward or backward | Elisavet Angouria- from forest management: the case of Tsorochidou, Aarhus University, Denmark eucalypt in Portugal | Daniele Costa, 5.07P.2 | Coupling an economic time- CESAM & Department of Environment and 5.07P.8 | Environmental and economic series M-P chain model to CLCA: the Planning, University of Aveiro, Portugal case of post-consumer glass waste assessment of MEMs in-line inspection loops | Audrey Tanguy, LIRIDE-CIRCERB system: CITCOM Project | David Université de Sherbrooke, Canada Wilde, Acondicionamiento tarrasense (leitat technological center), Spain 5.07P.3 | Consequential life cycle assessment of different valorisation 5.07P.9 | Assessment carbon footprint of alternatives for forest biomass residues: citrus waste valorization to D-limonene electricity, heat and bioethanol | | Sara González-García, University Tamiris da Costa, University of Aveiro/ of Santiago de Compostela, Spain Federal University of Pampa, Portugal
5.08 – Sustainability Dietary Patterns: Nutritional and Environmental Implications
Chairs: Sara González-García, Alba Bala
Session Discussion: Wednesday 6 May | 17:00 – 17:30 UTC
Poster Corner 5.08PC.3 | Carbon foot-printing the dietary Poster habits of the Spanish climatic zones at 5.08PC.1 | A comprehensive 5.08P.1 | Classification of Belgian household level | Sara González-García, sustainability evaluation of eating consumers based on protein source University of Santiago de Compostela, Spain patterns for Americans | Olivier Jolliet, consumption frequency in relation University of Michigan, United States 5.08PC.4 | Nutritionally and to dietary guidelines | Klara Van environmentally optimized agri-food Mierlo, KU Leuven, Belgium 5.08PC.2 | The global carbon and production systems for sustainable resource footprint of Denmark’s food 5.08P.2 | Food Systems Sustainability diets | Ashley Green, ETH Zürich consumption 1995-2011 | Albert Osei- Through Surplus Food Redistribution: & Agroscope, Switzerland Owusu, Aarhus University, Denmark Scenario Analysis and Recommendations 5.08PC.5 | A novel Functional from a Case Study | Elena Semenzin, Unit to compare diet LCAs | Alba University Cà Foscari Venice, Italy Bala, UNESCO Chair in Life Cycle and Climate Change (ESCI-UPF), Spain
Track 6: Environmental Policy, Risk Management, and Science Communication
6.01 – Increasing the Utility of Non-standard Studies in Weight of Evidence Evaluations
Chairs: Samuel K Maynard, Caroline Moermond, John P. Sumpter
Session Discussion: Tuesday 5 May | 13:45-14:30 UTC
Platform Poster
6.01.2 | Examination of key studies used 6.01P.1 | How non-standard studies during REACH restriction process | Flora and their weight of evidence evaluation Borchert, Stockholm University, Sweden may be used within Environmental Quality Standards derivation: a case 6.01.3 | Weighing evidence of effects study with endocrine disrupting of pesticide mixtures in bees: how assessment of tebuconazole | Alice to deal with uncertainties | Helene James Casas, INERIS, France Serra, Lund University, Sweden 6.01P.2 | Modification of CRED system for 6.01.5 | Could ecotoxicology pre-publish study evaluation in a regulatory context methods as do clinical studies? | Stewart | Emily McVey, Ctgb, Netherlands Owen, AstraZeneca, United Kingdom
facebook.com/setacworld #SETACSciCon 87 6.02 – Integrated Effect Assessments to Enable a Sustainable Future for the Marine and Coastal Environment
Chairs: Mathijs G.D. Smit, Adam Lillicrap, Samantha Deacon, Ioanna Katsiadaki
Session Discussion: Thursday 7 May | 13:45-14:30 UTC
Platform Poster 6.02P.6 | Climate-change associated floodwater as a pathway for microplastic 6.02.1 | Biological effect monitoring 6.02P.1 | Addressing sustainability needs and tire wear particle transport to in the context of the Marine Strategy with isothiazolinone chemistry: the coastal waterways: A case study Framework Directive (MSFD) | favorable environmental profile of DCOIT| of Charleston, SC (USA) | Bonnie Victoria Tornero, EC JRC, Italy Apostolos Koutsaftis, DuPont, Netherlands Ertel, The Citadel, United States 6.02.2 | JPI Oceans Knowledge Hub: 6.02P.2 | Ensuring the environmental 6.02P.7 | Developmental effects Integrated Assessment of New Pollutants sustainability of Production of of fuel oils on early life stages of | Isabelle Schulz, JPI Oceans, Belgium primary aluminium (ESPIAL): the Atlantic cod (Gadus morhua) | Lisbet Marine environment | Ailbhe 6.02.3 | Integrated biological effects Sørensen, SINTEF Ocean, Norway Macken, NIVA, Norway assessment of an aluminium smelter 6.02P.8 | Characterization and basal discharge in a Norwegian fjord | 6.02P.3 | First Evaluation of the Status of physiological status of Mytilus edulis Ailbhe Macken, NIVA, Norway Marine Invertebrates in North Corsica Ports haemocytes: a flow cytometry approach | Marion Pillet, La Rochelle Université, France 6.02.4 | Unravelling the composition- | Tânia Gomes, Norwegian Institute influence on toxicity of offshore produced 6.02P.4 | Classification of coastal sites in for Water Research (NIVA), Norway water using high-resolution gas and liquid North western of Algeria using biomarker 6.02P.9 | Effects on marine planktonic chromatography – mass spectrometry | index and the Norwegian classification species under temperature changes Lisbet Sørensen, SINTEF Ocean, Norway system (KECS) for monitoring pollution and oxyfluorfen exposure| Andreia | Imene Benali, University of Sciences 6.02.5 | Source to Outcome Pathways Filipa Mesquita, Department of Biology and Technology of Oran, Algeria – a way forward in integrating marine & CESAM – University of Aveiro, Portugal exposure and impact assessment? 6.02P.5 | Mapping Stressor Effect of | Chloe Eastabrook, Newcastle Sediment Nutrients on Macrobenthic University, United Kingdom Invertebrate Distribution in Estuarine Tropical Water Southwestern Nigeria | Oluwabukunola Olapoju, nigerian institute for oceanography and marine research, Nigeria
6.03 – Marine and Freshwater Pelagic and Benthic Harmful Algal Blooms: Toxins Production, Detection, Fate, Effects, Monitoring and Management
Chairs: Triantafyllos Kaloudis
Session Discussion: Thursday 7 May | 13:00-13:45 UTC
Platform 6.03.4 | Seasonal geosmin production Poster from benthic cyanobacteria in a 6.03.1 | Comparison of four analytical 6.03P.1 | Early detection of cyanotoxin freshwater canal, with implications for methods for the detection of “rare” threat in freshwater bodies by drinking water supplies. | Triantafyllos or novel freshwater paralytic shellfish quantitative PCR | Maša Zupančič, Kaloudis, EYDAP SA, Greece toxins in New York | Zacharias National Institute of Biology, Slovenia Smith, Ramboll, United States 6.03.5 | Combined hydrogen peroxide- 6.03P.2 | Experimental approach to MlrA treatment – possible solution 6.03.2 | Cylindrospermopsin understand aerosolization mechanisms to cyanobacterial blooms and transformation products formed by of toxins produced by the microalga cyanotoxin degradation | Dariusz manganese-oxidizing bacteria show Ostreopsis cf. ovata | Noemí- Dziga, Jagiellonian Univeristy, Poland reduced toxicity in human cell line Inmaculada Pérez, Faculty of Chemistry, models | Erika Berenice Martínez Ruiz, University of Barcelona, Spain Technische Universität Berlin, Germany
6.04 – Modern Approaches to Assessment and Management of PFAS: A Science-Policy Dialogue
Chairs: Carlie LaLone, Lena Vierke, Suzanne Fenton, Zhanyun Wang
Session Discussion: Thursday 7 May | 13:45-14:30 UTC
Platform 6.04.2 | Distribution of legacy and 6.04.3 | High-throughput assessment emerging per – and polyfluoroalkyl of PFAS mixtures in environmental 6.04.1 | Identification and occurrence of substances (PFAS) in seabirds and fish samples by combining bioassays novel cyclic and polymeric perfluoroalkyl from Atlantic offshore and coastal and Effect-Directed Analysis| Håkon ethers (PFECAs) downstream of the environments | Anna Robuck, University Langberg, Norwegian University of fluoropolymer manufacturing plants| Sara of Rhode Island, United States Science & Technology (NTNU), Norway Valsecchi, Water Research Institute – Italian National Research Council IRSA-CNR, Italy 6.04.4 | Per – and Polyfluoroalkyl Substances (PFAS) under REACH and CLP | Johanna Peltola-Thies, European Chemicals Agency – ECHA, Finland
88 scicon.setac.org 6.04.5 | Strategies for grouping per – 6.04P.2 | A comparison of 6.04P.7 | Bioaccumulation and and polyfluoroalkyl substances| Ian perfluorooctanoic acid (PFOA) and biomagnification of perfluorinated Cousins, Stockholm University, Sweden hexafluoropropylene oxide dimer acid alkyl substances (PFAS) in marine biota (HFPO-DA, or GenX) effects in target of the Belgian North Sea and their 6.04.6 | Poster spotlight: Environmental tissues of exposed mice. | Suzanne potential risk for human consumption Sources, Analyses, Chemistry, Fate & Fenton, NTP Labs/NIEHS, United States | Cara Byns, Systemic Physiological Transport of Per – and Polyfluoroalkyl and Ecotoxicological Research (SPHERE), Substances – Workgroup Summary, Output, 6.04P. 3 | Biosorption and permeabilities University of Antwerp, Belgium Conclusions and Implications from the 2019 of PFAAs and four of their alternatives SETAC Focused Topic Meeting | Stephen and the effects on toxicokinetic behaviour 6.04P.8 | How much chemicals with Korzeniowski, FluoroCouncil, United States | Flora Allendorf, Helmholtz centre for PFAS do we use in Norway? A data environmental research – UFZ, Germany register study based on data from 2009- 6.04.7 | Poster spotlight: A comparison 2017 | Merete Grung, NIVA, Norway of perfluorooctanoic acid (PFOA) and 6.04P.4 | A comparative assessment hexafluoropropylene oxide dimer acid of estimation methods for property 6.04P.9 | Distribution pattern of (HFPO-DA, or GenX) effects in target estimation of per – and polyfluoroalkyl perfluoroalkyl substances in Swiss tissues of exposed mice. | Suzanne substances (PFAS) | Alina Lampic, riverine sediments | Sara Valsecchi, Fenton, NTP Labs/NIEHS, United States Trent University, Canada Water Research Institute – Italian National Research Council IRSA-CNR, Italy 6.04.8 | Poster spotlight: Biosorption 6.04P.5 | Exposure of lettuce to and permeabilities of PFAAs and perfluoroalkylated acids (PFAAs) in 6.04P.10 | Perfluoroalkyl acids (PFAAs) four of their alternatives and the naturally contaminated soil: accumulation in the Pra and Kakum River basins and effects on toxicokinetic behaviour| patterns and toxicokinetics | Robin associated tap water in Ghana | Albert Flora Allendorf, Helmholtz centre for Lasters, Systemic Physiological and Eshun, University of Cape Coast, Ghana environmental research – UFZ, Germany Ecotoxicological Research (SPHERE), 6.04P.11 | Monitoring of PFAS in University of Antwerp, Belgium Poster edible crops of an area impacted by 6.04P.6 | Analysis of Northern Bobwhite a fluorochemical plant| Roberto 6.04P.1 | Environmental Sources, Quail Liver Bioaccumulation and Egg Lava, ARPA, Veneto, Italy Analyses, Chemistry, Fate & Transport of Deposition from Chronic Exposure to 6.04P.12 | LIFE PHOENIX project: a Per – and Polyfluoroalkyl Substances – Perfluorooctane Sulfonate (PFOS) or a new project for the management Workgroup Summary, Output, Conclusions Mixture of PFOS and Perfluorohexane of water pollution from short chain and Implications from the 2019 SETAC Sulfonate (PFHxS) | Nicole Dennis, PFAS in Veneto region (Italy) | Focused Topic Meeting | Stephen Texas Tech University, United States Korzeniowski, FluoroCouncil, United States Roberto Lava, ARPA, Veneto, Italy
6.05 – Nanotechnology Regulatory and Assessment Frameworks and Nanoremediation Approaches
Chairs: Teresa F Fernandes, Miroslav Cernik, Vicenç Martí, Kai Paul
Session Discussion: Thursday 7 May | 13:45-14:30 UTC
Platform 6.05P.4 | Silver toxicity towards 6.05P.9 | Introducing a New Hydrophobic Daphnia magna affected by titanium Magnetic Polymer Nano Composite 6.05.1 | A Framework for Grouping dioxide nanoparticles and duration for Selective Oil Absorption | Fereshte and Read-Across of Nanomaterials of aging | Rajdeep Roy, University Damavandi, University of Alberta, Canada – Supporting Innovation and Risk of Koblenz-Landau, Germany Assessment | Teresa Fernandes, Heriot- 6.05P.10 | Petroleum hydrocarbons Watt University, United Kingdom 6.05P.5 | Reactivity of micronized degradation in diesel contaminated soil hydroxyapatites for the removal based on activation of peroxymonosulfate 6.05.2 | Regulatory Risk Assessment of geogenic contaminants in by zero-valent iron nanoparticles Framework Development for waterS | Vicenç Martí, Universitat | Seung-Woo Jeong, Kunsan nanomaterials in Canada | Marie- Politecnica Catalunya, Spain National University, South Korea Claude Sauve, Environment and Climate Change Canada, Canada 6.05P.6 | Considerations for 6.05P.11 | Solubility of different bioaccumulation studies in fish with nanomaterials used in biomedicine | Poster nanomaterials | Maria Luisa Fernandez- Carmen Nickel, Institute of Energy and 6.05P.1 | Database applications could Cruz, INIA – National Institute for Agricultural Envionmental Technology e.V. – IUTA, Germany and Food Research and Technology, Spain support the registration of similar 6.05P.12 | Modelling the contribution of nanomaterials | Ricki Rosenfeldt, University 6.05P.7 | The accumulation of nanoparticles pigment-TiO2 to the released nanosized of Koblenz-Landau, iES Landau, Institute in the pseudofeces of bivalves may play a TiO2 fraction | Yuanfang Zheng, EMPA for Environmental Sciences, Germany central role regarding the ecological impact Technology & Society Lab, Switzerland of engineered nanomaterials | Sebastian 6.05P.2 | Identification & characterization 6.05P.13 | Application of Na- Kühr, Fraunhofer IME – Institute for Molecular of nanoparticles | Emma Danby, HMP to enhance aqueous phase Biology and Applied Ecology, Germany Covance, United Kingdom delivery of remediation agents in 6.05P. 3 | Nanotechnology-based 6.05P.8 | Investigations on the soil. | Seung-Woo Jeong, Kunsan coatings: a framework for the anti-fouling bioaccumulation of engineered National University, South Korea efficacy, toxicity and risk assessment nanomaterials in the benthic fresh water | Roberto Martins, Department of amphipod Hyalella azteca | Sebastian Biology, University of Aveiro, Portugal Kühr, Fraunhofer IME – Institute for Molecular Biology and Applied Ecology, Germany
SETAC Europe 30th Annual Meeting - SETAC SciCon 89 6.06 – PBT and Other Substances of (Very High) Concern: Policies, Practices and Challenges
Chairs: Stefan Hahn, Monika Nendza, Silke Gabbert, Jacques Lharidon
Session Discussion: Thursday 7 May | 13:00-13:45 UTC
Platform 6.06.6 | A Concern-based Approach 6.06P.6 | Consequences of the to Socio-economic Analysis of PBT/ “Isomer Guidance” on study design 6.06.1 | A strategy on how to vPvB Substances Using Dynamic Stock and workload in soil degradation identify criteria for chemicals of Pollution Modelling | Silke Gabbert, study | Dennis Eckelmann, Bayer global concern | Thomas Backhaus, Wageningen University, Netherlands AG Crop Science Division, Germany University of Gothenburg, Sweden 6.06P.7 | Brominated flame retardants 6.06.2 | Towards better guidance Poster and perfluoroalkyl substances in irish on the analytical monitoring of 6.06P.1 | PBT-Assessment in the waste | Martin Sharkey, National environmental fate studies: an essential EU – an Overview | Till Mueller, University of Ireland Galway, Ireland issue for data quality and regulatory knoell Germany GmbH, Germany usability | Arnaud Catherine, ECHA 6.06P.8 | Fluoropolymer Stability: How (European Chemicals Agency), Finland 6.06P.2 | Variability and discrepancies Can You Prove a Negative (Absence in the interpretation of simulation of Leachable Substances of Concern 6.06.3 | Multi-laboratory validation of tests for Regulatory purposes | Marie- Over Time)? | Tinashe Ruwona, W.L. a new marine biodegradation test for Hélène Enrici, SOLVAY, France Gore & Associates, Inc., United States persistence screening | Amelie Ott, Newcastle University, United Kingdom 6.06P. 3 | Qualification of a 6.06P.9 | Endocrine Disruptors and REACH microbial inoculum for OECD Ready Authorisation – what is a sustainable 6.06.4 | Moving persistence (P) Biodegradability Tests (RBTs) | solution? | Tom Griffiths, ERM, Ireland assessments into the 21st Century: Delina Lyon, Shell Oil Company, Shell Developing a new paradigm to assess Health – Americas, United States 6.06P.10 | Prediction of chemical degradation potential of chemicals transformation products using in silico | Aaron Redman, Exxon Mobil 6.06P.4 | Screening test for biodegradation tools and its application in chemical Biomedical Sciences, Inc., Belgium in seawater (OECD306): how aging alternatives assessment: The case of water affects the microbial community decabromodiphenyl ether (decaBDE) 6.06.5 | Comparative ranking of and biodegradation rates | Aina alternatives | Hans Peter Arp, NGI, Norway impact potentials of substances Charlotte Wennberg, NIVA – Norwegian of concern | Monika Nendza, Institute for Water Research, Norway 6.06P.11 | What do the experts Analytisches Laboratorium, Germany say? – Identify and assess factors influencing the impacts of PBT and vPvB substances based on the Delphi method | Karen Thiele, WUR, Germany
6.07 – Science and Risk Communication in an Ever-changing World: How Could It Be Done to Build Trust?
Chairs: Thomas-Benjamin Seiler, William L. Goodfellow, Marie Bourgeois
Session Discussion: Wednesday 6 May | 15:00 – 15:45 UTC
Platform Poster 6.07P.7 | Micro(nano)plastics and Society: How is scientific knowledge 6.07.1 | How to communicate scientific 6.07P.1 | The Bambi syndrome – The being transmitted to the public? uncertainty while ensuring trust among naïve positive opinion about natural | Miguel Oliveira, University of stakeholders – mission impossible? | fragrance compounds | Ursula Klaschka, Aveiro & CESAM, Portugal Suzan Fiack, German Federal Institute University of Applied Sciences, Germany for Risk Assessment BfR, Germany 6.07P.8 | Foundations of social-ecological 6.07P.3 | Effective Risk Communication: systems pertinent to addressing 6.07.2 | Exploring disagreements about Preparing Hillsborough County for challenges of climate change. | Lawrence EDC evaluation | Bronwyn McIlroy-Young, 2050 and 2100 | Marie Bourgeois, Kapustka, LK Consultancy, Canada University of British Columbia, Canada USF COPH, United States 6.07P.9 | Green chemistry as the basis 6.07.3 | Effective tools for communicating 6.07P.4 | Outreach and communication of the ethics and moral responsibility science: storytelling and improvisational activites conducted by SETAC members of an engineer of the future | theatre | Jane Muncke, Food Packaging – A survey of the state and room for Aleksandr Govorin, Irkutsk national Forum Foundation, Switzerland improvement | Thomas-Benjamin Seiler, research technical University, Russia RWTH Aachen University, Germany 6.07.4 | Grassroots Organizing Strategies for Co-Developed Research 6.07P.5 | Effectively Presenting Science in Environmental Justice Communities | Information and Results without Meaghan Guyader, Sierra Club, United States Advocating Policy or Preference. | William Goodfellow, Exponent, United States 6.07.5 | Science-Informed Decision Making: Holistic Frameworks to Support 6.07P.6 | SETAC members’ perception Societal Values | Sabine Apitz, SEA of the role of science in decision Environmental Decisions Ltd, United Kingdom making | Annegaaike Leopold, Calidris Environment BV, Netherlands 6.07.6 | Reprise – Communicating Science-based Information is Hard Work | Lawrence Kapustka, LK Consultancy, Canada
90 twitter.com/SETAC_World #SETACSciCon 6.08 – The Role of Science in Derivation of Site-specific Environmental Quality Benchmarks and Management of Water Quality
Chairs: Marlea H.A.B. Wagelmans, Martina G. Vijver
Session Discussion: Monday 4 May | 15:00 – 15:45 UTC
Platform Poster 6.08P.5 | Contaminated sediments in Northern France: a risk of non-achievement 6.08.1 | Development of a risk 6.08P.1 | SIMONI 2.0: future for the good ecological and chemical assessment framework for nickel in developments in smart integrated status of the Water Framework Directive? South East Asia and Melanesia | Emily monitoring of the water quality | Ron | Emilie Prygiel, Cerema, France Garman, NiPERA Inc, United States van der Oost, Waternet, Netherlands 6.08P.6 | Effects of high temperature 6.08.2 | Evaluating the relationship 6.08P.2 | Sediment flushing in North and a PSII herbicide (Irgarol 1051) on between sediment quality cleanup Italian reservoirs: matching research, hermatypic coral Acropora tenuis evaluated objectives and protecting biological governance and management | Laura using a compact ecotoxicity experiment receptors: Lessons learned from 11 Marziali, IRSA-CNR (Brugherio), Italy system | Ichiro Takeuchi, Graduate School case studies of contaminated sediment 6.08P. 3 | Verifying the tiered approach of Agriculture, Ehime University, Japan remedy effectiveness| Robert Johnston, proposed in the EFSA scientific Applied Ecological Solutions, United States 6.08P.7 | The development of a opinion for sediment organisms; national water quality database 6.08.3 | A removal requirement a case study with the fungicide to assess shifting baselines in a index for assessing source water fludioxonil| Ivo Roessink, Wageningen changing climate | Carrie Rickwood, quality for purification to drinking Environmental Research, Netherlands Natural Resources Canada, Canada water | Stefan Kools, KWR Water 6.08P.4 | USEPA Research on Mussels Research Institute, Netherlands and Magna: Developing Toxicity Testing 6.08.4 | Poster spotlight: SIMONI 2.0: Methods and Guidance for New Species future developments in smart integrated for Effluent and Ambient Waters| monitoring of the water quality | Ron Teresa Norberg-King, U.S. Environmental van der Oost, Waternet, Netherlands Protection Agency, United States
6.09 – Current Developments in the Regulatory Assessment of Biocides in General and Chemicals in the Sediment Compartment in Particular
Chairs: Claire McMillan
Session Discussion: Monday 4 May | 17:00 – 17:30 UTC
Poster Corner 6.09PC.5 | Linking chemical concentrations 6.09P.4 | Preliminary ecological risk in sediments to population and community assessment of DCOIT for Brazilian coastal 6.09PC.1 | Over-conservative effects based on monitoring and modelling areas | Fiamma Abreu, FURG, Brazil environmental risk assessment for biocides | Tom Nolte, Radboud University, Netherland | Cyril Durou, CEHTRA SAS, France 6.09P.5 | The New Echa/Efsa Guidance on Endocrine Disruptors in the Context of 6.09PC.2 | The argument for Specific Poster the BPR – Requirements, First Experiences Protection Goals in Biocidal Products 6.09P.1 | Spatio-temporal exposure and Challenges | Katharina Ruppert, risk assessments – case studies | of Plant Protection Products in OECD knoell Germany GmbH, Germany Fabienne Ericher, CEA, United Kingdom 218/219 sediment test systems – 6.09P.6 | Endocrine disruptor screening 6.09PC.3 | Increasing the relevance of Modelling of experiments with natural assessment of co-formulants in biocidal the emission scenario of Cu used as wood sediments | Klaus Hammel, Bayer products – first experiences and preservative with TICKET-UWM | Marnix AG, Crop Science Division, Germany development of an IT tool | Sabine Vangheluwe, Arche consulting, Belgium 6.09P.2 | New insights on relevant Navis, Arche consulting, Belgium 6.09PC.4 | Depth-related analysis of ecotoxicological exposure pathways for 6.09P.7 | Co-formulants of biocidal sediment and pore water in microcosms Chironomus riparius in OECD 218/219 tests products under the biocide regulation: using natural sediments | Alexander using natural sediments | Daniel Faber, challenges an perspectives | Cyril Dorn, RWTH Aachen University, Germany Bayer AG, Crop Science Division, Germany Durou, CEHTRA SAS, France
6.10 – Refinement of the Risk to Birds and Mammals from Plant Protection Products: Higher Tier Studies and Approaches
Chairs: Juan Pascual, Amy C. Brooks, Manousos Foudoulakis, Jacoba Wassenberg
Session Discussion: Tuesday 5 May | 17:00 – 17:30 UTC
Poster Corner 6.10PC.2 | Focal species for pesticide 6.10PC.5 | Bats in pesticide risk risk assessments – how to determine assessment in the EU: Conservative 6.10PC.1 | Contributions of ECPA to the correct wild mammals | Christian assumptions, potential refinements and the revision of the EFSA Guidance Wolf, Tier3 Solutions GmbH, Germany industry activities | Arnd Weyers, Bayer Document on birds and mammals | AG – Crop Science Division, Germany Juan Pascual, BASF SE, Germany 6.10PC.4 | Residues decline in food items for birds and mammals | Emily McVey, Ctgb, Netherlands facebook.com/setacworld #SETACSciCon 91 Poster 6.10P.4 | Worth the risk? Food preferences 6.10P.10 | Long term effects of an herbicide of wood mice on newly drilled fields| Olaf on wild European rabbits – new methods 6.10P.1 | Options for data interpretation Fuelling, Tier3 Solutions GmbH, Germany for lagomorph field studies| Olaf and analyses of avian reproduction Fuelling, Tier3 Solutions GmbH, Germany endpoints | Manousos Foudoulakis, 6.10P.6 | Small Seed Quantification in Corteva agriscience, Greece Wood Mice Feces (Apodemus sylvaticus) 6.10P.11 | Do not fly blindly into the by Quantitative DNA Analysis | Kevin night – How landscape parameters and 6.10P.2 | Deriving ecologically relevant Groen, Institute of Environmental Sciences species specific traits can be used for endpoints for wild mammal risk | Leiden University, Netherlands exposure scenarios in the risk assessment assessments: 5 years on, what is the for European bat species | Olaf Fuelling, state of play? | Amy Brooks, Cambridge 6.10P.7 | Bird and mammal higher tier Tier3 Solutions GmbH, Germany Environmental Assessments, United Kingdom risk assessments: The appropriate use the ‘PT consumer only approach’ | Alex 6.10P.12 | Residues on flying insects for 6.10P. 3 | The use of video recording Blakey, Syngenta, United Kingdom bat risk assessment | Arnd Weyers, Bayer in order to collect data for higher-tier AG – Crop Science Division, Germany wildlife risk assessments under realistic 6.10P.9 | Long-term effects of spinosad conditions in the field| Olaf Fuelling, on the Common vole (Microtus arvalis) Tier3 Solutions GmbH, Germany on grassland as surrogate crop | Olaf Fuelling, Tier3 Solutions GmbH, Germany
6.11 – Challenges in the Future of Higher Tier Aquatic Studies in Regulatory Risk Assessment
Poster 6.11P.2 | A mesocosm approach to 6.11P. 3 | New approaches to testing quantifying the impact of plastic acute toxic effects on natural plankton 6.11P.1 | Combined effects of degradation on freshwater ecosystems | and soil communities | Tido Strauss, psychoactive drug, fluoxetine Berte Mekonen Belay, Netherlands Institute gaiac Research Institute, Germany hydrochloride and microplastics on of Ecology (NIOO-KNAW), Netherlands the aquatic ecosystems over a chronic 6.11P.4 | Lack of Latent Effects to exposure: A limnotron study | Nandini Daphnia magna From Exposure to Vasantha Raman, Netherlands Institute Chlorantraniliprole | Alex Blakey, of Ecology (NIOO-KNAW), Netherlands Syngenta, United Kingdom
6.12 – Evidence-Informed Policymaking and Stakeholder Engagement on Environmental Management in Africa
Chairs: Temitope Olawunmi Sogbanmu, Beatrice Opeolu, Annegaaike Leopold
Poster 6.12P.2 | Demystifying Indigenous Knowledge for Freshwater Governance 6.12P.1 | Investigating the Capacity for Policy | Marian Amu-Mensah, CSIR Science Advice and Utilisation of Scientific Water Research Institute Ghana, Ghana Evidence for Environmental Policymaking In Nigeria: A Case Study | Temitope Sogbanmu, University of Lagos, Nigeria
Track 7: Think-Outside-the-Box (Fundamentally New Concepts, Innovative/Controversial Ideas, Interdisciplinary Issues
7.01 – Addressing the Challenges of Applying New Approaches Supporting Chemical Safety Assessment and Regulatory Decision Making
Chairs: Geoffrey Hodges, Paul Thomas, Chih Lai, Thomas Henry Miller
Session Discussion: Tuesday 5 May | 15:00 – 15:45 UTC
Platform 7.01.5 | Automated feature Poster recognition in zebrafish embryos| 7.01.1 | Grouping and read-across under 7.01P.1 | Recent updates to the MechoA Stefan Scholz, Helmholtz Centre for REACH: principles, shortcomings and scheme, a tool to support mechanistically- Environmental Research, Germany positive examples | Alessandra Pirovano, driven read-across approaches. | European Chemicals Agency (ECHA), Finland 7.01.6 | Poster spotlight: Recent Franklin Bauer, KREATiS, France updates to the MechoA scheme, 7.01.2 | Machine Learning Algorithms 7.01P.2 | The development of a Molecular a tool to support mechanistically- in Risk Assessment – Predictions Initiating Event (MIE) based profiler driven read-across approaches. | and Understanding | Timothy Allen, for chemical classification and read- Franklin Bauer, KREATiS, France University of Cambridge, United Kingdom across | David Ebbrell, Liverpool John 7.01.7 | Poster spotlight: The development Moores University, United Kingdom 7.01.3 | Predicting key events and key of a Molecular Initiating Event (MIE) based event relationships – a knowledge based 7.01P. 3 | Application of a Chemical profiler for chemical classification and deep learning approach | Stefan Kraemer, Similarity Methodology to Identify read-across | David Ebbrell, Liverpool Helmholtz Centre for Environmental and Assess Groups of Substances John Moores University, United Kingdom Research – UFZ GmbH, Germany of Potential Very High Concern 7.01.8 | Poster spotlight: Training a (SVHC) | Pim Wassenaar, National 7.01.4 | Development of Adverse Outcome molecular dissimilarity measure for Institute for Public Health and the Pathway based on ToxCast! and deep target specific activities| Carlos Garcia- Environment (RIVM), Netherlands learning models combined approach” | Hernandez, Universitat Rovira i Virgili, Spain Jinhee Choi, University of Seoul, South Korea 92 scicon.setac.org 7.01P.4 | Training a molecular dissimilarity measure for target specific activities | Carlos Garcia-Hernandez, Universitat Rovira i Virgili, Spain
7.02 – Exploring the Potential of Wastewater-based Epidemiology to Monitor Human Exposure to Pollutants and Public Health
Chairs: Sara Castiglioni, Barbara Kasprzyk-Hordern
Session Discussion: Wednesday 6 May | 15:00 – 15:45 UTC
Platform Poster 7.02P.6 | Wastewater fingerprinting for public health assessment: Proteomic 7.02.1 | Do we know how to best 7.02P.2 | ESAR-Net: a collaborative effort approach | Kishore Kumar Jagadeesan, develop new wastewater-based to expand the application of wastewater University of Bath, United Kingdom epidemiology applications? | Sara epidemiology in Spain | Lubertus Castiglioni, Mario Negri Inst., Italy Bijlsma, University Jaume I, Spain 7.02P.8 | Strengths of correlation between aquatic predictors and 7.02.2 | Assessment of the Spanish 7.02P.3 | Biomonitoring of human exposure disinfection byproducts formation in population exposure to phthalate to pesticides through wastewater analysis | chlorinated water | Bhuvaneshwari M, plasticizers as obtained by Lubertus Bijlsma, University Jaume I, Spain Agriculture Research Organization, Israel wastewater-based epidemiology | 7.02P.4 | Chemical fingerprint of José Benito Quintana, University of 7.02P.9 | Wastewater-Based Epidemiology alcohol and nicotine consumption Santiago de Compostela, Spain for Monitoring Community derived in Spanish wastewaters | Ester Antibiotics and Resistant Genes | Natalie 7.02.3 | Estimation of community- López-García, IDAEA-CSIC, Spain Sims, University of Bath, United Kingdom wide exposure to chemicals via water 7.02P.5 | Monitoring Infectious Diseases fingerprinting and high resolution in Near-Real-Time for Rapid Outbreak tandem quadrupole time-of-flight mass Response | James Boxall-Clasby, spectrometry | Barbara Kasprzyk- University of Bath, United Kingdom Hordern, University of Bath, United Kingdom
7.03 – Future Risks of Chemicals
Chairs: Paul van den Brink, Annemarie van Wezel
Session Discussion: Monday 4 May | 17:00 – 17:30 UTC
Poster 7.03P.4 | Freshwater rivers in the 7.03PC.2 | Long-term sub-surface irrigation 21st century: an uncertain fate for with sewage effluent: Trends in time, 7.03P.1 | Modelling the interaction between chemical contaminants? | Taylor Lane, depth and space of micro-pollutants climate change and chemical effects at University of York, United Kingdom disclosed by non-target screening | different levels of biological organization – Dominique Narain-Ford, Institute for a PhD proposal | Annika Mangold-Döring, 7.03P.5 | Predicting environmental risks Biodiversity and Ecosystem Dynamics, Wageningen University & Research, Germany of pharmaceuticals in Norwegian surface University of Amsterdam, Netherlands water | Samuel Welch, Norwegian Institute 7.03P.2 | Development of scenarios for Water Research (NIVA), Norway 7.03PC.3 | Probabilistic risk assessment for future emissions of chemicals of pesticides under future scenarios: from agricultural, industrial and urban Poster Corner A Bayesian Network approach | systems | Poornima Nagesh, Copernicus Sophie Mentzel, NIVA – Norwegian Institute – Utrecht University, Netherlands 7.03PC.1 | ECORISK2050: Emission, fate, effects and risks of chemicals in Institute for Water Research, Norway 7.03P.3 | Precision agriculture techniques: aquatic ecosystems under global change an opportunity to revolutionize the use | Samuel Welch, Norwegian Institute of plant protection products | Joanna for Water Research (NIVA), Norway Davies, Syngenta, United Kingdom
7.04 – The Use of Citizen Science in Environmental Toxicology and Chemistry
Chairs: Kristian Syberg
Poster 7.04P. 3 | Plastic Pollution Perceptions and Behaviour – A study on Danish pupils before 7.04P.1 | The “Mass experiment” – A and after the “Mass Experiment” | Kristian citizen science project regarding Syberg, Roskilde University, Denmark plastic pollution | Kristian Syberg, Roskilde University, Denmark
7.04P.2 | Fishing for Litter While Sailing: Blackfish Citizen Science Samples Contribute to Plastic Pollution Inventory | Ana I Catarino, Flanders Marine Institute, Belgium
SETAC Europe 30th Annual Meeting - SETAC SciCon 93 Track 8: Special Sessions
8.01 – From Ecology to Land Management via Regulation to Protect Biodiversity in Agricultural Landscapes
Chairs: Anne Alix, Katja Knauer, Lorraine Maltby
Session Discussion: Tuesday 5 May | 13:45-14:30 UTC
Platform 8.01.5 | A farmer’s perspective 8.01.8 | Ecosystem services and on biodiversity | Andrew Bergin, biodiversity; towards a holistic approach 8.01.1 | FAO’s Engagement in the Post- Regenerative Farmer, Ireland to risk assessment | Lorraine Maltby, The 2020 Global Biodiversity Framework: University of Sheffield, United Kingdom” Mainstreaming Biodiversity Across 8.01.6 | Case study on pesticides: Agricultural Sector | Paulo Augusto generating data to assess effects and risks Lourenço Dias Nunes , FAO, Italy to biodiversity through a risk assessment | Virginie Ducrot, Bayer Ag, Germany 8.01.4 | Measuring biodiversity status – national action taken to protect 8.01.7 | Case study on pesticides: Risk biodiversity in the agricultural landscape mitigation measures to protect biodiversity in Switzerland | Katja Knauer, Federal from side effects of pesticides| Anne Office for Agriculture, Switzerland Alix, Corteva Agrisciences, United Kingdom
8.02 – Gender and other Forms of Bias. How Do We Achieve Diversity and Equal Opportunity in Scientific Research?
Chairs: Leonie Nuesser, David MV Saunders, Lorraine Maltby, Charmaine Ajao
Session Discussion: Wednesday 6 May | 15:45-16:30 UTC
Platform
8.02.3 | The SETAC award for scientists returning to research after a maternity break | Michelle Bloor, Scotlands Rural College, United Kingdom
8.03 – Open Science in Regulatory Environmental Risk Assessment
Chairs: Theo C.M. Brock, Peter Dohmen, Jane Richardson
Session Discussion: Tuesday 5 May | 15:00 – 15:45 UTC
Platform 8.03.4 | Problem formulation enhances 8.03.8 | The application of Open the transparency of regulatory Science and FAIR principles to 8.03.1 | Introduction | Theo C.M. environmental risk assessments | improve transparency in scientific Brock, Wageningen Environmental Joerg Romeis, Agroscope, Switzerland advice used for policy decisions | Research, Netherlands Jane Richardson, EFSA, Italy 8.03.5 | Reliability of data from open data 8.03.2 | Open Science in Regulatory sources in the context of regulatory ERA | 8.03.9 | Use of Open data in decision Environmental Risk Assessment: An Caroline Moermond, RIVM, Netherlands making | Charmaine Ajao, ECHA- Overview | Kevin Elliott, Michigan European Chemicals Agency, Finland State University, United States 8.03.6 | The weight of evidence approach within the context of regulatory 8.03.10 | Are all data equal or 8.03.3 | SETAC perspectives to Open ecotoxicological risk assessment and are some data more equal than Science – past, current and future activities the open science movement | Keith others? | Anja Gladbach, Bayer AG, to make it an integral part of environmental Solomon, University of Guelph, Canada Crop Science Division, Germany research | Thomas-Benjamin Seiler, RWTH Aachen University, Germany 8.03.7 | New EU Transparency Regulation | Alexandra Tuijtelaars, European Commission – DG Health and Food Safety, Belgium
8.04 – Your Science or My Science? How Is the Way We Frame our Research Impacted by Values? A Multi-perspective Look at the Impact Organic UV Filters in Sunscreen Products Have on Coral Bleeching
Chairs: Annegaaike Leopold, Charmaine Ajao, Thomas-Benjamin Seiler, Gunilla Oberg
Session Discussion: Tuesday 5 May | 15:45-16:30 UTC
Platform 8.04.3 | Environmental risk assessment 8.04.5 | A regulators perspective of organic UV filters in sunscreen on the regulation of UV filters in the 8.04.1 | The role of value judgements products and the disconnect between environment | Charmaine Ajao, ECHA- in scientific research| Gunilla Oberg, quality and quantity of science | European Chemicals Agency, Finland University of British Columbia, Canada Marc Leonard, LOREAL, France 8.04.6 | The impacts of UV filters 8.04.2 | The concentration of UV filters 8.04.4 | Development of a Global on corals compared to other around coral reefs and in reef organisms | Framework to Assess the Environmental stressors | Nicolas Imbert, Green Carys Mitchelmore, UMCES, United States Risk of UV Filters to Coral | Iain Davies, Cross France et Territoires, France Personal Care Products Council, United States
94 twitter.com/SETAC_World #SETACSciCon facebook.com/setacworld #SETACSciCon 95 Exhibition
Exhibitors Exhibitors
Agilent IES Ltd
Agrochemex Mambo-Tox
Arche Consulting Microbiotests
Bayer NCEC (part of Ricardo)
Biotage AB Norwegian Institute for Water Research (NIVA)
Blue Frog Scientific Perkin Elmer
Cambridge Environmental Assessments Shimadzu Europa GmbH
CEHTRA Smithers
Charles River STAPHYT Incorporating APC
Covance Thermo Fisher Scientific
ECHA (European Chemicals Agency) ToxRat
ERM VIEWPOINT BEHAVIOR TECHNOLOGY
Fera
SETAC Europe Partners and Affiliates SETAC Global Meeting Sponsor
Earn Points and Win in the Exhibit Hall! Monday through midnight UTC on Wednesday The first virtual SETAC exhibit hall is not only a place to learn about the latest technologies and connect with vendors, it’s also a place to have some fun and win big prizes. Plus, the more you engage, the higher your chance of winning a major prize. Point System Prizes • 20 points for each time you visit an exhibition Based on total points earned for the top three: • 30 points when you download a document at a booth • Free registration for the SETAC Europe 31st Annual • 50 points for watching a video Meeting (2–6 May 2021 in Seville, Spain) • Free training course registration for the SETAC Europe • 100 points for every interaction with a booth 31st Annual Meeting representative via video or text chat • Free SETAC membership for one year For each 100 points, participants will receive a raffle ticket. The more raffle tickets, the higher the chance at winning one of the additional prizes. From PFAS to Microplastics: Protecting Our Natural Resources To ensure the safety of our world’s precious resources, you must understand precisely what may be damaging Read more about Agilent’s them. At Agilent, we share your commitment to ensuring the safety of our water, air, and soil. That’s why we environmental solutions offer the widest range of analytical solutions to deliver insights that can help you protect the environment and https://www.agilent.com/en/ minimize your laboratory operating costs. solutions/environmental Join us at SETAC 2020, booth # 13 & 14 and register for our SETAC Environmental Analysis Workshop on Tuesday 5th May at 12:25pm to hear from experts on how Agilent is helping to tackle todays emerging pollutants.
© Agilent Technologies, Inc. 2020
BIOCIDES PLANT Biocidal Product Family PROTECTION Consortia PRODUCTS Product Assessment Report (PAR) Active substance and product renewals National addenda REACH FOCUS/workers/ consumer exposure modelling and higher Applications for Authorisation tier risk assessments SEA /CSA CHESAR/IUCLID
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* Regulatory submission documents on our GM seeds which have been assessed by the United States Department of Agriculture and the Food and Drug Administration. Please note these documents are for non-commercial use only.
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Terrestrial Ecotoxicology Specialist A GLP-compliant CRO, specialising in terrestrial Stefan Peter Thomas Arno Peter ecotoxicological studies, offering a Höger Hvorslev Schmidt Wess Crick comprehensive range of services for evaluating Platform Booth Rep Posters Posters Poster Corner the effects of pesticides. Studies are carried out Presentation 4.06P.9 4.07P.19 4.16PC.1 following internationally-accepted guidelines 2.01.2 4.13P.3 4.09P.18 under laboratory, aged-residue, semi-field or 2.02P.1 field conditions. Studies utilise precision sprayers and extensive controlled-environment facilities. We look forward to speaking with you! IES conducts environmental and analytical Services For more information please • Non Target Arthropods contact: studies on agrochemicals, biocides, Stephen Vinall • Soil Invertebrates pharmaceuticals and chemicals. General Manager • Pollinators [email protected] Meet us at our virtual booth or contact us: • Specialist Projects and +44 (0)23 8076 2582 Dr Stefan Höger: [email protected] Studies www.mambo-tox.co.uk Mr Peter Hvorslev: [email protected] [email protected] | www.ies-ltd.ch
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103 Statistical Evaluation S U I T A B L E F O R M A N Y of Biotests S P E C I E S Software l Service l Support P I O N E E R I N T O O L S T O A S S E S S B E H A V I O R O N D I F F E R E N T S P E C I E S F O R E C OO T TO OX IX C IO C L O GL DO F G F DI CF FA S L D Y& E N V I R O N M E N T A L T O X I C O L O G Y
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ToxMate Lab To monitor behavior up ToxRat Solutions to 48 animals of 3 different species GmbH Co. KG exposed to a continuous Naheweg 15 flow of water 52477 Alsdorf Phenomix Germany High Throughput Phenotyping & Automated Greenhouse Phone +49 2404 67 67 67 Fax +49 2404 8 26 69 E-mail [email protected] www.toxrat.com WWW.VIEWPOINT.FR WWW.BLOG.VIEWPOINT.FR [email protected] Significantly different +33 4 72 17 91 92
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See youSETAC at EUROPE next 31 STyear ANNUAL s MEETING exhibiton!
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104 Participants Index
Amirbekov, Aday, TUL, Czech Azam, Philippe, SOLVAY, France Beggel, Sebastian, TU Munich, Republic Azevedo, Ana, Reglatory Affairs, Germany A Amu-Mensah, Marian, CSIR Water Netherlands Beggio, Giovanni, University of Research Institute, Ghana Padova, Italy Aarønes, Malin Røyset, University of Oslo, Norway Ancona, Valeria, CNR-IRSA, Italy Bejarano, Adriana, Shell Oil Company, United States Abboud, Mariam, UFZ - Leipzig, Anderson, Hannah, Marine B Germany Scotland Science, Scotland Belanger, Scott, Procter & Gamble, United States Abdou, Melina, University of Andersson Stavridis, Malin, Babich, Remy, University of Maine, Geneva, Switzerland University of Gothenburg, Sweden United States Belhaj, Faten, Veolia, France Abeynayaka, Amila, Tokyo City Andres, Sandrine, INERIS, France Bach, Mareike, SGS Institut Belkhiria, Sami, Dow Silicones Univeristy, Japan Andrews, Steven, CSI Europe, Fresenius, Germany Belgium sprl, Belgium Abreu, Fiamma, FURG, Brazil United Kingdom Backhaus, Thomas, Uni Beloin-Saint-Pierre, Didier, Empa, Gothenburg, Sweden Switzerland Adam, Veronique, Empa, Andvik, Clare, University of Oslo, Switzerland Norway Badder, Claire, UKCEH, United Beltman, Wim, WENR Wageningen Kingdom UR, Netherlands Adamovsky, Ondrej, Masaryk Angel, Brad, CSIRO, Australia University, Czech Republic Angelis, Paolo, University of Tuscia, Bagwell, Sarah, The National Beltran, Estelle, CEHTRA, France Chemical Emergency Centre (NCEC), Adams, William, Rio Tinto, United Italy Ben Mordechay, Evyatar, Hebrew United Kingdom States Angouria-Tsorochidou, Elisavet, University, Israel Baik, Seungyun, KIST Europe, Adams, Elena, University Koblenz- Aarhus University, Denmark Benali, Imene, University of Germany Landau, Germany Antczak, Philipp, University of Sciences and, Algeria Baird, Donald, Environment Addy Orduna, Laura, INTA, Cologne, Germany Benayache, Naila Yasmine, Canada, Canada Argentina Anumol, Tarun, Agilent Université de Constantine1, Algeria Baken, Stijn, European Copper Adeleke, Solomon Babatunde, Technologies, United States Benedet de Santo, Fernanda, Institute, Belgium University of Saskatchewan, Apitz, Sabine, SEA Environmental University of Coimbra, Portugal Canada Decision, United Kingdom Bakker, Ruben, VU Amsterdam, Benner, Lena, RWTH Aachen, Netherlands Adrianto, Lugas Raka, ETH Zurich, Archer, Edward, Stellenbosch Germany Switzerland University, South Africa Bala, Alba, UNESCO Chair in Life Benson, Victoria, Penman Cycle, Spain Aguilar Vitorino, Hector, UJCM - Arenzon, Alexandre, UFRGS / Consulting, United Kingdom UNI, Peru ECOTOX BRASIL, Brazil Bandow, Nicole, UBA, Germany Beretsou, Vasiliki G., University of Aguirre Martinez, Gabriela, Arias-Estevez, Manuel, University Barata, Carlos, IDAEA-CSIC, Spain Cyprus, Cyprus Universidad Arturo Prat, Chile of Vigo, Spain Barbarin, Marine, La Rochelle Bergen, Tamara Joanna Helena Ahuchaogu, Chinedu, Univ. of MD Armes, Helen, Royal Society of University, France Maria, Radboud University, Eastern Shore, United States Chemistry, United Kingdom Barbieri, Maria Vittoria, IDAEA- Netherlands Ajao, Charmaine, ECHA, Finland Arnot, Jon, ARC, Canada CSIC, Spain Bergmann, Alan, Ecotox Centre, Switzerland Akkanen, Jarkko, University of Arp, Hans Peter, NGI / NTNU, Barbosa, João, Ghent University, Eastern, Finland Norway Belgium Bergström, Ulrika, Swedish Medical Products Agency, Sweden Alcántara, José Carlos, IRNAS, Arriola, Aline, Akvaplan-niva, Barra, Ricardo O., University of Spain Norway Concepción, Chile Bermejo-Nogales, Azucena, INIA, Spain Alcaraz, Alper James, Toxicology Arslan, Pinar, Ankara University, Barra Caracciolo, Anna, IRSA-CNR, Centre, University of Saskatchewan, Turkey Italy Bernegossi, Aline, University of Canada Artigas, Joan, UCA, France Barranger, Audrey, CNRS - Ecobio São paulo, Brazil AlChahir Bel Hajjar, Carla, Arts, Gertie, Wageningen University Lab, France Berny, Philippe, Vetagro Sup - Polytechnique de Montreal, Canada and Research, Netherlands Barrett, Elin, Unilever - SEAC, Toxicology, France Aldenberg, Tom, RIVM, Ashauer, Roman, Syngenta, United Kingdom Bertin, julien, SGS France, France Netherlands Switzerland Barritaud, Lauriane, Veolia R&I, Bertin, Delphine, SEPPIC, France Aldrich, Annette, Agroscope, Asmonaite, Giedre, University of France Bertram, Michael, SLU, Sweden Switzerland Gothenburg, Sweden Barron, Leon, King’s College Bettinger, Nancy, MassDEP Office Aleiferi, Eleni, National and Asselin, Anne, Sayari, France London, United Kingdom of Research and Standards, United Kapodistrian University of Athens, Asselman, Jana, Ghent University Barsi, Alpar, Ctgb, Netherlands States Greece (UGent), Belgium Bart, Sylvain, University of York/ UK Bielská, Lucie, RECETOX, Masaryk Alejandre, Elizabeth, Leiden Astaykina, Angelika, Lomonosov CEH, United Kingdom Uni, Czech Republic University, Netherlands MSU, Russia Bartelt-Hunt, Shannon, University Bienfait, André Marcel, IMR, Alix, Anne, Corteva Agriscience, Athey, Samantha, University of of Nebraska, United States Norway United Kingdom Toronto, Canada Bartonitz, Astrid, TUM, Germany Bighiu, Maria, SLU, Sweden Al-jaibachi, Rana, university of Audouze, Karine, Université de Basili, Danilo, University of Bijlsma, Lubertus, University Reading, United Kingdom Paris, France Cambridge, United Kingdom Jaume I, Spain Allen, Timothy, University of Augusto, Sofia, ISPUP-University of Basopo, Norah, National University Binner, Hannah, UCC, School of Cambridge, United Kingdom Porto, Portugal of Science and Technology, BEES, Ireland Allendorf, Flora, UFZ, Germany Aurisano, Nicolo, DTU, Denmark Zimbabwe Bird, Michael, Syngenta, United Almeida, Ana Rita, University of Austin, Thomas, RB, United Bauer, Franklin, KREATiS, France Kingdom Aveiro, Portugal Kingdom Baumann, Lisa, University of Birkitt, Lucy, King’s College London, Almeida, Ana, NIVA, Norway Autret, Erwan, ADEME, France Heidelberg, Germany United Kingdom Altmann, Korinna, BAM, Germany Avadi, Angel, CIRAD, France Baumann, Stephan, Agilent, United Bishop, Christine, ENVIRONMENT States CANADA, Canada Altuna, Ane, Biobide, Spain Aviles, Amandine, University of Alvarez, Tania, Syngenta, United Southern Denmark, Denmark Baynes, Alice, Brunel University Bitsch, Nikola, Celanese, Germany London, United Kingdom Kingdom Awkerman, Jill, US Environmental Bitter, Kristina, RWTH Aachen Alvarez, Joyce, UPPA, France Protection Agency, United States Beauvais, Rébecca, Centre Ecotox, University, Germany Switzerland Alvarez Ruiz, Rodrigo, Univeristy of Awonaike, Boluwatife, University Blaha, Ludek, RECETOX Masaryk Valencia, Spain of Toronto, Canada Bednarska, Agnieszka, Polish University, Czech Republic Academy of Sciences, Poland Amariel, Georgiana, University of Axelman, Johan, Swedish Blahova, Lucie, RECETOX Masaryk Alcala (UAH), Spain Chemicals Agency, Sweden Beel, Georgia, University of York/ University, Czech Republic CEH, United Kingdom Amato, Elvio, University of Ayobahan, Steve, Fraunhofer IME, Blake, Robin, CSI Europe, United Antwerp, Belgium Germany Kingdom SETAC Europe 30th Annual Meeting - SETAC SciCon 105 Blakey, Alex, Syngenta, United Braud, Lea, University College Cappucci, Grazia Maria, University Christen, Verena, FHNW, Kingdom Dublin, Ireland of Modena and R, Italy Switzerland Blanc, Melanie, Örebro University, Brauer, Michael, Exponent Carere, Mario, ISS, Italy Christl, Heino, tier3-solutions Sweden International Ltd, Switzerland Carles, Louis, Eawag, Switzerland GmbH, Germany Blanchard, Darian, Syngenta Bravo, Barbara, ThermoFisher Carolan, Jim, Maynooth University, Cirpus, Petra, BASF SE, Germany Canada, Canada Scientific, Ireland Ireland Cizdziel, James, University of Blanco, Carlos, Leiden University, Brinkmann, Bregje, Leiden Carpentier, Patrice, Anses, France Mississippi, United States Netherlands University, Netherlands Carrao, Andrea, Kao USA, United Clasen, Barbara, Universidade Blanco-Rubio, Maria, UNILEVER, Brock, Theo C.M., Wageningen States Estadual do Rio Grande do Sul, United Kingdom Environmental Research, Carrasco Navarro, Victor, U. of Brazil Blasco, Julian, ICMAN-CSIC, Spain Netherlands Eastern Finland, Finland Clenaghan, Conor, European Blatz, Donovan, US EPA -ORISE, Brooks, Amy, CEA, United Kingdom Carvalho, Aline, Toulouse Chemicals Agency, Finland United States Brown, Andrew Ross, University of University - CNRS, France Coady, Katherine, Dow, United Blom, Judith, Agroscope, Exeter, United Kingdom Casini, Silvia, University of Siena, States Switzerland Brown, David M, Ricardo, United Italy Collison, Elizabeth, STAPHYT, Bloor, Michelle, SRUC, United Kingdom Castaldo, Giovanni, UAntwerp United Kingdom Kingdom Brumhard, Bjoern Dr., Syngenta (SPHERE), Belgium Connors, Kristin, The Procter & Blume, Nick, TU Clausthal, Agro GmbH, Germany Castelan, Guy, PlasticsEurope, Gamble Compa, United States Germany Brun Hansen, Anna Magdalene, France Constantine, Lisa, Pfizer, United Bockstaller, Christian, INRAE LAE, Aarhus Universitet, Denmark Castiglioni, Sara, Istituto Mario States France Brunning, Hattie, University of Negri, Italy Conway, Annaleise, Chesapeake Bode, Gina, RWTH Aachen, York, United Kingdom Castle, Denise, Julius-Kuehn- Biological Laboratory, United States Germany Bruns, Eric, Bayer AG, Germany Institute, Germany Cooper, Christopher, IZA, Belgium Bodle, Eric, Eurofins Agroscience, Buddendorf, Bas, Wageningen UR, Castro, Mafalda, ACES-Stockholm Coppola, Francesca, University of United States Netherlands University, Sweden Aveiro, Portugal Bøe, Susanne, University of Budin, Clémence, BioDetection Catarino, Ana I, Flanders Marine Cornelis, Geert, Swedish University Stavanger, Norway Systems, Netherlands Institute, Belgium of Agricultural Sciences (SLU), Boehmer, Thomas, EVONIK Bulle, Cecile, CIRAIG-UQAM, Catherine, arnaud, Europan Sweden Nutrition & Care, Germany Canada Chemicals Agency, Finland Costa, Daniele, CESAM/University Böhm, Paul, RWTH Aachen, Bundschuh, Mirco, iES Landau, Catteau, Audrey, University of of Aveiro, Portugal Germany Germany Reims (URCA), France Costa, Tamiris, University of Aveiro, Bollinger, Eric, iES, Landau, Burdon, Francis, Dept. Aquatic Cedergreen, Nina, University of Portugal Germany Science, SLU, Sweden Copenhagen, Denmark Coulson, Mike, ERM Regulatory Bolonio, David, Universidad Burkard, Michael, Eawag, Celma Tirado, Alberto, University Services, United Kingdom Politécnica de Madrid, Spain Switzerland Jaume I, Spain Cousins, Ian, Stockholm University, Bondarenko, Liubov, Russia, Burns, Emily, PCPC, United States Celsie, Alena, Trent University, Sweden Russia Burton, G. Allen, Univ of Michigan, Canada Cova, Miriam Carolina, CSIC-IDAEA, Bonet, Berta, University of United States Cerkvenik Flajs, Vesna, University Spain Birmingham, United Kingdom Bury, Nicolas, University of Suffolk, of Ljubljana, Slovenia Cracco, MICHELE, University of Bonnell, Mark, Environment United Kingdom Cernik, Miroslav, Tech Uni of Padova, Italy Canada, Canada Byers, Harry, ANSES, France Liberec, Czech Republic Cravo-Laureau, Cristiana, Pau Bonvallot, Nathalie, EHESP IRSET, Byns, Cara, UAntwerp - SPHERE, Cesarini, Giulia, Roma Tre University, France France Belgium University, Italy Crawford, Sarah, Goethe Uni Book, Frida, M.Sc., Sweden Bystricky, Maria, Agroscope, Cesynaite, Jurate, Vytautas Magnus Frankfurt, Germany Booth, Andy, SINTEF Ocean, Switzerland university, Lithuania Crenna, Eleonora, Empa, Norway Cha, Hyeonjeon, Gwangju Institute Switzerland Borchert, Flora, Stockholm of Science and Technology, Korea, Creusot, Nicolas, INRAE, France University, Sweden C South Crick, Peter, IES Ltd., Switzerland Borchgrevink, Harald, NIVA, Chabas, Camille, CIRAIG UQAM, Cronin, Mark, Liverpool John Norway Cabrerizo, Ana, Environment Canada Moores Uni, United Kingdom Borga, Katrine, University of Oslo, Canada, Canada Chaker, Jade, EHESP - IRSET, France Cros, Daniel, Laboratoire PAREVA, Norway Cai, Yaping, Empa, Switzerland Chand, Rupa, Aalborg University, France Boskovic, Nikola, RECETOX, Czech Cajaraville, Miren P., University Denmark Cross, Richard, UK-CEH, United Republic Basque Country, Basque Country, Charles, Sandrine, University of Kingdom Bosveld, Bart, Setac Europe vzw, Spain Lyon, France Cucurachi, Stefano, CML - Leiden Belgium Caliani, Ilaria, University of Siena, Charpentier Poncelet, Alexandre, University, Netherlands Boualit, Laurent, University of Italy University of Bordeaux/ISM, France Cullen, Merissa, Maynooth Lausanne, Switzerland Callow, Helen, ETC Editorial Office, Châtillon, Elise, Pau University University, Ireland Bouillass, Ghada, MINES United States IPREM, France Curtis-Jackson, Pippa, Environment PARISTECH (PSL), France Calviño, David, University of Vigo, Chefetz, Benny, Hebrew University, Agency, United Kingdom Boullemant, Amiel, Rio Tinto Spain Israel Closure, France Camenzuli, Louise, ExxonMobil, Chen, Wenlin, Syngenta CP, LLC, Bour, Agathe, University of Belgium United States D Gothenburg, Sweden Caminada, Suzete, Universidade Chen, Yuhao, University of Toronto, Bourgeois, Marie, USF COPH, de São Paulo, Brazil Canada Da Silva, Vitor Hugo, Aarhus United States Campanale, Claudia, CNR-IRSA, Chetwynd, Andrew, University of University, Denmark Boxall, Alistair, University of York, Italy Birmingham, United Kingdom Dai, Wencai, Aarhus University, United Kingdom Campos, Bruno, Unilever, United Chèvre, Nathalie, University of Denmark Boxall-Clasby, James, University of Kingdom Lausanne, Switzerland Dainty, Tim, Smithers Viscient, Bath, United Kingdom Cañas, Martha Susana, UNCA, Chion, Béatrice, ARKEMA France, United Kingdom Bracquene, Ellen, KU Leuven, Argentina France Dalkmann, Philipp, Bayer AG - Belgium Candolfi, Marco, Eurofins Ecotox, Chiudioni, Filippo, Istituto Crop Science Division, Germany Brami, Claire, Phytorestore, France Germany Superiore di Sani, Italy Damalas, Dimitrios, University of Bramke, Irene, AstraZeneca, Cantero, Inma, LEITAT, Spain Chmielinska, Katarzyna, Aarhus Athens, Greece Netherlands Cantu, Mark, Simon Fraser University, Denmark Damasceno, Luis, Bayer Brandsma, Sicco, VU Amsterdam, University, Canada Choi, Jinhee, University of Seoul, CropScience, Germany Netherlands Capolupo, Marco, University of Korea, South Damasceno, Évila, University of Branford, Philip, ADAMA, France Bologna, Italy Aveiro, Portugal
106 scicon.setac.org Damavandi, Fereshte, student, Dolar, Andraz, Biotehnical faculty, Epema, Onno, Rijkswaterstaat, Fischer, Jonas, UFT Bremen, Canada Slovenia Netherlands Germany Danby, Emma, Covance, United Dollacker, Annik, Bayer AG, Ericher, Fabienne, CEA, United Fitzgerald, Jennifer, EAWAG, Kingdom Germany Kingdom Switzerland Danopoulos, Evangelos, University Domercq, Maria del Prado, Eriksson, Ulrika, Örebro University, Fitzpatrick, Una, National of Hull, United Kingdom Stockholm University, ACES, Sweden Sweden Biodiversity Data Centre, Ireland Davenport, Russell, Newcastle Domínguez-Morueco, Noelia, Eriksson, Andreas, University of Flerlage, Hannah, University of University, United Kingdom ISCIII/CNSA, Spain Jyväskylä, Finland Amsterdam, Netherlands DAVID, Arthur, EHESP-Irset, France Dorn, Alexander, RWTH Aachen Ermler, Sibylle, Brunel University Fliege, Ralph, Bayer AG, Germany Davidson, Todd, Bristol-Myers University, Germany London, United Kingdom Flipkens, Gunter, UAntwerp - Squibb, United States Dowding, Alan, Food Standards Ernst, Gregor, Bayer AG, Germany SPHERE, Belgium Davies, Joanna, Syngenta, United Agency UK, United Kingdom Ertel, Bonnie, The Citadel, United Focks, Andreas, Wageningen Env. Kingdom Droge, Steven, UvA / Ctgb, States Research, Netherlands Davies, Iain, PCPC, United States Netherlands Erzgraeber, Beate, BASF SE, Foudoulakis, Manousos, Corteva Davison, Joshua, CEFAS, United Drost, Wiebke, Federal Germany Agrisciences, Greece Kingdom Environment Agency, Germany Eschenbach, Eva, Eurofins Francois, Cyrille, LVMT- De Baan, Laura, Agroscope, Du Pasquier, David, Watchfrog Regulatory, Germany PontsParistech, France Ecotoxicology, Switzerland S.A., France Escher, Beate, UFZ Leipzig/Uni Frattini, Stefano, ECHA, Finland De Baat, Milo, University of Dubrana, Leslie, University of Tübingen, Germany Freeman, Harold S., North Amsterdam, Netherlands Bordeaux, France Esdaile, David, Charles River Carolina State Unive, United States De Croze, Noémie, L’Oréal, France Dubrovina, Tatiana, RUDN Laboratories Hungary, Hungary Freire, Fausto, Univ. of Coimbra, De Felice, Beatrice, University of University, Russia Eshun, Albert, UNIVERSITY OF CAPE Portugal Milan, Italy Ducrot, Virginie, Bayer, Germany COAST, Ghana Freitas, Fabiana, CESAM, UA, De Knecht, Joop, RIVM, DUFOUR, Vincent, UNIVERSITE DE Espeland, Chris Inge, UNIVERSITY Portugal Netherlands LORRAINE, France OF STAVANGER, Norway Fritz, Stephanie, Sumitomo De Lima Faria, João Marcos, Fed. Dumas, Thibaut, HydroSciences Esther, Alexandra, Julius Kuehn Chemical Agro Eur, France University of Goiás, Brazil Montpellier, France Institut, Germany Frost, Kali, Purdue University, De Oliveira, Julie, INERIS, France Duncan, Jennifer, Exponent, United Evariste, Lauris, CNRS UMR5245 United States De Schamphelaere, Karel, Ghent Kingdom Ecolab, France Frydryszak, Danuta, Jagiellonian University, Belgium Duran, Robert, Pau University, Everaert, Gert, Flanders Marine University, Poland De Valk, Elias, RIVM, Netherlands France Institute, Belgium Fu, Tingting, ISA, France De Wit, Cynthia, Stockholm Durham, Jeremy, Dow Chemcial, Fuelling, Olaf, tier3 solutions University, Sweden United States GmbH, Germany De Wolf, Watze, ECHA, Helsinki, Durou, Cyril, Cehtra, France F Finland Dziga, Dariusz, Jagiellonian Deacon, Samantha, Ramboll, University, Poland Faber, Daniel, Bayer AG, Germany G United Kingdom Fajana, Hamzat, University of Dean, Aleksandra, Smithers, Saskatchewan, Canada Gabbert, Silke, Wageningen United States E Falk, Sarah, Osnabrück University, University, Netherlands Debarre, Laura, CIRAIG, Canada Germany Gabriel, Antonieta, University of DEFTEREOS, NIKOLAOS, EYDAP Eagles, Emily, University of Farre, Marinella, IDAEA-CSIC, Spain Aveiro, Portugal SA, Greece Plymouth, United Kingdom Fatta-Kassinos, Despo, Nireas- Gaffney, Bella, University of York, Deich, Carina, IOW, Germany Eastabrook, Chloe, Newcastle IWRC, UCY, Cyprus United Kingdom University/NIVA, United Kingdom Deleebeeck, Nele, Arcadis, Belgium Faucon, Jean-Christophe, ANMV, Gala, William, Chevron, United Ebbrell, David, LJMU, United France States DeLeo, Paul, Integral Consulting, Kingdom Inc., United States Faupel, Michael, Rifcon GmbH, Galceran, Josep, Univ. Lleida, Spain Ebke, Klaus Peter, Mesocosm Germany Dell’Ambrogio, Gilda, Ecotox Gan, Jay, UC Riverside, United GmbH, Germany Centre, Switzerland Faz Cano, Angel, Universidad States Eckelmann, Dennis, Bayer AG, Politecnica de, Spain Delli Compagni, Riccardo, Gao, Zhenglei, Bayer AG, Germany Germany Politecnico di Milano, Italy Feckler, Alexander, University Garaguso, Ignazio, PerkinElmer, Egeler, Philipp, ECT Koblenz-Landau, Germany Delouvrier, Eleonore, Sorbonne Germany Oekotoxikologie, Germany University, France Fedorova, Ganna, University of Garajayeva, Nargiz, BP, Azerbaijan Egsmose, Mark, EFSA, Italy South Bohemia in Ceske Budejovice, Den Haan, Klaas, ARES, Garbini, Gian Luigi, National Czech Republic Netherlands Ehiguese, Friday Ojie, University of Research Council, Italy Cadiz, Spain Fehlauer, Till, CEREGE, France Dennis, Nicole, Texas Tech Garcia, Jade, SCORE LCA, France University, United States Eijsackers, Herman, WUR and Felipe, Mayara, University of São Garcia, Angeles, UNED, Spain NWU, Netherlands Paulo, Brazil Dent, Matt, Unilever SEAC, United García, Isabel, CENUR Litoral Kingdom Elder, Felicity, University of Bath, Fenton, Suzanne, NTP Laboratory/ Norte, Uruguay United Kingdom NIEHS, United States Deportes, Isabelle, ademe, France Garcia-Fernandez, Antonio Juan, Ellerbrake, Katrin, Universität Fernandes, Teresa, Heriot-Watt Desmet, Cloé, E.C. Joint Research University of Murcia, Spain Osnabrück, Germany University, United Kingdom Centre, Italy Garcia-galan, Maria Jesus, UPC, Elliott, John, Environment Canada, Fernandez Astudillo, Miguel, 2.-0 Desrousseaux, Alizée, University of Spain Canada LCA, Denmark York, United Kingdom Garman, Emily, NiPERA, Inc., Elliott, Kevin, Michigan State Fernandez-Cruz, Maria Luisa, INIA, Devault, Damien A., CUFR, Mayotte United States University, United States Spain Devery, Rosaleen, DCU, Ireland Gauthier, Maxime, INRAE-UQAM, Ellis, Laura-Jayne, University of Fettweis, Andreas, KU Leuven, France Dewaele, Joost, Global Product Birmingham, United Kingdom Belgium Stewardship, Belgium GELBER, Clementine, TOTAL PERL, Embry, Michelle, HESI, United Fiack, Suzan, BfR, Germany Di Paolo, Carolina, Shell France States Finckh, Saskia, UFZ Leipzig, International, Netherlands Gentil, Céline, CIRAD, Martinique Engelhardt, Josefin, Stockholm Germany Diamond, Miriam, University of Georgantzopoulou, Anastasia, University ACES, Sweden Finger, Nina, Eurofins Agroscience Toronto, Canada NIVA, Norway Englert, Dominic, Rifcon GmbH, Servi, Germany Gepp, Barbara, UAS Technikum Diaz-Cruz, Silvia, CSIC-IDAEA, Spain Germany Firman, James, Liverpool JMU, Wien, Austria Ding, tianran, IGEAT, Belgium Enking, Jana, Leiden University, United Kingdom Gerbinet, Saïcha, ULiège, Belgium Do, Quyen, PhD Candidate, Japan Netherlands Fisch, Kathrin, IOW, Germany Gergs, Andre, Bayer AG, Germany Dodd, Matt, Royal Roads Enrici, Marie-Hélène, SOLVAY, Fischer, Dieter, Leibniz IPF Gerhards, Reinhard, GerConsult, Univiersity, Canada France Dresden, Germany Dohmen, Peter, BASF SE, Germany Germany
SETAC Europe 30th Annual Meeting - SETAC SciCon 107 Geurts, Marc, Nouryon, Green, Christopher, Defra, UK, Hands, Imogen, Dublin City Hollert, Henner, GoetheUniversity Netherlands United Kingdom University, Ireland Frankfurt, Germany Giesy, John, University of Green, Ashley, ETH Zurich & Häner, Andreas, F. Hoffmann-La Holton, Elizabeth, University of Saskatchewan, Canada Agroscope, Switzerland Roche Ltd, Switzerland Bath, United Kingdom Gilabert, Alejandra, IDAEA-CSIC, Grenni, Paola, CNR-IRSA, Italy Hanson, Mark, University of Homem, Vera, LEPABE-FEUP (Univ. Spain Griffiths, Megan, NCEC - Analyst Manitoba, Canada Porto), Portugal Gilbert, Joanne, Smithers ERS Consultant, United Kingdom Hansul, Simon, GhEnToxLab, Hommen, Udo, Fraunhofer IME, Limited, United Kingdom Griffiths, Tom, ERM, Ireland Belgium Germany Gillespie, Barry, ERM, United States Groen, Kevin, Institute of Harner, Tom, ECCC, Canada Hoondert, Renske, Radboud Gillies, Suzanne, Heriot-Watt Environmental, Netherlands Harpprecht, Carina, Leiden University, Netherlands University, United Kingdom Groh, Ksenia, Food Packaging University, Netherlands Hornek-Gausterer, Romana, Gimeno, Carmen, EUROFINS - Forum Foundation, Switzerland Harrington, Cameron, Syngenta Environment Agency Austria, TRIALCAMP, Spain Grønlund, Sara, Roskilde Canada, Canada Austria Gismondi, Eric, University of Liège, University, Denmark Harrison, Sam, UKCEH, United Houde, Magali, Environment Belgium Grønnestad, Randi, NTNU, Norway Kingdom Canada, Canada Gkotsis, Georgios, University of Gros, Meritxell, Institut Català de Hartmann, Alicia, King’s College Howick, Chris, Eurochlor/INOVYN, Athens, Greece Recerca, Spain London, United Kingdom United Kingdom Gladbach, Anja, Bayer AG, Grossi, Marina, RECETOX, MUNI, Havranek, Ivo, NMBU, Norway Hrabák, Pavel, TUL, Czech Republic Germany Czech Republic Hayes, April, University of Exeter, Huang, Anna, Wageningen Glassmeyer, Susan, US EPA, United Gruber, Fabian, AGES GesmbH, United Kingdom University, Netherlands States Austria Hazen, Terry, University of Hubesch, Bruno, Cefic LRI, Belgium Glogic, Edis, University of Grung, Merete, NIVA-Norw Inst. Tennessee, United States Hughes, Christopher, NCEC Bordeaux, France Water Res., Norway Hecker, Markus, University of (Ricardo), United Kingdom Gobas, Frank, Simon Fraser Guan, Hang, University of Bern, Saskatchewan, Canada Hullot, Olivier, INRAE, France University, Canada Switzerland Heger, Sebastian, RWTH Aachen, Hung, Hayley, Environment Godejohann, Matthias, MG Optical Guchok, Maria, Lomonosov MSU, Germany Canada, Canada Solutions GmbH, Germany Russia Heinemann, Oliver, Bayer AG, Huynh, Nina, LEESU, France Godlewska, Paulina, UMCS, Poland Guerrero, Tracy, GSC/SEHSC, Germany Hvorslev, Peter, IES Ltd, Godziek-Botor, Agnieszka, United States Heinze, Wiebke Mareile, SLU, Switzerland Lukasiewicz - IPO Pszczyna, Poland Guerrero-Limón, Gustavo, Sweden Golsteijn, Laura, PRé, Netherlands Université de Liège, Belgium Helias, Arnaud, ELSA - Itap-INRAE, Gomes, Tânia, NIVA, Norway Guest, Geoffrey, NRC Canada, France I Gomez, María, Universidad Canada Hellpointner, Eduard, Bayer Crop Nacional COL, Colombia Guhl, Barbara, LANUV NRW, Science, Germany Ibrahim Muazu, Rukayya, Gomiero, alessio, NORCE as, Germany Helmberger, Maxwell, Michigan University of Sheffield, United Norway Guironnet, Alexandre, CNRS UMR State University, United States Kingdom Gonçalves, Ana Marta, MARE- 5280 ISA, France Helmus, Rick, University of Ilo, Timo, UEF, Finland University of Coimbra, Portugal Gustafsson, Johan, Stockholm Amsterdam, Netherlands Imaizumi, Yoshitaka, NIES, Japan Gonçalves, Sara, iES Landau, UKL, University, Sweden Henneberger, Luise, UFZ Leipzig, Imo, Chinedu, Federal University Germany Gutierrez, Simon, ECHA, Finland Germany Wukari, Nigeria Gonçalves Prat, Samantha, Guyader, Meaghan, Sierra Club, Hennequin, Thomas, Radboud Inostroza, Pedro, University of Norwegian Institute for Water United States University, Netherlands Gothenburg, Sweden Research, Norway Gwinnett, Claire, Staffordshire Henry, Barbara, WL Gore & Iosif, Chrystalla, University of Gonsior, Guido, GG BioTech Design University, United Kingdom Associates, Inc., United States liverpool, United Kingdom GmbH, Germany Hermann, Markus, Wageningen Isemer, Rena, Bayer AG, Germany University, Netherlands Gonzalez, Farith Damian, Itsubo, Norihiro, Tokyo city University of Cartagena, Colombia Hermanson, Mark, Hermanson & university, Japan H Associates LLC, United States González, María, IREC, Spain Ivleva, Natalia, TU Munich, González-Alcaraz, M. Nazaret, Hackermüller, Jörg, Helmholtz UFZ, Hernandez, Carlos Jesus, URV, Germany Spain University of Aveiro, Portugal Germany Izagirre, Urtzi, UNIVERSITY BASQUE González-García, Sara, USC, Spain Hader, John, Stockholm University, Hernandez-Moreno, David, INIA, COUNTRY, Spain Gonzalez-Gaya, Belen, PIE-EHU/ Sweden Spain UPV, Spain Hager, Jutta, Bayer AG, Germany Herrala, Mikko, UEF, Finland Goodband, Tracey, Smithers, Hahn, Stefan, Fraunhofer ITEM, Herrero Villar, Marta, IREC, Spain J United Kingdom Germany Hildebrandt, Lars, HZG, Germany Goodfellow, William, Exponent, Hahne, Joerg, Bayer AG, Germany Hinton, David, Duke University, Jack, Richard, Thermo Fisher Inc., United States Haiba, Egge, PhD, Estonia United States Scientific, United States Göpfert, Lisa, TU Munich, Germany Haigis, Ann-Cathrin, RWTH Aachen Hirose, Akihiko, NIHS, Japan Jacobi, Sylvia, Albemarle Gottesbueren, Bernhard, BASF SE, University, Germany Hischier, Roland, Empa, Corporation, Belgium Germany Halbach, Katharina, UFZ - Leipzig, Switzerland Jacobs, Lorraine, Study Director, Gottschling, Michael, TU Germany Hitzfeld, Bettina, Federal Office for Netherlands Darmstadt, Germany Hale, Michael, Staphyt, United the Environment, Switzerland Jagadeesan, Kishore Kumar, Goussen, Benoit, ibacon GmbH, Kingdom Hjort, Markus, Concawe, Belgium University of Bath, United Kingdom Germany Halle, Louise Lynn, Roskilde Hjorth, Rune, DK EPA, Denmark Jager, Tjalling, DEBtox Research, Govorin, Aleksandr, IRNTU, Russia University, Denmark Hodges, Geoffrey, SEAC, Unilever, Netherlands Gozalbes, Rafael, ProtoQSAR SL, Hallmark, Nina, Bayer, Germany United Kingdom James Casas, Alice, INERIS, France Spain Hamer, Alison, ERM Regulatory Hoekzema, Conny, European Jansen, Leen, ARCHE Consulting, Gozzo, sebastiano, CNRS (LCABIE- Services, United Kingdom Chemicals Agency, Finland Belgium IPREM, Univer, France Hamers, Timo, VU Amsterdam, Hofman, Jakub, RECETOX, Czech Janssen, Sharon, GhEnToxLab Graf, Carola, Lancaster University, Netherlands Republic (UGent), Belgium United Kingdom Hammel, Klaus, Bayer AG, Höger, Stefan, IES Ltd, Switzerland Jaques, Andrew, CPIA, United Grau, Nathalie, RWTH Aachen - Germany Høisæter, Åse, Norges Geotekniske States Biology V, Germany Hammer, Jort, NIES, Japan Institutt, Norway Jaramillo-Colorado, Beatriz, Gray, Jane, Smithers, United Han, Biyao, Wageningen University, Holbech, Henrik, University of University of Cartagena, Colombia Kingdom Netherlands Southern Denmark, Denmark Järlskog, Ida, VTI, Sweden Green, John, John W Green Hand, Laurence, SYNGENTA, Holden, Patricia, University of Jarosz, Emil, NMBU, Norway Ecostatistical Consulting L, United United Kingdom California, United States Jaruga, Pawel, NIST, United States States Holden, Aideen, EPA, Ireland Jaspers, Veerle, NTNU, Norway 108 scicon.setac.org Jene, Bernhard, BASF SE, Germany Khan, Farhan, Roskilde University, Kraemer, Stefan, UFZ, Germany Langan, Laura, Baylor University, Jeong, Seung-Woo, Kunsan Denmark Kraetzig, Gwendolin, ADAMA, United States National University, Korea, South Kicheeva, Arina, SFU, Russia Germany Langberg, Håkon, NTNU/NGI, Ji, Kyunghee, Yongin University, Kidd, Karen, McMaster University, Kragten, Steven, Syngenta, United Norway Korea, South Canada Kingdom Langer, Miriam, FHNW, Switzerland Jimenez, Begona, IQOG-CSIC, Spain Kienle, Cornelia, Ecotox Centre, Kral, Iris, BOKU Vienna, Austria Lanneau, Wouter, Microbiotests, Jiménez-Holgado, Cristina, Switzerland Kraus, Johanna, U.S. Geological Belgium University of Ioannina, Greece Kienzler, Aude Emma, Joint Survey, United States Lanno, Roman, Ohio State Johann, Sarah, GoetheUniversity Research Centre - EC, Italy Krause, Sophia, UFZ, Germany University, United States Frankfurt, Germany Kilgallon, John, Unilever, United Krebs, Florian, knoell Germany Larrieu, Jean-Yves, IPREM, UPPA, Johannson, Marie, Colgate- Kingdom GmbH, Germany France, France Palmolive, United States Kim, Jaeshin, Dow Chemical, United Kreutzer, Anne, HAW Hamburg, Larroze, severine, AquaBio Tech Johnson, Andrew, UKCEH, United States Germany Group, Malta Kingdom Kim, Hyungkyu, Yongin Univ., Krischik, Vera, Univresity of Lask, Jan, University of Hohenheim, Johnston, Robert, Applied Korea, South Minnesota, United States Germany Ecological Sol., United States Kim, Aleksandra, Paul Scherrer Kristofco, Lauren, Chevron Energy Lasters, Robin, University of Jolliet, Olivier, University of Institut, Switzerland Technology Company, United States Antwerp, Belgium Michigan,SPH, United States Kim, Dong Ju, Chungbuk National Kroder, Stefan, ADAMA Agricultural Laubscher, Aurelia, University Jomini, Stéphane, ANSES, France Univ., Korea, South Solutions Ltd., Germany Koblenz-Landau, Germany Joonas, Elise, Agricultural Board, Kim, Eunyoung, Kyung Hee Kroeger, Silja, HAW Hamburg, Lauper, Benedikt, Eawag, ETH Estonia University, Korea, South Germany Zuerich, Switzerland Jorge, Elizabeth, ProtoQSAR/Univ. Kimmel, Stefan, Corteva Kroneis, Haru, AGES/BASG, Austria Laurent, Alexis, DTU, Denmark València, Spain Agriscience, Germany Kronsbein, Anna Lena, IGB Berlin, Lava, Roberto, ARPA Veneto, Italy Joyce, Peter James, Unilever, King, Mason, Simon Fraser Germany Lavoie, Jérôme, CIRAIG, UQAM, United Kingdom University, Canada Krueger, Henry, Eurofins Canada Juckeland, Daniela, BioChem agrar Kiss, Beatriz, Braskem, Brazil Agroscience USA, United States Le Bayon, Diane, UMR 7619 METIS GmbH, Germany Kitamura, Yusuke, Tokyo City Kruse, Susanne, DTU Environment - EPHE, France Jund, Helen, IFPEN, France University, Japan Denmark, Denmark Le cor, françois, UNIVERSITE DE Jung, Dawoon, KEI, Korea Klaschka, Ursula, Univ Appl Sc Krzykwa, Julie, Texas Christian LORRAINE, France Junghans, Marion, Swiss Ulm, Germany University, United States Le Du, Jessy, Anses, France Ecotoxcentre, Switzerland Klasmeier, Joerg, Osnabrück Kudryasheva, Nadezhda, Inst of Le Faucheur, Severine, UPPA, University, Germany Biophysics SB RAS, Russia France Klein, Judith, Fraunhofer IME, Kudu, Isaac, Universityof KwaZulu- Lebrun, Magali, OFEV, Switzerland K Germany Natal, South Africa Lee, Michael, Eli Lilly & Co., United Klein, Ole, HZG, Germany Kühr, Sebastian, Fraunhofer IME, States Kaartinen, Tomi, Senior Officer, Kloeckner, Philipp, UFZ Leipzig, Germany Lee, Inae, Seoul National Finland Germany Kukkola, anna, University of University, Korea, South Kaegi, Ralf, Eawag, Switzerland Klopper, Tanja, Rifcon GmbH, Birmingham, United Kingdom Lee, Gyudong, Seoultech, Korea, Germany Kairigo, pius, Jyväskylä university, Kurahara, Yoko, Tokyo CIty South Finland Knaebe, Silvio, Eurofins Ecotox, University, Japan Lee-Steere, Christopher, Germany Kalman, Judit, UNED, Spain Kuznetsova, Tatiana, SRCES RAS, Australian Environment Age, Knopf, Burkhard, Fraunhofer IME, Russia Australia Kaloudis, Triantafyllos, EYDAP SA, Germany Greece Kydralieva, Kamila, Moscow Lefebvre, Charlotte, UMR EPOC / Knudsmark Sjøholm, Karina, DTU Aviation Institute, Russia UMR CBMN, France Kamstra, Jorke, Utrecht University/ Environment, Denmark IRAS, Netherlands Kyung, Keesung, Chungbuk Lemos, Marco, Polytechnic of Koch, Josef, Ghent University, National Univ., Korea, South Leiria, Portugal Kan, Daniël, PRé Sustainability, Belgium Netherlands Léocadie, Aurore, IRD-UMR Espace Koh, Dong-Hee, Kyung Hee Dev, France Kandie, Faith, Helmholtz UFZ, University, Korea, South Germany L Leonards, Pim, Vrije Universiteit, Kohler, Maxie, Bayer AG, Germany Netherlands Kannan, Andrew, University of Bath, United Kingdom Kolbenschlag, Sara, University La Guardia, Mark, Virginia Institute Leopold, Annegaaike, Calidris Koblenz-Landau, Germany Environment BV, Netherlands Kapustka, Lawrence, LK of Marine Science, W&M, United Consultancy, Canada Kole, Pieter, Open University, States Leverett, Dean, wca, United Netherlands Kingdom Karkour, Selim, Tokyo City Labram, Briony, NC3Rs, United University, Japan König, Fabian, Federal Kingdom Lharidon, 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Kingdom Liernur, Adrien, Quantis, Germany Kauffmann, Kira, RWTH Aachen Lai, Chih, University of St. Thomas (, Switzerland University, Germany Kounina, Anna, Quantis, United States Lillicrap, Adam, NIVA, Norway Switzerland Kaumanns, Judith, Coty Inc, LaLone, Carlie, US EPA, United Lim, Soyoung, School of Public Germany Koutsaftis, Apostolos, Dupont, States Health, Seoul National University, Netherlands Kavehei, Armin, Macquarie Lammel, Tobias, Göteborgs Korea, South University, Australia Kovaleva, Ekaterina, Lomonosov universitet, Sweden Lima, Claudia, VU Amsterdam, MSU, Russia Kehrein, Nils, knoell, Germany Lamoree, Marja, VU-EH, Netherlands Kovel, Ekaterina, FRC KSC SB RAS, Netherlands Keitel-Gröner, Frederike, NORCE, Lin, Zhi, Xiamen University, China Russia Norway Lampic, Alina, Trent University, Lindeman, Leif Christopher, Kozak, Natalia, Campus Evenstad, Canada Kemble, Nile, U.S. Geological NMBU, Norway INN, Norway Survey, United States Lane, Taylor, University of York, Liu, Runya, Tokyo city university, KP, Raveesha, Eurofins Advinus United Kingdom Kendall, Ronald, Texas Tech Japan Limited, India University, United States
SETAC Europe 30th Annual Meeting - SETAC SciCon 109 Lizano-Fallas, Veronica, Linköping MacLeod, Matthew, Stockholm Massei, Riccardo, UAntwerp - Merrington, Graham, wca, United University, Sweden University, Sweden Zebrafishlab, Belgium Kingdom Llewellyn, Neville, MacLeod, Sean, UWS, United Mata, Lise, LPL, France Mertens, Jelle, European Precious ThermoFisherScientific, United Kingdom Mateo Soria, Rafael, IREC-CSIC- Metals Federation, Belgium Kingdom Maeß, Christian, CEO, Germany UCLM, Spain Mesquita, Andreia Filipa, Dep. Loetscher, Matthias, IES Ltd, Maga, Daniel, Fraunhofer Mateos Cardenas, Alicia, Biology, Aveiro, Portugal Switzerland UMSICHT, Germany University College Cork, Ireland Metcalfe, Chris, Trent University, Lofts, Stephen, UK CEH, United Mahat, Sabnam, University of Mattern, DereK, PerkinElmer, Canada Kingdom Bern, Switzerland Germany Metreveli, George, University of Lohmann, Rainer, University of Mai, Trung Hieu, Knoell Germany Mattock, Steve, Fera Science Ltd., Koblenz-Landau, Germany Rhode Island, United States GmbH, Germany United Kingdom Meyer, Frederik, University Lopes, Isabel, University of Aveiro, Malabad, Abdoulaye Mahamat, Maunula, Minna, University of Landau, Germany Portugal Labo Chrono-environnement, Helsinki, Finland Meynet, Paola, Newcastle Lopes Peixoto, Sara Cristiana, France Mayer, Christoph, BASF SE, University, United Kingdom University of Aveiro, Portugal Malchi, Tomer, Hebrew University, Germany Meyns, Michaela, Alfred-Wegener- Lopez, Naroa, PIE-EHU/UPV, Spain Israel Mayer, Simon, Bayer AG, Germany Institute, Germany López, Carmen, CUD, Spain Malekani, Kalumbu, Smithers, LLC, Maynard, Samuel, AstraZeneca, Michel, Amandine, BASF SE, López-Cabeza, María del Rocío, United States United Kingdom Germany Masaryk Univ., RECETOX, Czech Malheiro, Catarina, University of Mayser, Jan Peter, Markes Michelova, Marie, RECETOX, F. of Republic Aveiro, Portugal International Ltd, United Kingdom Science, MU, Czech Republic López-García, Ester, IDAEA-CSIC, Malizzi, Lawrence, Ramboll, United Mazerolles, vanessa, Anses, France Michelsen, Ottar, NTNU, Norway Spain States McAdow, Kristin, University of Michiels, Freya, KU Leuven, López-Mangas, Alba, FHNW, Malm, Lisa, Umea University, Wisconsin, United States Belgium Switzerland Sweden McArdell, Christa, Eawag, Middleton, Elizabeth, NiPERA Inc., Lot, Marie-Claire, TOTAL SA, France Maltby, Lorraine, University of Switzerland United States Loubet, Philippe, Bordeaux INP, Sheffield, United Kingdom McConnell, Laura, Bayer, United Mihaich, Ellen, ER2, United States France Mamirova, Aigerim, Al-Farabi States Mihan, Christine, Bayer, Germany Louis, Fanny, UMR I-02 SEBIO, Kazakh National, Kazakhstan McCutchion, Dave, Charles River, Mila i Canals, Llorenc, UN France Mangold-Döring, Annika, United Kingdom Environment, France Loureiro, Susana, University of Wageningen University, McDonough, Kathleen, P&G, Miles, Mark, Bayer AG, United Aveiro, Portugal Netherlands United States Kingdom Lourenço Dias Nunes, Paulo Manivannan, Bhuvaneshwari, McEwan, Andrew, Fera Science Miller, Thomas, Brunel University Augusto, FAO, Italy Postdoctoral Fellow, Israel Ltd., United Kingdom London, United Kingdom Loutseti, Stefania, Syngenta, Manning, Therese, Environmental McGinn, Regina, EPA, Ireland Mirabella, Nadia, KU Leuven, Risk Sciences, Australia Greece McGivern, Allan, Dublin City Belgium Louzon, maxime, University Manzo, sonia, enea, Italy University, Ireland Mitchelmore, Carys, UMCES, CBL, Franche-Comté, France Marcheggiani, Stefania, ISS- Italy, McGovern, Evin, Marine Institute, United States Lozano, Anthony, Sumitomo Italy Ireland Mitrano, Denise, Eawag/ETH, Chemical Agro Europe SAS, France Maria, Vera, Biology Department & McHugh, Brendan, Marine Switzerland Lozano, Clément, University of CESAM, Portugal Institute, Ireland Moe, Jannicke, NIVA, Norway Stirling, United Kingdom Mariem, Zaidi, Phd Student, France McIlroy-Young, Bronwyn, Moeller, Julia, University of Luckenbach, Till, UFZ, Germany Mariner, Richy, Euro Chlor - Cefic, University of British Columbia, Bayreuth, Germany Ludwigs, Jan-Dieter, Rifcon GmbH, Belgium Canada Moermond, Caroline, RIVM, Germany Marini, Michele, Aarhus University, McKee, Moira, University of Netherlands Lundbergh, Ivar, Swedish Denmark Bremen, Germany Mohr, Silvia, German Environment Chemicals Agency, Sweden Markert, Nele, LANUV NRW, McLachlan, Michael, Stockholm Agency, Germany Lundy, Lian, Lulea Technical Germany University, Sweden Monclús, Laura, NTNU, Norway University, Sweden Markkanen, Melina, University of McMillan, Claire, CEA, United Monk, Wendy, ECCC @ CRI/UNB, Lunghini, Filippo, Solvay S.A., Helsinki, Finland Kingdom Canada France Marshall, Stuart, Consultant, McVey, Emily, Ctgb, Netherlands Montagner, Cassiana, UNICAMP, Lungu, Sebastian, SLU Uppsala, United Kingdom Medina Pérez, Noemí- Brazil Sweden Marshall, Alice, University of York, Inmaculada, University of Monteiro, Alessandra, Animine, Lusher, Amy, NIVA, Norway United Kingdom Barcelona, Spain France Lützhøft, Hans-Christian Holten, Martí, Vicenç, UPC (Dept. Chemical Mehennaoui, Kahina, LIST, Monticelli, Giovanna, University of LEO Pharma, Denmark Eng.), Spain Luxembourg Stavanger, Norway Lykaki, Marianna, TU Dresden, Martin, Olwenn, Brunel University Mehn, Dora, European Moore, Emily, UWS, United Germany London, United Kingdom Commission, JRC, Italy Kingdom Lynch, Iseult, University of Martin, Thomas, University of York, Meinecke, Stefan, German Morão, Inês, Polytechnic of Leiria, Birmingham, United Kingdom United Kingdom Environment Agency, Germany Portugal Lyon, Delina, Shell Oil Company, Martin, Helen, Markes Meinerling, maria, ibacon GmbH, More, Pamela, Charles River United States International Ltd, United Kingdom Germany Laboratories, United Kingdom Martin Hernandez, Mariangel, Meisterjahn, Boris, Fraunhofer Moreau, Stephane, SHIMADZU Syngenta, United Kingdom IME, Germany Europa GmbH, Germany M Martin-Aparicio, Alberto, Concawe, Mekonen Belay, Berte, NIOO - Moreira dos Santos, Matilde, Belgium WUR, Netherlands University of Coimbra, Portugal Maack, Gerd, German Env. Agency Martinez, CLAUDIA B, Meli, Mattia, ADAMA Agricultural Moreira Whitton, Renata (UBA), Germany Universidade Estadual de Londrina, Solutions Ltd., France Guimaraes, Brazilian Ecotox Brazil Maboeta, Mark, North-West Melymuk, Lisa, Masaryk University, Society, Brazil University, South Africa Martínez Ruiz, Erika Berenice, TU Czech Republic Moreno-Ocio, Iñigo, UPV/EHU, Berlin, Germany Macaulay, Samuel, University of Mensah-Attipoe, Jacob, SLU, Spain Otago, New Zealand Martín-Gamboa, Mario, University Sweden Morgado, Rui, University of Aveiro, of Aveiro/CESAM, Portugal MacIntosh, Amy, Macquarie Mentxaka, Iratxe, FUNDACION Portugal University, Australia Martins, Roberto, University of AZTI, Spain Morr, Charlotte, Bayer - Crop Aveiro, Portugal Mackay, Neil, FMC Agricultural Mentzel, Sophie, NIVA, Norway Science, Germany Solutions, United Kingdom Martins, Marta, FCT NOVA, Menzie, Charlie, SETAC, United Morthorst, Jane Ebsen, Univ. of Portugal Macken, Ailbhe, NIVA, Norway States Southern Denmark, Denmark Marziali, Laura, Water Research MacKenzie, Claire, Fraunhofer IME Merino Ruiz, Carla, MIL@B - Motteau, Solène, IC2MP-Poitiers, Intitute, Italy AE, Germany CIBERDEM - URV, Spain France
110 scicon.setac.org Mountford, Alethea, Newcastle Nichols, Elizabeth, NC State Ortiz Santaliestra, Manuel, IREC, Petersen, Karina, NIVA, Norway University, United Kingdom University, United States Spain Peuportier, Bruno, MINES Mueller, Till, knoell Germany Nickel, Carmen, IUTA e.V., Osei-Owusu, Albert, Aarhus ParisTech, France GmbH, Germany Germany University, Denmark Pezzutto, Denise, University of Mueller, Leonie, RWTH, Germany Nickisch, Dirk, Rifcon GmbH, Oster, Sophie, University of Helsinki, Finland Mueller, Carolin, Fraunhofer Germany Landau, Germany Phenrat, Tanapon, Naresuan Institute IME, Germany Nightingale, John, Fera Science Ltd, Otero, Paz, USC, Spain University, Thailand Muhl, Marco, Technical Univ. United Kingdom O’Toole, Simon, EPA, Ireland Philibert, Danielle, Huntsman Berlin, Germany Nikolopoulou, Varvara, University Ott, Amelie, Newcastle University, Marine Sciences, Canada Muir, Derek, Environment Canada, of Athens, Greece United Kingdom Phillips, David, Fera Science Ltd., Canada Nogues, Isabel, IRET_CNR, Italy Otto, Sascha, Vali Consulting United Kingdom Muller, Erik, UC Santa Barbara/ Nolte, tom, Radboud University, GmbH, Germany Picard, Christian, Smithers, United NTNU, United States/ Norway Netherlands Øverjordet, Ida Beathe, SINTEF States Müller, Yvonne, Bayer AG, Norberg-King, Teresa, USEPA, Ocean, Norway Piccinini, Armando, Biomark, Germany ORD-Duluth, MN, United States Owen, Stewart, AstraZeneca, United States Müller, Axel, BAM, Germany Nordheim, Eirik, Aluminium Reach United Kingdom Pico, Yolanda, University of Mumford, Rory, Smithers, United Consortium, Norway Ozawa, Fujiko, NIES, Japan Valencia, Spain Kingdom Norman, Steve, RidgewayEco, Ozores, Paloma, Dublin City Pierdet, Manon, University of Muncke, Jane, Food Packaging United Kingdom University, Spain Bordeaux, France Forum, Switzerland Noro, Kazushi, Osaka Pref. Inst., Pietrini, Ilaria, Eni S.p.A., Italy Muniategui-Lorenzo, Soledad, Japan Pietz, Sebastian, iES Landau, University A Coruña, Spain Novais, Sara, Polytechnic of Leiria, P Germany Muñiz-González, Ana Belén, Portugal Piggott, Jeremy, Trinity College UNED, Spain Nowak, Karolina, TU Berlin, Padricello, Vincenzo, Newcastle Dublin, The University Of Dublin, Murphy, Cheryl, Michigan State Germany University, United Kingdom Ireland University, United States Nowak, Alina, RWTH Aachen Pajula, Tiina, VTT, Finland Pihlaja, Tea, University of Helsinki, University, Germany Finland Murray, Aimee, University of Pampanin, Daniela Maria, Exeter, United Kingdom University of Stavanger, Norway Pikuda, Oluwadamilola, McGill University, Canada Murray, Laura, University of Exeter Panagopoulou, ELENI, University Medical School, United Kingdom O of Athens, Greece Pillet, Marion, La Rochelle University, France Myklebust, Erik, NIVA, Norway Pantos, Olga, ESR, New Zealand Pinheiro, João Paulo Silva, Oberg, Gunilla, UBC, Vancouver, Papa, Ester, University of Insubria, University of São Paulo, Brazil Canada Italy Pinheiro, Lara, FURG, Brazil N Obersteiner, Gudrun, BOKU Papaioannou, Nafsika, Aristotle University, Austria University of Thessaloniki, Greece Pipal, Marek, RECETOX, Czech Republic Naab, Christoph, University of O’Callaghan, Irene, University Paramonova, Anastasia, RL Augsburg, Germany College Cork, Ireland Branch, Russia Piringer, Gerhard, Univ Appl Sci Burgenland, Austria Nagashima, Fumiya, Kindai O’Connor, Niamh, Wageningen Parenti, Camilla Carla, University University, Japan University, Netherlands of Milan, Italy Pirovano, Alessandra, ECHA, Finland Nagesh, Poornima, Utrecht O’Dowd, Kris, I.T. Sligo, Ireland Park, June Woo, KIT, Korea, South Pivato, Alberto, Università di University, Netherlands O’Flynn, Dylan, Dublin City Park, Suhyun, Researcher, Korea, Padova, Italy Nagorka, Regine, Federal University, Ireland South Ploessl, Jonathan, Troy Environment Agency, Germany Ogawa, Masahiro, Kumiai Park, Changgyun, KIST Europe, Corporation, Germany Naito, Wataru, AIST, Japan Chemical Industry, Japan Germany Plotzke, Kathleen, Dow Chemical Näkki, Pinja, SYKE, Finland Ogbozige, Francis James, A. B. U., Park, Jae Gon, Kyung-Hee Univ, Company, United States Narain-Ford, Dominique, Zaria, Nigeria Korea, South Plugge, Hans, Verisk 3E, United University of Amsterdam, Ogungbemi, Afolarin, UFZ - Parke, Neil, Eli Lilly and Company, States Netherlands Leipzig, Germany United States Poirier, Laurence, Nantes Nason, Sara, Connecticut Ag Exp Ohno, Koichi, NIES, Japan Parnis, J. Mark, CEMC Trent University, France Station, United States Olapoju, Oluwabukunola, NIOMR, University, Canada Polazzo, Francesco, IMDEA Water Nasser, Fatima, Defra, UK, United Nigeria Parsons, John, University of Institute, Spain Kingdom Olayinka, Kehinde, University of Amsterdam, Netherlands Pons, Marie-Laure, CEREGE - AMU, Navarra, Wanda, University of Lagos, Nigeria Pascual, Juan, BASF SE, Germany France Salerno, Italy Olivatto, Glaucia, USP, Brazil Paulillo, Andrea, University College Pontes, João, University of Navarro-Martin, Laia, IDAEA, Spain Oliveira, Rhaul, University of London, United Kingdom Coimbra, Portugal Navis, Sabine, ARCHE Consulting, Campinas, Brazil Pavlaki, Maria, University of Aveiro, Poperechna, Nataliya, SGS Institut Belgium Oliveira, Miguel, University of Portugal Fresenius, Germany Nekoro, Marmar, Swedish Medical Aveiro, Portugal Pearson, Audrey, Environment Porte, Cinta, IDAEA -CSIC-, Spain Product Agency, Sweden Olubodun, Stella Oghomwen, Agency - CAU, United Kingdom Posselt, Malte, ACES, Stockholm Nel, Holly, University of University of Benin, Benin City, Pellizzato, Francesca, European University, Sweden Birmingham, United Kingdom Nigeria, Nigeria Chemicals Agency ECHA, Finland Posthuma, Leo, RIVM & Radboud Nelson, Erin, ET&C Editorial Office, Oorts, Koen, ARCHE Consulting, Peltola-Thies, Johanna, European University, Netherlands United States Belgium Chemicals Agency, Finland Postigo, Cristina, IDAEA - CSIC, Nemecek, Thomas, Agroscope, Opeolu, Beatrice, Cape Peninsula Pena, Claudia, UN Environment, Spain Switzerland University, South Africa Chile Poulsen, Rikke, Aarhus University, Nendza, Monika, AL-Luhnstedt, Opute, Prosper, University of Pereira, M. Gloria, UKCEH, United Denmark Germany Benin, Nigeria Kingdom Pourchet, Mariane, LABERCA- Neumann, Michael, Environment Orbea, Amaia, Univ. Basque Pereira, Natalia, UNIOESTE, Brazil Country, Spain Oniris-INRA, France Agency (UBA), Germany Perez-Novo, Cristina, University of Praetorius, Antonia, University of Neuzeret, Didier, Viewpoint, Oris, Jim, Miami University (OH), Vigo, Spain United States Amsterdam, Netherlands France Perkins, Alison Nimrod, Eli Lilly Preuss, Thomas, Bayer AG, Nfon, Erick, Smithers, United O’Rourke, Katie, Dublin City and Co, United States University, Ireland Germany Kingdom Pestana, João, CESAM, Univ. of Prévalet, Solène, Division of Ng, Keng Tiong, King’s College Ortega, Priscila, University of Sao Aveiro,, Portugal Paulo, Brazil Toxicology WUR, Netherlands London, United Kingdom Peterek, Silke, Staphyt GmbH, Primpke, Sebastian, Alfred- Nguyen, Nhung, TUL, Czech Ortega-Calvo, José Julio, CSIC, Germany Spain Wegener-Institut, Germany Republic Peters, Adam, wca, United Kingdom
SETAC Europe 30th Annual Meeting - SETAC SciCon 111 Proctor, Kathryn, University of Rettinger, Klaus, IKW - The Ruppert, Katharina, knoell Schmidt, Katharina, apic.ai, Bath, United Kingdom German Cosmetic Industry Germany GmbH, Germany Germany Proia, Lorenzo, CT BETA - UVIC, Association, Germany Ruwona, Tinashe, W.L. Gore & Schmitt, Tobias, University of Spain Ribbenstedt, Anton, Stockholm Associates, In, United States Landau, Germany Pruvost-Couvreur, Manon, University, Sweden Ryan, Adam, IZA, United States Schmitz, Markus, Goethe LABERCA - Oniris, France Ribeiro de Oliveira, Mariana Ieda, Ryberg, Morten, QSA, DTU, University, Germany Prygiel, Emilie, CEREMA, France University of Naples - Parthenope, Denmark Schoebinger, Ulrike, GAB Puccinelli, Camilla, ISS, Italy Italy Rydberg, Tomas, IVL, Sweden Consulting GmbH, Germany Pulido-Reyes, Gerardo, Eawag, Ricci, Marina, EC-JRC, Belgium Scholz, Stefan, UFZ, Germany Switzerland Richardson, Alexandra, King’s Scholz, Ulrike, UBA, Germany Putna-Nimane, Ieva, LIAE, Latvia College London, United Kingdom S Scholz-Boettcher, Barbara, Puy, Jaume, Univ. Lleida, Spain Richardson, Jane, European Food University of Oldenburg, Germany Safety Autho, Italy Saaristo, Minna, EPA Victoria, Scholz-Starke, Björn, darwin Rickwood, Carrie, Natural Australia statistics, Germany Resources Canada, Canada Q Sahlin, Ullrika, Lund University, Schonemann, Alexandre, Rico, Andreu, IMDEA Water, Spain Sweden Universidade de Vigo, Spain Rideout, Natalie, Canadian Rivers Qassim, Suzane Michelle, Defra, Sala, Serenella, European Schøyen, Merete, NIVA, Norway Institute, Canada United Kingdom Commission, Italy Schreiber, Hanna, Environment Rigamonti, Lucia, Politecnico di Quambusch, Anja, Bayer AG, Sallach, Jonathan, University of Agency Austria, Austria Milano, Italy Germany York, United Kingdom Schriever, Carola, BASF SE, Ritter, Amy, Waterborne Quik, Joris, RIVM, Netherlands Samson, Roxana, Stockholm Germany Environmental, United States Quintana, José Benito, Univ. University, Sweden Schuer, Christoph, Goethe Uni Rivetti, Claudia, Unilever, United Santiago Compostela, Spain Sanchez Romero, Carlos, Frankfurt, Germany Kingdom Quinteiro, Paula, University Aveiro/ Latinoamerican Student, Costa Rica Schuijt, Lara, Wageningen Rixrath, Doris, Forschung CESAM, Portugal Sandblom, Anton, University of University, Netherlands Burgenland GmbH, Austria Gothenburg, Sweden Schulz, Isabelle, JPI Oceans, Rizzuto, Simone, Lancaster Sanderson, Hans, Aarhus Belgium University, United Kingdom University, Denmark Schüttler, Andreas, UFZ, Germany R Robey, Darren, Agilent Santos, Eduarda, University of Seco, José, Uni. Aveiro & St. Technologies, United States Exeter, United Kingdom Rabelo Costa, Bruno Rafael, Andrews, Portugal Robinson, Paige, University of University of Aveiro, Portugal Santos, Miguel, CIIMAR/University Seeley, Meredith, Virginia Institute Exeter, United Kingdom of Porto, Portugal Radermacher, Georg, Fraunhofer of Marine Science, United States Robuck, Anna, University of Rhode IME, Germany Santos, Lúcia, ICRA, Spain Seiler, Thomas-Benjamin, RWTH Island, United States Radu, Elena, TU Wien/AGES, Austria Santos, Mirieli, Master Student - Aachen University, Germany Rocha, Carolina, MARE, Portugal UFABC, Brazil Raimondo, Sandy, US EPA, United Selck, Henriette, Roskilde Rocha, Eduardo, ICBAS & CIIMAR - States Sanye-Mengual, Esther, European University, Denmark U.PORTO, Portugal Commission - JRC, Italy Raisanen, Riikka, University of Sellin Jeffries, Marlo, TCU, United Rocha, Maria João, ICBAS & CIIMAR Helsinki, Finland Sanz, Claudia, IDAEA-CSIC, Spain States - U.PORTO, Portugal Ramos, Ana, INEGI-University of Sapozhnikova, Yelena, USDA, Selonen, Salla, SYKE, Finland Rockett, Leon, Afton Chemical Ltd, Porto, Portugal United States Semenzin, Elena, Ca’ Foscari United Kingdom Ramsden, Christopher, Sardina, Paula, EPA Victoria, Venice, Italy Rodgers, Karen, University of Hull, AgroChemex Environmental, United Australia Seo, Seung Woo, Gwangju Institute United Kingdom Kingdom Sarekoski, Anniina, University of of Science and Technology, Korea, Rødland, Elisabeth, NIVA, Norway Rapp Wright, Helena, Miss, Spain Helsinki, Finland South Rodriguez Sanchez, Neus, Kerona Rasmussen, Jes, NIVA, Norway Sarkis, Noëlle, INRAE, France Serra, Helene, Lund University, Scientific Ltd, Ireland Sweden Rathjens, Hendrik, Stone Saunders, David, Shell Roeben, Vanessa, gaiac Research Environmental, United States International, Netherlands Serratosa, Francesc, Universitat Institute, Germany Rovira Virgili, Spain Raths, Johannes, Eawag, Sauve, Marie-Claude, Environment Roessink, Ivo, WENR, Netherlands Switzerland Canada, Canada Serre, Jeanne, VEOLIA RESEARCH Rojas Conejo, Johanna, HIDROCEC- INNOVATION, France Ratier, Aude, University of Lyon 1, Scagnetti, Carla, University of UNA, Costa Rica LBBE, France Stuttgart, Germany Sesin, Verena, Trent University, Römbke, Jörg, ECT GmbH, Canada Ratola, Nuno, LEPABE-University of Schaanning, Morten Thorne, NIVA, Germany Porto, Portugal Norway Seston, Rita, Hyla Environmental Romeis, Joerg, Agroscope, Consult, United States Ratte, Toni, ToxRat, Germany Schaefer, Dieter, Bayer AG, Switzerland Germany Settele, Josef, UFZ, Germany Rauert, Caren, German Rosenfeldt, Ricki, nEcoTox, Environment Agency, Germany Schaeffer, Andreas, RWTH Aachen Sevcu, Alena, TUL, Czech Republic Germany University, Germany Rechsteiner, Daniela, Agroscope, Sha, Bo, Stockholm University, Roslev, Peter, Aalborg University, Switzerland Schäfer, Ralf, University Koblenz Sweden Denmark Landau, Germany Redman, Aaron, ExxonMobil, Shao, Ying, Chongqing University, Roslund, Marja, University of Belgium Scheibener, Shane, NMBU, Norway China Helsinki, Finland Redmond, aisling, Health and Schell, Theresa, IMDEA Water Sharkey, Martin, NUIG, Ireland Ross-Nickoll, Martina, RWTH Safety Authority of Ireland, Ireland Institute, Spain Sharples, Amanda, FMC, United Aachen University, Germany Reeg, Jette, University Potsdam, Schiavo, simona, uniparthenope; Kingdom Roth, Sabrina, Stockholm Germany ENEA, Italy Shenkar, Noa, Tel-Aviv University, University, Sweden Reiley, Mary, USA, United States Schiedek, Thomas, Geosciences TU Israel Roussel, Helene, ADEME, France Darmstadt, Germany Reilly, Katie, University of Sherborne, Neil, Syngenta, United Roux, Philippe, INRAE - Elsa-Pact, Birmingham, United Kingdom Schiedung, Henning, Bayer AG - Kingdom France Crop Science, Germany Reinwald, Hannes, Fraunhofer Shimizu, Akiko, JAPAN NUS Co., Roy, Rajdeep, University Koblenz- IME, Germany Schimera, Agnes, ADAMA Ltd., Japan Landau, Germany Deutschland GmbH, Germany Remuzat, Pauline, CEHTRA SAS, Shin, Hyeonwoo, Chungbuk Roy Chowdhury, Riju, France Schirmer, Kristin, Eawag, National Univ., Korea, South RECETOX,Masaryk University, Czech Switzerland Shore, Richard, UKCEH, United Renaud, Jean Mathieu, CFE - UC, Republic Portugal Schlechtriem, Christian, Kingdom Rozmankova, Eliska, Univ. Fraunhofer IME, Germany Shrestha, Prasit, Fraunhofer IME, Reppas- Chrysovitsinos, Bordeaux, EPOC EA, France Efstathios, Lancaster University, Schlenk, Daniel, UC Riverside, Germany Rumkee, Jack, Syngenta Ltd., United Kingdom United States Shukla, Rishabh, IIT Delhi, India United Kingdom Schmidt, Thomas, IES Ltd, Sibley, Paul, University of Guelph, Switzerland Canada
112 scicon.setac.org Sigg, Laura, none, Switzerland Stadnicka-Michalak, Julita, Eawag, Terekhova, Vera, Lomonosov Valsesia, Andrea, European Silva de Assis, Helena Cristina, Switzerland Moscow State Uni, Russia Commission - JRC, Italy UFPR, Brazil Staggs, Melissa, Smithers, United Teresiak, Holger, agro-check, Van As, Michelle, North West Simmons, Denina, Ontario Tech States Germany University, South Africa University, Canada Stanley, Dara, University College Thiebault, Thomas, EPHE PSL Van Beneden, Rebecca, University Simon, Eszter, Ecotox Centre, Dublin, Ireland University, France of Maine, Orono, United States EAWAG, Switzerland Staveley, Jane, Exponent, United Thiele, Karen, UBA/WUR, Germany Van de Broeck, Steven, Cefic, Simonin, Marie, INRAE, France States Thit Jensen, Amalie, Roskilde Belgium Sims, Natalie, University of Bath, Steinhoff-Wagner, Julia, Animal University, Denmark Van de Veen, Jan Renger, Arcadis, United Kingdom Science, RFWU Bonn, Germany Thomas, Paul, KREATiS, France Netherlands Sinclair, Chris, Fera Science Ltd., Steinmetz, Zacharias, Univ Thompson, Linzi, University Van den Berg, Sanne, Wageningen United Kingdom Koblenz-Landau, Germany College Dublin, Ireland University, Netherlands Sinclair, Tom, University of Stenrýÿd, Marianne, NIBIO, Thonemann, Nils, Fraunhofer Van den Brink, Nico, Wageningen Sheffield, United Kingdom Norway UMSICHT, Germany University, Netherlands Sittig, Stephan, knoell Germany Stibany, Felix, RWTH Aachen/gaiac Thorbek, Pernille, BASF SE, Van den Brink, Paul, Wageningen GmbH, Germany Research, Germany Germany University, Netherlands Skottene, Elise, NTNU, Norway Stout, Jane, Trinity College Dublin, Thorstensen, Helene, University of Van der Heijden, Stephan, Ctgb, Skulcova, Lucia, RECETOX, Czech Ireland Oslo, Norway Netherlands Republic Stratemann, Lucas, RWTH Aachen, Tiberg, Charlotta, SGI, Sweden Van der Hulst, Mitchell, Radboud Slaveykova, Vera, University of Germany Tilbrook, Martin, ERM Regulatory University, Netherlands Geneva, Switzerland Straube, Daniela, ibacon GmbH, Services, United Kingdom Van der Oost, Ron, Waternet, Slencu, Bogdan Gabriel, Univ. “Gr. Germany Tindall, Andrew, WatchFrog, Netherlands T. Popa” Iasi, Romania Straume Lie, Kristian, Biomark, France Van Dijk, Joanke, Utrecht Slootmaekers, Bart, Antwerp United States Tisserand, Floriane, University of University, Netherlands University, SPHERE, Belgium Strauss, Tido, gaiac Research Lausanne, France Van Gestel, C.A.M., VU Smart, Alyssa, U. of British Institute, Germany Tokito, Shohei, Yamagata Amsterdam, Netherlands Columbia, Canada Streicher, Harald, Beiersdorf AG, University, Japan Van Gils, Jos, Deltaris, Netherlands Smielowska, Monika, GUT, Poland Germany Tollefsen, Knut Erik, NIVA, Norway Van Mierlo, Klara, KU Leuven, Smit, Els, RIVM, Netherlands Streletskii, Rostislav, Lomonosov Tolussi, Carlos, Anhembi Morumbi Belgium MSU, Russia Smit, Mathijs, Shell international University, Brazil Van Mourik, Louise, Vrije BV, Netherlands Strijakova, Elena, Institute of Tomasini Montenegro, Claudia, Universiteit, Netherlands Physicochemic, Russia Smit, Nicholas, North-West KIT, Karlsruhe Institute f, Germany Van Sprang, Patrick, Arche University, South Africa Strode, Evita, Latvian Institute of Tomlinson, Josie, Staphyt Limited, Consulting, Belgium Aquatic Ecology, Latvia Smith, Adrian, Norecopa, Norway United Kingdom Van Wezel, Annemarie, University Sturm, Armin, University of Stirling, of Amsterdam, Netherlands Smith, Zacharias, Ramboll/SUNY Topp, Edward, Agriculture Canada, United Kingdom ESF, United States Canada Van Zelm, Rosalie, Radboud Suh, Yang-won, University, Netherlands Smith, Andrew, British Geological Tornero, Victoria, EC JRC, Italy KoreaEnvironmentInstitute, Korea, Survey, United Kingdom Toschki, Andreas, gaia- Research Vangampelaere, Geert, South Environment, Belgium Smolders, Erik, KU Leuven, Belgium Institute, Germany Sujetoviene, Gintare, Vytautas Vangheluwe, Marnix, ARCHE Soares, Amadeu, Universidade de Town, Raewyn, Universiteit Magnus university, Lithuania Consulting, Belgium Aveiro, Portugal Antwerpen, Belgium Sultan, Maryam, Bayer AG, Vänttinen, Jesse, University of Sobrino-Figueroa, Alma, UAM Traas, Theo, RIVM, Netherlands Germany Helsinki, Finland IZTAPALAPA, Mexico Trisna, audrey, Bayer Crop Science, Sumpter, John, Brunel University, Vasantha Raman, Nandini, NIOO- Sogbanmu, Temitope, University Germany London, United Kingdom KNAW, Netherlands of Lagos, Nigeria Trobej, Manuela, AGES, Austria Sunyer Caldú, Adrià, IDAEA-CSIC, Vasilyeva, Galina, Institute of Soldat, Doug, Univ. of Wisconsin, Tsering, Tenzin, LUT University, Spain Physicochemic, Russia United States Finland Sur, Robin, Bayer Crop Science, Vea, Eldbjørg, DTU, Denmark Solomon, Keith, University of Germany Tsoy, Natalya, Leiden University, Guelph, Canada Netherlands Vergara-Murillo, Fredy, Cartagena Surfraz, Bashir, CEA - RSK ADAS, University, Colombia Song, You, NIVA, Norway Tuijtelaars, Alexandra, European United Kingdom Verhaegen, Yves, Concawe, Song, woo seon, Kyung Hee Commission, Belgium Svendheim, Linn, Nord University, Belgium University, Korea, South Norway Verones, Francesca, NTNU, Song, Woo-Young, Gwangju Svendsen, Claus, UK-CEH, United Norway Institute of Science and Technology, Kingdom U Korea, South Vestel, Jessica, MSD, United States Syberg, Kristian, Roskilde Viaene, Karel, Arche Consulting, Sonnemann, Guido, University of Ubani, Chibuike, UNIVERSITY OF University, Denmark Belgium Bordeaux/ISM, France NIGERIA, Nigeria Sybertz, Alexandra, RWTH Aachen Victor, Ashvini, Fraunhofer Institute Sorais, Manon, Univ. du Québec à Ullberg, Malin, SLU, Sweden University, Germany IME, Germany Montréal, Canada Umbuzeiro, Gisela, UNICAMP, Vieira, Marisa, PRé, Netherlands Sørensen, Lisbet, SINTEF Ocean, Brazil Vieno, Niina, Law and Water Ltd, Norway Urionabarrenetxea, Erik, PIE-EHU/ Finland Soto, Manuel, UNIVERSITY BASQUE T UPV, Basque Country, Spain COUNTRY, Basque Country, Spain Vierke, Lena, German Environment Takeuchi, Ichiro, Ehime University, Agency, Germany Soukka, Risto, LUT-university, Japan Finland Vignati, Davide, CNRS and Univ. Tamayo Belda, Miguel, UAM, Spain V Lorraine, France Souza, Mariana, Unifesp, Brazil Tanguy, Audrey, LIRIDE-UdeS / Vijayaraj, Vinita, University of Sowa, Grzegorz, Jagiellonian Vaj, Claudia, Corteva agriscience, CIRCERB, Canada Lorraine, France University, Poland Italy Tapfuma, Donald, NUST, Vijver, Martina, Leiden University, Spaan, Kyra, Stockholm University, Zimbabwe Valderhaug, Solveig, Chiron AS, Sweden Netherlands Tarazona, Jose V., EFSA, Italy Norway Specker, Jan, RWTH Aachen, Vike-Jonas, Kristine, NTNU, Norway Tauler, Roma, Prof, Spain Valentine, Katey, University of Germany York, United Kingdom Vila, Maria, FEUP-University of Teboul, Eloïse, Queen’sUniversity/ Spickermann, Gregor, ADAMA, Porto, Portugal CPE Lyon, France Valhondo, Cristina, IDAEA-CSIC, Germany Spain Vinas, Natalia, Mississippi State Tell, Joan, MSD, United States University, United States Spurgeon, David, UK-CEH, United Vallotton, Nathalie, Dow Europe Telscher, Markus, Bayer AG Kingdom GmbH, Switzerland Visca, Andrea, National Research Division CropScience, Germany Council, Italy Srinivasan, Prakash, knoell Valsecchi, Sara, Water Research Ter halle, alexandra, CNRS, France Germany GmbH, Germany Institute, Italy
SETAC Europe 30th Annual Meeting - SETAC SciCon 113 Vitale, Chiara Maria, RECETOX, Wassenberg, Jacoba, Ctgb, Williams, Patricia, Environmental Yeap, Cheryl Soo Yean, Tech. Czech Republic Netherlands Toxicology Experts, LLC, United University of Liberec, Czech Viveros Santos, Ivan, CIRAIG, Weber, Denis, Exponent States Republic Canada International Ltd., Switzerland Williams, Rosie, ZSL & Brunel Yeom, Dong-Hyuk, KIT, Korea, Vizcaíno, Elena, IREC, Spain Weber, Jan, ECHA, Finland University, United Kingdom South Vlaeminck, Karel, UGent/Arche Weber, Miriam, HYDRA Marine Wilmot, Lucy, ECETOC, Belgium Yon, Bérengère, ARKEMA, France Consulting, Belgium Sciences GmbH, Germany Wilson McNeal, Alice, University of Yoshii, M. Paula C, USP, Brazil Vliet, Sara, U.S. EPA, United States Wedler, Nadin, Kao Germany Exeter, United Kingdom Yuan, Bo, Stockholm University, Voigt, Astrid, EBRC / Vanadium GmbH, Germany Winkler, Anna, University of Milan, Sweden Consortium, Germany Weighman, Kristi, Ghent University, Italy Yuan, Ye, Bayer AG, Germany Voisin, Anne-Sophie, Eawag, Belgium Wipfler, Louise, Wageningen Ecotox Centre, Switzerland Weinisch, Lea, BASF SE, Environmental Research, Von Törne, Wipert Jannik, BAM, Agrarzentrum Limburgerhof, Netherlands Z Germany Germany Wirth, Marisa, IOW, Germany Vorkamp, Katrin, Aarhus Welch, Samuel, NIVA, Norway Witt, Gesine, HAW Hamburg, Zafeiraki, Effrosyni, Benaki University, Denmark Wellenreuther, Frank, ifeu, Germany Phytopathological Institute, Greece Vrana, Branislav, Masaryk Germany Witt, Johannes, Bayer AG, Germany Zalouk-Vergnoux, Aurore, university, Czech Republic Weltmeyer, Antonia, RWTH Wolf, Christian, tier3 solutions Université de Nantes - MMS, France Vucinic, Luka, Trinity College Aachen, Germany GmbH, Germany Zarfl, Christiane, University of Dublin, Ireland Wennberg, Aina Charlotte, NIVA, Wolf, Jeffrey, Experimental Tuebingen, Germany Wadhia, Kirit, National Oilwell Norway Pathology Lab, United States Zaworra, Marion, Bayer AG, Crop Varco (NO, United Kingdom Wepener, Victor, North-West Wolf, Raoul, NIVA, Norway Science Div, Germany University, South Africa Wong, Janine, Ecotox Centre, Zenker, Armin, IEC - FHNW, Wesch, Charlotte, Trier University, Switzerland Switzerland W Germany Woods, Hope, Aarhus University, Zgirski, Thomas, UQAR, Canada Wess, Ralf Arno, IES Ltd, Denmark Zhang, Qiyun, GhEnToxLab Wagelmans, Marlea, Switzerland Woo-Young, Song, Gwangju (UGent), Belgium Rijkswaterstaat WMCN-LCM, Weyand, Steffi, TU Darmstadt, Institute of Science and Technology, Zhao, Qinghua, Wageningen Netherlands Germany Korea, South University, Netherlands Walker, Stuart, University of Weyers, Arnd, Bayer, Germany Woutersen, Jasper, Charles River Zheng, Yuanfang, Empa, Sheffield, United Kingdom Weyman, Gabriel, Gabe Weyman Laboratories, Netherlands Switzerland Walshaw, Hazel, Staphyt Ltd, Consulting Ltd, United Kingdom Ziegler, Michael, University of United Kingdom Wheeler, James, Shell International Tübingen, Germany Walters, David, U.S. Geological B.V., Netherlands Y Zillien, Caterina, Radboud Survey, United States White, Jason, CONNECTICUT University, Netherlands Walton, Helen, Centre for AGRICULTURAL EXPERIMENT Yakushev, Evgeniy, Norwegian Zimmermann, Lisa, Goethe Uni Environment, Fisheries and STATION, United States Institute for Water Research, Frankfurt, Germany Aquaculture Science (Cefas), United White, Blánaid, Dublin City Norway Zioga, Elena, PhD student, Ireland Kingdom University, Ireland Yan, Xiaoyu, University of Exeter, Zolfaghari, Reza, Bayer AG, Wang, Zhanyun, ETH Zurich, Wielinski, Jonas, Eawag/ETH Zürich, United Kingdom Germany Switzerland Switzerland Yang, Zhugen, Cranfield University, Zonja, Bozo, SLU Uppsala, Sweden WANG, Yue, University of Wiesinger, Helene, ETH Zürich, United Kingdom Zullo, Lorenzo, Chemycal, Amsterdam, Netherlands Switzerland Yao, Yiming, Nankai University, Netherlands Wang, Feng, UN Environment, Wießner, Katharina, UAS China Zupancic, Masa, NIB, Slovenia France Technikum Wien, Austria Yargeau, Viviane, McGill University, Zupanic, Anze, NIB, Slovenia Wassenaar, Pim, RIVM / Leiden Wilde, David, LEITAT, Spain Canada Zushi, Yasuyuki, AIST, Japan University, Netherlands Wilkinson, John, University of York, Yaseneva, Polina, University of United Kingdom Cambridge, United Kingdom Zwiener, Christian, Universität Tübingen, Germany
114 scicon.setac.org Author Index
Al-Zeer, Munir A.. 6.03.2 Alzaga, Vanesa. 2.03P.3 Arenas-Sánchez, Alba. 2.05P.13, A Alavian Petroody, Somayye. 4.14.4 Amadei, Andrea. 5.06.3 2.05P.7, 4.19P.1 Albergamo, Vittorio. 3.15.1 Amalfitano, Stefano. 3.05P.17 Ares, Leticia. 7.02.2 1, Tommaso. 2.02.6, 2.12PC.1 Albers, Ariane. 5.02.11 Ambrosini, Roberto. 4.14P.7 Arias-Estévez, Manuel. 2.08P.12, 3.08P.18 Aalizadeh, Reza. 1.05P.10, 3.08P.17 Albers, Janice. 2.06.2 Amcoff, Mirjam. 2.11P.1 Albertí, Jaume. 5.08PC.5 Amigo, Jose. 3.04P.8 Arias-Estevez, Manuel. 3.16P.6, Aarønes, Malin Røyset. 2.02P.21 3.16P.7 Alberti, Luca. 4.04P.6 Amirbekov, Aday. 4.04P.12 Abad, Esteban. 3.03P.22, 3.04P.2 Arkumarev, Volen. 2.13P.4 Albrecht, Matthias. 2.02P.5 Ammendola, Anna. 2.02.6 Abalos, Manuela. 3.03P.22 Armiento, Giovanna. 3.20P.21 Albuquerque, Anjaina. 4.17PC.2, Amodeni, Anuoluwapo. 3.08P.16 Abdalla, Raisa. 4.11P.3 Armitage, James. 1.15PC.1, 4.17PC.3 Amor, Ben. 5.02P.19, 5.03.5, 5.07P.2 Abdallah, Mohamed. 6.06P.7 1.15PC.4, 3.02.1, 4.03.3, 4.03P.10, Alcaide, Vicente. 2.03P.3 Abdou, Melina. 3.16P.17, 3.20.9 Amorim, Maria Clara. 1.11P.2 4.03P.9 Alcântara, Cayo. 4.11P.12, 4.11P.13 Abeynayaka, Amila. 5.06P.1 Amorim, Monica. 2.09.2, 4.08P.7, Arnal, Charlotte. 3.05P.15 Alcaraz, Alper James. 1.10P.13 4.14P.6 Aboites Espinosa, Luis. 1.05P.11 Arnberg, Maj. 1.08.1 AlChahir Bel Hajjar, Carla. 3.12.22 Amouroux, Isabelle. 3.18.2 Abramowski, Alexander. 3.16P.18 Arnot, Jon. 1.03.9, 1.15PC.1, Abrantes, Nelson. 2.07P.4, 3.04P.7 Aldaco, Rubén. 5.08PC.5 Amoussou, Nellya. 2.01.3 1.15PC.4, 3.02.1, 3.02P.17, 4.03.3, Abreu, Fiamma. 3.16P.14, 6.09P.4 Aldrich, Annette. 4.06P.3, 4.12P.2 Amtwi, Barima. 6.12P.2 4.03.5, 4.03P.10, 4.03P.3, 4.03P.7, 4.03P.9 Abreu, Siz. 1.05P.32, 2.03P.5 Aleiferi, Eleni. 1.05P.10 Amu-Mensah, Frederick. 6.12P.2 Arnot, Tom. 4.01P.15 Abril, Meritxell. 2.08P.4 Alejandre, Elizabeth. 5.04P.13 Amu-Mensah, Leonard. 6.12P.2 Aronsson, Maria. 3.22P.4 Abusafia, Attaallah. 3.12.1 Aleström, Peter. 1.04.3, 1.10P.14 Amu-Mensah, Marian. 6.12P.2 Arp, Hans Peter. 3.17.3, 6.06P.10 Accolla, Chiara. 4.07P.12, 4.12P.1 Alexander, Mhairi. 4.02.5 Ancona, Valeria. 4.04.5, 4.04P.3 Arrhenius, Asa. 4.02P.2, 6.06.1 Acevedo, Pelayo. 2.03P.1, 2.03P.3 Alfano, Massimiliano. 1.14P.1 Anderson, Amanda. 3.20P.18 Arrighetti, Pietro. 6.08P.2 Achten, Wouter. 5.03.4 Alfarhan, Ahmed. 2.12P.5, 3.12P.2 Anderson, Jordan. 1.03P.8 Arriola, Aline. 3.07.2 Achterberg, Eric. 3.11P.2 Alhama-Carmona, José. 2.08P.13 Anderson, Todd. 6.04P.6 Arroja, Luís. 5.01.6, 5.07P.10, Ackermann, Juliane. 4.03P.2 Ali, Aasim Musa Mohamed. 4.15.3 Andersson, Anna. 3.09P.4 5.07P.3 Adam, Véronique. 4.10P.5 Alix, Anne. 2.04P.10, 2.04P.13, Andersson, Niklas. 6.04.4 8.01.6, 8.01.7 Arslan, Pinar. 3.03P.14 Adamovsky, Ondrej. 1.05P.8, Andersson, Patrik. 6.06P.10 Artal, Mariana. 4.11.4 1.05P.9 Alkassab, Abdulrahim. 2.02.2 Andersson Stavridis, Malin. Artetxe, Unai. 4.04.6 Adams, Elena. 1.15P.4, 4.12P.4 Allabashi, Roza. 1.14P.1 3.03P.16 Artigas, Joan. 2.08.1 Adams, Jennifer. 3.03P.1 Allacker, Karen. 5.03.3 Andersson Trojer, Markus. 4.02P.2 Arts, Gertie. 2.01.1, 2.01P.11, Adams, Merrin. 3.11.4 Allard, Gayatri. 3.19.4 Andersson-Sköld, Yvonne. 3.22P.4, 3.22P.5 2.01P.5, 2.04P.13 Adams, William. 3.23P.6 Allen, Joey. 2.01.3 Andrade, Aline. 2.02P.12 Arukwe, Augustine. 1.07P.1, 6.02P.7 Addy Orduna, Laura. 1.13P.7 Allen, Timothy. 7.01.2 Andrade, Elena. 5.03P.1 Asbach, Christof. 4.14P.1 Adeleke, Rasheed. 2.04P.7 Allendorf, Flora. 6.04.8, 6.04P.3 Andrade Cerqueira, Julia. 1.02P.8 Asemaninejad, Asma. 6.08P.7 Adeleke, Solomon Babatunde. Alliot, Fabrice. 1.01.2, 3.14PC.1 Ashauer, Roman. 1.16PC.1, 4.02P.5, 3.02P.19 Almeida, Ana. 3.08.6, 3.08P.3, Andres, Sandrine. 6.01P.1 4.07.2, 4.07.3, 4.07P.3, 4.07P.4, Ademollo, Nicoletta. 1.11.1, 4.20P.3 3.08P.4 Andreu, Vicente. 3.10P.25, 7.02.2, 7.02P.2, 7.02P.4 4.13.3 Adjei-Mensah, Collins. 6.12P.2 Almeida, Ana Catarina. 3.12P.21, 3.12P.4, 4.08.2 Andrews, Steven. 4.02P.13 Asimakopoulos, Alexandros. Adolphi, Claudia. 3.24P.8 3.08P.13 Almeida, Ana Rita. 2.08.8 Andvik, Clare. 1.13.1 Adrian, Lorenz. 6.03.2 Askerov, Faig. 1.08P.5 Almeida, Célia. 4.08P.7 Anesti, Ourania. 1.10P.1 Adrian, Philippe. 3.10P.30, 6.09PC.1 Aslam, Shazia. 3.08P.13 Almeida, Mónica. 4.12.1 Angel, Brad. 3.20.10 Adrianto, Lugas Raka. 5.01.3, Ašmonaitė, Giedrė. 3.03P.16 Alomar, Carme. 3.03P.6 Angelis, Paolo. 4.04P.15 5.04P.14 Asplund, Lillemor. 1.05.5, 3.07.1 Alric, Benjamin. 2.05.3, 2.05P.3 Anger, Philipp. 3.04P.13 Afonso, Carlos. 2.08.5 Asselin, Anne. 5.04.17, 5.04P.3 Altenburger, Rolf. 1.05P.28 Angouria-Tsorochidou, Elisavet. Afri-Mehennaoui, Fatima. 2.07P.2 Asselman, Jana. 1.04.2, 4.01P.6 Altier, Alexandra. 3.18.1, 3.18P.3 3.11P.6, 5.07P.7 Agalou, Adamantia. 3.06.2 Assumpcio, Anton. 5.04P.7 Altin, Dag. 1.06.5, 2.06P.2, 3.11P.8 Aninda, Mohammad Sana Ul Huq. Agatz, Annika. 2.04P.10, 4.07P.3 Astaikina, Anzhelica. 2.10.5 Altmann, Korinna. 3.12.1 2.07.2 Agerstrand, Marlene. 6.01.2 Asturiol, David. 1.09P.7 Altuna, Ane. 1.09P.1 Ansanelli, Giuliana. 5.02P.15 Aggerbeck, Martine. 1.10P.1 Astuto, Maria Chiara. 4.08P.17 Álvarez, Elvira. 3.03P.6 Antczak, Phillip. 1.03.11 Agostini, Vanessa. 3.03P.2 Atalay, Yasemin. 1.15P.1 Alvarez, Joyce. 2.08.6 Antico, Enriqueta. 3.11P.1 Aguilar Vitorino, Hector. 4.11P.11, Antignac, Jean-Philippe. 3.06.1 Athey, Samantha. 3.03.9, 3.03P.1 4.11P.5 Alvarez, Lara. 2.04P.13 Anton, Assumpcio. 5.05.1 Athmouni, Khaled. 3.20P.25 Ahammad, Shaikh Ziauddin. Alvarez Ruiz, Rodrigo. 2.12P.5, Audouze, Karine. 1.10.2 4.04P.5 3.16P.8, 4.01P.9 Antonelli, Alessandro. 1.09P.7 Auffret, Michel. 1.02P.2 Ahonen, Salla. 3.21.2 Alvarez-Esmorís, Cristina. 3.16P.7 Antonelli, Manuela. 3.05.1, 3.05P.7 Auger, Lucile. 3.14.3 Ahrens, Lutz. 3.09P.4, 3.15.2, Alvarez-Hernandez, Sergio. 1.02P.7 Antonioli, Diego. 3.12.3 3.19P.4 Álvarez-Rodríguez, Esperanza. Antoš, Vojtěch. 4.04P.1 Augustin, Laurent. 3.05.5 Ahuchaogu, Chinedu. 1.09P.10 2.08P.12, 3.16P.6, 3.16P.7 Antosiak, Adam. 6.03.5 Augustin, Thomas. 3.25P.1, 6.06P.6 Ahvo, Aino. 3.22.4 Álvarez-Rogel, Jose. 2.10P.7 Anumol, Tarun. 3.07P.4, 3.09P.7, Augusto, Sofia. 3.19P.13 Aicher, Lothar. 3.17.4 Alves, Arminda. 3.19P.6, 3.19P.8 3.14PC.2 Aulhorn, Silke. 1.04.4 Aimola, Giorgia. 4.04.5, 4.04P.3 Alves, Luís. 1.11P.2, 1.11P.4, Anza, Mikel. 4.04.6 Aulstad Sogn, Trine. 4.15.3 Aires, Ana. 1.05P.12, 3.08P.9 1.11P.5, 1.13P.4, 2.07P.3 Apitz, Sabine. 6.07.5 Aurisano, Nicolo. 3.13.4, 5.01P.2 Ait-Aissa, Selim. 6.01P.1 Alves, Marta. 6.05P.3 Appeltauer, Andreas. 2.02P.10 Avadi, Angel. 5.05.4, 5.05.6, 5.05P.1 Ajao, Charmaine. 6.01.1, 6.04.4, Alves, Nelson. 1.01.3 Apte, Simon. 3.20.10 Avagianos, Christos. 6.03.4 8.03.9, 8.04.5 Alves, Paulo. 4.19P.3 Aranda-Mares, José Luis. 3.04P.12 Avasilcai, Liliana. 3.05P.4 Akbari, Ali. 4.04P.9 Alves da Silva, Karlo. 2.05P.1 Araujo, Cristiano. 2.06.4, 2.06.5, Avello Nicola, Patricia. 2.02P.12 Akkanen, Jarkko. 3.11.2, 3.16P.20 Alvincz, Julia. 1.12.1 2.06P.4, 2.06P.5 Averous-Monnery, Sandra. 5.06P.2 Al Salah, Dhafer. 3.24.5 Alyemeni, Mohammed. 2.12P.5 Archer, Edward. 3.08P.2, 4.01P.14 Aviles, Amandine. 1.01.2, 1.09P.6 Al-Tamimi, Amal. 3.12P.2 Alygizakis, Nikiforos. 1.13P.3, Ardito, Luigi. 3.05.5 Avisar, Dror. 4.09.1 2.13P.1, 2.13P.6, 3.08P.5 Arena, Maria. 1.09.4 Awkerman, Jill. 2.06P.7, 4.06.4, SETAC Europe 30th Annual Meeting - SETAC SciCon 115 4.07P.12, 4.12P.1 Barata, Carlos. 1.05P.16, 1.07.1, 1.09.4 Berger, Markus. 5.04.11, 5.04.8 Awonaike, Boluwatife. 3.24.2 1.13.5 Bayona, Josep M. 3.05.6 Berger, Urs. 6.04P.3 Axenov-Gribanov, Denis. 1.04.4 Baratange, Clement. 2.08.10 Beach, Daniel. 6.03.1 Bergesen, Joseph. 5.02.3 Ayadi, Habib. 3.20P.25 Barbarin, Marine. 2.07P.6, 2.07P.8 Beames, Alistair. 5.02.13 Bergin, Andrew. 8.01.5 Ayciriex, Sophie. 1.06.6 Barber, Jonathan. 1.13P.1, 2.07P.5 Beaudouin, Rémy. 1.05.6 Berglund, Åsa. 2.07.5 Ayobahan, Steve. 1.05.11, 1.12.1 Barber, Tim. 3.19.2 Becanova, Jitka. 3.18P.6 Bergmann, Alan. 4.05P.5 Azam, Philippe. 1.03.3 Barbieri, Maria Vittoria. 3.10P.29 Becerril, Jose. 4.04.6 Bergmann, Jana. 3.20P.1 Azevedo, Carina. 4.17P.1 Barbosa, Graziela. 4.03P.6 Béchaux, Camille. 1.11.3 Bergmann Kirsch, Christian. Azevedo, Cátia. 4.08P.7 Barbosa, João. 4.01P.6 Béchet, Béatrice. 3.12.21 2.05P.1, 2.10.6 Azevedo, Ligia. 4.12.2 Barcelo, Damia. 2.12P.5, 3.10P.29 Bechmann, Renée. 1.08.1, 4.07.5, Berk, Dimitrios. 3.12P.3 Barceló, Damià. 3.12.16, 3.12P.2 4.07P.5 Bernal, Kevin. 1.10.2 Barden, Ruth. 4.01P.15, 4.09P.9, Becker, Chong. 5.06.6 Bernegossi, Aline. 4.01.3 B 7.02P.9 Becker, Jeremias. 3.08.2 Berny, Philippe. 2.13P.5, 2.13PC.4 Barfknecht, Ralf. 6.10P.1 Becker, Maik. 5.02P.7 Beronius, Anna. 1.09P.7, 6.01.2 Babica, Pavel. 1.10P.10, 1.10P.11, Barigye, Stephen. 1.03.6, 3.08P.10 Beckers, Liza-Marie. 3.08.2, 4.05.1 Berresheim, Harald. 6.06P.7 1.10P.9 Barmaz, Stefania. 1.09.4 Beckmann, Georg. 5.02P.11 Bersuder, Philippe. 3.18.2 Babich, Remy. 1.11.5 BARONNET, Maëlle. 5.03P.2 Beckmann, Marion. 3.10.4 Bertato, Linda. 3.15P.4, 4.03.3, Babin, Patrick J. 1.05.10 Barouki, Robert. 1.10.2, 1.10P.1 Bedini, Stefano. 2.02.6 4.03P.10, 4.03P.9 Babut, Marc. 3.02P.13, 3.02P.18 Barozzi, Benedetta. 4.04.1 Bednarska, Agnieszka. 2.02.1, Berthaud, Fabienne. 1.16PC.3 Baccaro, Marta. 4.03P.8, 4.14.3 Barra, Ricardo. 3.02P.9, 3.18P.5 2.02P.24, 2.02P.7, 2.02P.8, 2.02P.9 Bertho, Nathan. 5.03P.2 Bacchetta, Renato. 3.12P.15, Barra Caracciolo, Anna. 1.11.1, Bedulina, Daria. 1.04.4 Bertling, Jürgen. 5.06.4, 5.06P.3 4.14P.7 2.12P.3, 4.04.5, 4.04P.2, 4.04P.3, Beel, Georgia. 3.26P.2 Bertling, Ralf. 4.14P.1 Bach, Alexander. 2.04P.4 4.20P.3 Beeltje, Henry. 3.15P.2, 3.16P.21 Bertold, Carolin. 4.15P.6 Bach, Andressa. 2.04P.5, 2.05P.1, Barranger, Audrey. 1.04.8 Beggel, Sebastian. 3.12P.18, Bertram, Michael. 2.11P.1 2.10.6 Barré, Mathilde. 1.02.3 3.12P.34 Bertrand, Colette. 2.09P.15 Bach, Vanessa. 5.04.12 Barret, Aurélie. 3.10P.30, 6.09P.7, Beggio, Giovanni. 4.20P.4 Bervoets, Lieven. 3.23.1, 3.23.2, Bachiller Jareno, Nuria. 2.05.7 6.09PC.1 Begnaud, Frederic. 1.16PC.3 3.23P.7, 6.04P.5, 6.04P.7 Bachmann, Jean. 3.08.4 Barret, Maïalen. 2.08.10 Behets, Tom. 2.10P.6 Berzosa, Joan. 5.02P.10 Backhaus, Thomas. 1.05P.19, Barreto, Angela. 4.08P.7 Behnisch, Peter. 3.08.4, 4.05.2 Bessa, Ana. 1.14PC.1 2.08.2, 4.02P.2, 6.06.1 Barreto, Ângela Maria. 4.14P.6 Beis, Dimitris. 3.06.2 Besse-Hoggan, Pascale. 2.08.1 Backović, Damjana. 6.03.5 Barrett, Elin. 1.15P.7, 1.15PC.2 Bejarano, Adriana. 1.03P.1, 1.03P.3 Besselink, Harrie. 3.05.3, 4.05.2 Badder, Claire. 1.10P.8, 2.02P.25, Barron, Leon. 1.02.1, 3.08P.11, Bekaert, Michael. 1.04.10 Best, Niklas. 3.24P.8 4.02P.5 3.09P.14, 3.14.1, 3.16.2, 3.16P.13, Belanger, Scott. 1.03.5, 1.03P.14, Bester, Kai. 3.05P.14, 3.16P.15 Bado-Nilles, Anne. 1.05.6 3.16P.2, 3.16P.5 4.01P.4, 4.10.1, 4.10.2, 4.10P.2, Bettinetti, Roberta. 3.16P.11 Badry, Alexander. 2.13P.1, 2.13P.6, Barron, Mace. 1.03P.14, 1.03P.3 4.10P.8 Bettoschi, Alexandre. 3.18.2 3.08P.5 Barros, Marta. 3.12P.5 Belfield, Samuel. 4.06.1 Beuret, Maximilien. 3.20P.12, Baena-Angulo, C.. 2.08P.13 Barros, Susana. 1.01.3 Belgers, Dick. 2.02P.23 3.20P.13 Baez Díaz, María Consuelo. Barsi, Alpar. 4.07.8 Belkhiria, Sami. 4.03P.3, 6.06P.2 3.16P.19 Beutel, Marc. 1.14PC.4 Bart, Sylvain. 4.02P.5 Bellazzi, Alice. 4.04.1 Baeza, Ana Carolina. 3.18P.5 Bezuidenhout, Cornelius. 2.04P.7 Bartalini, Alice. 1.11P.4 Bellotti, Giovanni. 3.05P.7 Bagi, Andrea. 2.08.9 Bicherel, Pascal. 1.03P.15 Bartholomeus, Ruud. 7.03PC.2 Bellucci, Francesco. 2.02.6 Bagnuolo, Giuseppe. 4.04P.3 Bichon, Emmanuelle. 3.06.1 Bartlett, Paul. 3.21.1 Beloin-Saint-Pierre, Didier. 5.01.2 Baho, Didier. 2.05P.11 Bieczynski, Flavia. 1.10P.5 Bartonitz, Astrid. 3.12P.34 Beltman, Wim. 3.10P.13, 4.07.9, Baik, Seungyun. 1.03P.11 Biedermann, Eynat. 5.06.6 Basili, Danilo. 2.08P.3 4.07P.15 Baima, Isabele. 4.11P.6, 4.11P.7, Bielská, Lucie. 3.10P.22, 3.10P.27, Basopo, Norah. 2.09P.2, 3.23P.1 Beltran, Estelle. 3.10P.30 4.11P.8 3.10P.6 Bass, Chris. 2.02P.19 Belzunce, Maria Jesús. 3.18.2, 3.18.2 Baird, Donald. 2.04.2, 2.04.4, Bienfait, André. 3.04P.17 Basset-Mens, Claudine. 5.05.1, 2.06P.6 Belzunce Segarra, Maria Jesus. Biesmeijer, K.. 1.13P.3 5.05.2 3.18P.1 Bajagain, Rishikesh. 6.05P.10, Bietz, Jens. 3.17P.6, 3.17P.7, 6.06.4 Bastviken, David. 3.09P.4 6.05P.13 Bemis, Jeff. 1.04P.5 Bigalke, Moritz. 3.23.4 Basu, Nil. 1.12P.1, 1.12P.2 Bajard, Lola. 1.10P.9 Ben Mordechay, Evyatar. 3.05.7 Biganzoli, Fabrizio. 5.04.10 Basu, Niladri. 1.10P.13 Bajema, Bernard. 3.15P.2 Benali, Imene. 4.01P.13, 6.02P.4 Bighiu, Maria. 2.06P.3 Batley, Graeme. 3.11.4, 3.20.10 Bąk, Sara. 2.02P.24 Benayache, Naila. 2.07P.2 Bijlsma, Lubertus. 3.15.2, 3.15P.3, Batlle-Bayer, Laura. 5.08PC.5 Baken, Stijn. 3.20.3, 3.20.4, 3.20P.8, Benedet de Santo, Fernanda. 7.02.2, 7.02P.2, 7.02P.3, 7.02P.4 3.20P.9 Batt, Angela. 3.05.4 2.09P.7, 4.13.2, 4.13P.5, 4.19P.3 Bilbao, Denis. 2.08P.7 Bakker, Eric. 3.20.9 Battersby, Rodger. 3.20P.1 Benfatti, Andrea. 1.14P.1 Bilbao, Dennis. 1.08P.3 Bakker, Ruben. 1.10.1 Baudo, Renato. 4.20P.1 Bengoa, Xavier. 5.01.1 Bílková, Zuzana. 3.10P.6 Bakkerud, Olav. 3.08P.13 Bauer, Christian. 5.01.4 Benguedouar, Hiba. 4.14.4 Binelli, Andrea. 3.03.8 Bala, Alba. 5.08PC.5 Bauer, Coretta. 1.05.8 Benner, Lena. 2.02P.18 Binet, Francoise. 1.04.8 Balcazar, Jose Luis. 4.15P.1 Bauer, Franklin. 1.14P.6, 7.01.6, Benoist, Anthony. 5.02.11 Binet, Monique. 3.11.4 7.01P.1 Baldantoni, Daniela. 3.20P.12 Benskin, Jonathan. 3.16P.12, Binetti, Rita. 3.05P.9 Bauer, Rebecca. 2.11PC.2, 3.09P.9 3.24P.2 Baldy, Alice. 2.08P.7 Binner, Hannah. 4.01P.11 Bauerlein, Patrick. 3.04P.3 Benstead, Rachel. 2.01P.4, 3.16P.4 Ball, Hollie. 3.04.1 Birch, Heidi. 1.16P.1, 3.17P.1 Baulf, Hedley. 1.04P.4 Bentum, John. 6.04P.10 Ballangby, Jarle. 1.04.3 Birchenough, Silvana. 3.21P.1 Baumann, Lisa. 1.05.11, 1.09.2, Berdalet, Elisa. 6.03P.2 Balmassière, Ludivine. 1.03P.7 Birkitt, Lucy. 3.16P.5 1.09P.2, 1.09P.3, 1.09P.4, 1.09P.5 Berends, Albert. 3.17.4 Balzamo, Stefania. 3.05P.16 Bisesi, Joseph. 1.03P.16, 1.05P.8, Baumann, Stephan. 3.06P.2 Beresford, Nicola. 1.05P.1 Banas, Damien. 3.14.3, 3.24P.1 1.05P.9 Baumgartner, Caroline. 4.02.4 Beretsou, Vasiliki G.. 3.05.3, Bancel, Sarah. 1.09.1 Bissolotti, Giorgio. 3.05P.7 Baun, Anders. 2.01P.1, 2.07.6, 3.09P.12 Bandow, Nicole. 3.13P.3, 3.13P.4 Bitter, Kristina. 2.08P.11, 4.14P.1 4.10P.2 Berezina, Anfisa. 3.12P.42, 3.21P.7 Banfi, Stefano. 3.15P.4 Bittrich, Lars. 3.04.3 Baussant, Thierry. 1.08.1 Berg Lea, Trygve. 3.03.7 Bannick, Claus-Gerhard. 3.12.1 Bizzotto, Elisa. 3.20P.16 Baveco, Hans. 2.02P.14, 2.04P.10, Bergemann, Christina. 2.08.4 Banno, Arisa. 3.18P.4 Bjerregaard, Poul. 1.09P.6 4.07.9, 4.07P.15 Bergen, Benoit. 3.20.7 Banta, Gary. 3.03P.17 Björklund, Anna. 5.02.8 Baxter, Colden. 2.07.4 Bergen, Tamara Joanna Helena Björklund, Karin. 3.22P.4 Bänziger, Sarah. 4.12P.2 Baynes, Alice. 1.05.12, 1.05P.1, Maria. 4.01P.1
116 scicon.setac.org Bjorøy, Ørjan. 3.04P.17 2.03.2, 3.16P.11, 3.21.1 Brettell, Nathan. 3.10P.7, 3.10P.8 Burket, Sarah. 3.16.1 Bjørn, Anders. 5.04.7 Borisover, Mikhail. 3.05P.12, 3.08.5, Breuer, Lutz. 3.10P.13, 4.07.9 Burkhardt-Medicke, Kathleen. Blaha, Ludek. 1.02.3, 1.10.2, 7.02P.8 Breuer, Thomas. 4.15P.6 1.10P.5 1.10P.9, 3.09P.15 Borlandelli, Cristina. 6.08P.2 Brill, Jessica. 1.03P.14, 4.01P.4, Burns, Emily. 4.18P.2, 4.18PC.4 Blahova, Lucie. 3.09P.15 Borrego, Carles. 4.15P.1 4.10.1, 4.10P.2, 4.10P.8 Burns, Tom. 1.03P.5 Blake, Bevin. 6.04P.2 Borrely, Sueli. 4.09P.12 Brina, Alessandro. 3.05P.7 Burosse, Virginie. 1.03P.15 Blake, Robin. 4.16P.1 Boscardin, Rachel. 3.05.5 Bringer, Arno. 2.07P.6 Burris, Rian. 6.02P.6 Blakey, Alex. 4.06P.5, 6.10P.12, Bosch, Cristina. 3.16P.16 Brinkmann, Bregje. 4.08.3 Burton, G. Allen. 1.08P.6 6.10P.7, 6.10PC.5, 6.11P.4 Bosh-Ferreiro, Gerardo. 2.03P.1 Brinkmann, Markus. 1.03P.10, Bury, Nicolas. 1.02.1, 1.03.10, Blanc, Etienne. 1.10.2 Boskovic, Nikola. 3.10P.6 1.10P.13, 1.16P.3, 4.03.1, 4.03P.7 1.03.9, 3.16.2, 4.03.5 Blanc, Melanie. 1.05.1 Bossaer, Mattias. 3.12P.8, 7.04P.2 BRION, Francois. 1.09.3, 6.01P.1 Buscaroli, Alessandro. 5.02P.5 BLANC, Philippe. 5.03P.2 Bossy, Cecile. 3.20.9 Brits, Martin. 3.07.3 Busch, Wibke. 1.04.4 Blanchet, Pierre. 5.02P.19, 5.03.5 Botha, Tarryn. 6.11P.1 Britton, Christine. 6.02P.1 Bush, Alex. 2.06P.6 Blanco, Carlos. 5.02.10, 5.02.13 Bottoms, Melanie. 2.09P.6, 2.10P.4 Broadrup, Robert. 3.06P.2 Bustamante, Maria de los Angeles. Blanco Rubio, Maria. 3.24P.5 Bouaicha, Noureddine. 2.07P.2 Brock, Olaf. 3.15.1 2.12P.3 Blank, Lars. 2.08P.11, 4.14P.1 Boualit, Laurent. 4.01P.13, 4.12P.6 Brock, Theo. 6.08P.3 Bustos Lopez, Martha Crstina. 3.16P.19 Blasco, Julian. 2.06P.5, 2.08P.13 Boucher, Julien. 5.06.2 Brock, Theo C.M.. 8.03.1 Butsic, Van. 1.14PC.4 Blatz, Donovan. 1.10P.3, 4.19P.2 Bouderbala, Mohammed. 4.01P.13, Brockmeier, Erica. 6.07P.4 Blazejewski, Tomasz. 5.02P.13 6.02P.4 Brodin, Tomas. 2.11P.1 Buttol, Patrizia. 5.02P.5 Bleeker, Eric. 4.08.4, 6.05P.6 Bouihed, Maryam. 5.04P.3 Brodschneider, Robert. 2.02P.14 Button, Jenny. 3.07P.3, 3.07P.6 Bliss, Liam. 2.02.5 Bouillass, Ghada. 5.03.7, 5.03P.2 Broeckart, Fabrice. 6.04.4 Byers, Harry. 4.06P.7 Bloemer, Jan. 3.22P.1 Boulanger, Emily. 1.12P.1 Broer, Wijnand. 5.04.16 Byns, Cara. 6.04P.7 Blom, Judith. 4.06P.3, 4.12P.2 Boulay, Anne-Marie. 3.12.22, 5.04.7, Bron, James. 1.04.10 Bystricky, Maria. 5.04.15 Blom, Lena. 3.22P.4 5.04P.5, 5.06.1, 5.06.5 Brooks, Amy. 4.06P.13, 6.10P.2 Bæk, Kine. 2.03.2 Blondel, Claire. 4.16PC.4 Boulogne, Isabelle. 1.01.2 Brooks, Andrew. 1.14PC.4 Bøe, Susanne. 3.09P.13, 4.09.3 Bloor, Michelle. 8.02.3 Bour, Agathe. 3.03P.14 Brooks, Bryan. 3.16.1 Blot, Philomene. 5.03P.2 Bourcier, Laure M. 1.05.10 Brooks, Steven. 6.02.3, 6.02P.2 Bluhm, Kerstin. 1.10P.13 Bourdais, Serge. 3.14.3 Brouwer, Abraham. 4.05.2 C Blume, Nick. 5.02P.7 Bourgeois, Marie. 6.07P.3 Brown, Andrew Ross. 2.04P.9 Cabon, Joelle. 1.05.9 Blume, Stefan. 5.01P.6 Bouwhuis, Rachel. 6.08P.7 Brown, Ben. 1.04P.2 Cabral, Millena. 1.02P.1 Blust, Ronny. 3.11P.7, 3.23.1, 3.23.2, Bowes, Victoria. 2.13PC.1 Brown, David M. 3.17P.2, 3.17P.3, Cabrera, Ana. 2.02P.5 3.23P.7 Boxall, Alistair. 3.02P.1, 3.08P.15, 4.21P.1 Cabrerizo, Ana. 3.21P.3 Boccard, Julien. 1.12.3 3.13.3, 4.02P.7, 4.10P.1, 4.13P.2, Brown, Ross. 2.04.5, 2.04P.11 Cachot, Jerome. 1.02.3, 2.07P.6, Bocchiglieri, Miriam. 3.05P.20, 7.03P.4, 7.03PC.1 Brown, Trevor. 3.02.1 3.12.4 3.05P.21, 4.01P.3, 4.09P.12, Boxall-Clasby, James. 7.02P.5 Browne, Patience. 1.09P.7 Cachot, Jérôme. 1.05.9 4.09P.13 Boyda, Jonna. 1.05P.9 Brownlow, Andrew. 1.13P.1 Caetano, Miguel. 3.18.2 Bockstaller, Christian. 5.05.4, Boyer, Gregory. 6.03.1 Bruehl, Carsten. 1.15P.4, 4.12P.4 5.05P.1 Caggia, Veronica. 3.23.4 Boyron, Olivier. 3.12.5 Brüggen, Thomas. 4.15P.6 Bode, Gina. 3.25P.2 Cagnon, Christine. 2.08.5, 2.08P.7 Bozzolan, Françoise. 1.01.2 Brugger, Kristin. 6.11P.4 Boehmer, Thomas. 3.19.1, 3.19.2, Cai, Giampiero. 2.09P.5, 2.12PC.1 Braakhekke, Maarten. 4.07.9, Brulle, Franck. 4.06P.7 3.19P.1, 3.19P.2, 3.19P.3, 3.19P.9 4.07P.15 Cai, Yaping. 3.12P.10 Brun, Anna Magdalene. 4.10.1, Boerwinkel, Marie-Claire. 2.02P.23 Cajaraville, Miren. 3.12.17, 3.12P.5, Brack, Werner. 1.05P.19, 2.02P.18, 4.10.2, 4.10P.2, 4.10P.3, 4.10P.8 Bogen, Christian. 2.04.6 2.05P.2, 2.08.2, 3.08.2, 3.24.3, 4.08P.15 Brun, Nadja. 3.12.11 Bogevik, André. 3.12P.30 4.05.1 Calado, Joana. 1.13P.4 Brunning, Hattie. 4.10P.1 Bogusz, Aleksandra. 3.05P.14 Bracquene, Ellen. 5.07.2 Caldeira, Carla. 5.06.3 Bruns, Eric. 1.02P.10, 2.02P.23, Braga, Adriana. 2.01P.16 Caldwell, Daniel. 4.09.2, 4.09P.16 Böhm, Paul. 3.18P.7 4.07.1, 6.09P.1, 6.09P.2, 6.09PC.4 Bragança, Idalina. 3.19P.6, 3.19P.8 Caldwell, Gary. 1.02P.6, 4.07P.1, Bohn, Joe. 6.07P.3 Bruvik, Kenneth. 3.12P.25 Brakstad, Odd. 3.12P.38 6.02.5 Boivin, Arnaud. 3.10.1, 4.06P.7, Bschir, Karim. 6.07.3 4.16PC.4 Bramaz, Nadine. 4.03.5 Caley, Jane. 6.04.4 Bub, Sascha. 3.10P.11, 4.07.9 Bolam, Thi. 3.18.2 Brami, Claire. 2.09P.1 Calgaro, Loris. 3.02P.16 Buchanan, Anthony. 3.14P.3 Bolea, Eduardo. 3.16.7 Branco, Giovana. 4.11P.10, Caliani, Ilaria. 2.02.6, 2.09P.5, Bucheli, Thomas. 3.24.1 Bollinger, Eric. 2.08.3 4.11P.14, 4.11P.15 2.12PC.1 Bucher, Thomas. 3.05P.19 Bollmann, Ulla. 3.16P.15 Brandsma, Sicco. 3.07.3, 3.07P.2, Calisi, Daniele. 1.14P.1 Büchs, Jochen. 1.10P.7 Bolonio, David. 5.02P.4 3.07P.3, 3.07P.6 Calusinska, Magdalena. 3.12P.41 Bücking, Mark. 3.14P.1 Bonato, Marco. 6.04P.11, 6.04P.12 Brandstätter-Scherr, Kerstin. Calviño, David. 2.08P.12, 3.16P.6 3.10P.6 Bučytė, Justė. 2.12P.4 Bondarenko, Liubov. 4.08.5, 4.08P.1 Calza, Paola. 3.05P.9 Brandt, Annely. 2.02P.5 Budin, Clémence. 4.05.2 Bonet, Berta. 2.08P.8 Camacho-Muñoz, Dolores. 4.01P.15 Brandt, Josef. 3.04.3 Budinska, Eva. 1.05P.8 Bonkoungou, Isidore. 3.08P.8 Camarero, Pablo. 2.13P.4, 2.13PC.2, Braubach, Matthias. 1.14PC.3 Budzinski, Hélène. 1.09.3, 3.02P.18, 2.13PC.3 Bonnard, Isabelle. 1.02.4 Braud, Lea. 5.01P.3 3.05P.16, 3.18.4, 4.08P.15, 4.19PC.3 Camargo, Marilia. 4.11P.14 Bonnard, Marc. 1.02P.2 Brauer, Michael. 3.10.3, 3.10P.16 Buenaventura, Nina. 3.12P.9 Cambier, Sébastien. 3.12P.41, Bonnefille, Benilde. 1.12.3 Braun, Georg. 3.24.3 Buenestado, Sergio. 1.06.3 3.20P.15 Bonnell, Mark. 1.03P.3, 1.04P.5 Braun, Ulrike. 3.22.3 Buerger, Amanda. 1.05P.8 Camenzuli, Louise. 3.17.2, 3.17P.2, Bonnomet, Vincent. 1.15PC.3 Braunbeck, Thomas. 1.09.2, Bugsel, Boris. 3.09P.8 3.17P.3, 3.17P.4, 3.17P.5 Bonvallot, Nathalie. 3.06.4 1.09P.2, 1.09P.3, 1.09P.4, 1.09P.5 Buijse, Laura. 2.05P.4 Caminada, Maithê. 3.05P.20, Boon, Arjen. 5.04P.15 Bravi, Clara. 6.08P.2 Bulle, Cecile. 3.12.22, 5.04P.4, 3.05P.21, 4.01P.3 Booth, Andy. 3.03.2, 3.03P.15, Bravo, Barbara. 3.03P.5 5.05.5, 5.06.5 Caminada, Suzete. 3.05P.20, 3.12P.38, 3.22P.8 3.05P.21, 4.01P.3, 4.09P.12, Brede, Dag. 1.02P.6, 1.10P.14, Bultelle, Florence. 1.02P.2 Bopp, Stephanie. 4.02.2 4.09P.13 2.01P.7, 2.01P.8 Bundschuh, Mirco. 2.07.2, 2.07.3, Borchert, Flora. 6.01.2 Camões, Joana. 4.05P.9 Breedveld, Gijs. 6.04.3 2.08.3, 2.08P.6, 3.12P.40, 4.09P.2, Bordalo, Maria. 1.02P.3, 2.03P.5, 4.17P.2, 6.05P.4 Campanale, Claudia. 3.12P.35 Breitholtz, Magnus. 3.07.1 4.16P.5 Bundschuh, Rebecca. 2.07.3 Campani, Tommaso. 2.09P.5 Breivik, Knut. 3.07.2 Borella, Maria Ines. 4.11P.14 Burbridge, Connor. 1.10P.13 Campillo-Cora, Claudia. 3.08P.18 Bremmer, Johan. 2.04P.13 Borello, Domenico. 4.04P.3 Burden, Natalie. 1.03.2, 4.09P.22 Campos, Bruno. 1.12.4, 7.01P.2 Brendt, Julia. 1.10P.7 Borga, Katrine. 1.13.1, 2.02P.21, Burkard, Michael. 1.05.3, 4.08P.11 Campos, Diana. 3.12P.13, 3.12P.23, SETAC Europe 30th Annual Meeting - SETAC SciCon 117 3.12P.24, 3.12P.28, 4.16P.5 Castilla Alcántara, José Carlos. Chefetz, Benny. 2.12PC.2, 3.05.7, Collet, Pierre. 5.01.2, 5.02.11 Cañas, Martha Susana. 3.20P.26 4.04P.8, 4.04P.9 3.16.3, 7.03PC.1 Collin, Blanche. 3.11.10, 3.20P.17 Candolfi, Marco. 2.09.3 Castillo, Nicholas. 2.11P.1 Chelinho, Sonia. 4.11.1 Collins, Georgina. 1.09.4 Canfield, Tim. 6.07P.5 Castillo-Michel, Hiram. 3.12P.20 Chen, Hao. 3.14.2 Collison, Elizabeth. 2.02P.2, 4.16P.2 Canoira, Laureano. 5.02P.4 Castle, Denise. 2.02.2 Chen, Jiaoyan. 1.12P.3, 4.07P.18 Colpo, Pascal. 3.04P.18, 3.04P.19, Cantero, Inma. 5.02P.12, 5.02P.18, Castro, Filipe. 1.01.3, 1.06.1, 1.06.1 Chen, Yuhao. 4.03P.14 3.12.18 5.04P.15 Castro, Mafalda. 3.07.1 Chermette, Etienne. 6.08P.5 Colvin, Molly. 1.08P.6 Cantos, Manuel. 4.04P.8 Castro-Jimenez, Javier. 3.19P.11 Cherta, Laura. 3.03.4 Com, Emmanuelle. 1.04.8 Cantu, Mark. 3.19.4, 3.19P.12, Catarino, Ana I. 3.12P.14, 3.12P.26, Chessa, Adriano. 1.10P.15, Compa, Montserrat. 3.03P.6 4.03P.11 3.12P.29, 3.12P.8, 7.04P.2 2.09P.12, 2.10.6 Companys, Encarna. 3.11.8, 3.11P.1 Cao, Yi. 4.02P.3 Catherine, Arnaud. 1.15PC.3, 6.06.2 Chetwynd, Andrew. 3.03.1 Compson, Zacchaeus. 2.04.2, Caorsi, Giada. 3.03.8 Cattaneo, Franck. 1.03P.7 Chèvre, Nathalie. 1.03P.7, 4.01P.13, 2.06P.6 Capela, Daniela. 3.19P.11 Catteau, Audrey. 1.05.6 4.06P.4, 4.12P.6, 6.02P.4 Concha-Graña, Estefanía. 3.12P.31, Capitão, Ana. 1.06.1 Cazarolli, Luisa. 4.11P.4 CHEVRIER, Cécile. 3.06.4 3.12P.32 Capolupo, Marco. 3.03.2, 3.03P.15 Cébron, Aurélie. 2.08.5 Chiavarini, Salvatore. 3.12.9 Conde-Cid, Manuel. 3.16P.6, Cappelli, Francesca. 3.05P.7, Cecchinato, Caterina. 6.04P.11 Chinchilla, Jose Manuel. 2.03P.3 3.16P.7 3.15P.6, 6.04.1 Cecilia, Joan. 3.18.1, 3.18P.3 Chinellato, Matteo. 6.04P.12 Connelly, Martin. 1.16P.2 Cappucci, Grazia. 5.01P.1 Cedergreen, Nina. 1.04.1, 1.04P.9, Chinnadhurai, Sita. 3.19P.4 Connolly, Mona. 4.08P.10, 6.05P.6 Cardoso, Olivier. 3.14.3 4.02P.1, 4.02P.3, 4.06P.2, 4.07P.9, Chirico, Nicola. 3.15P.4, 4.03.3, Connors, Kristin. 1.03.5, 1.03P.14, Cardozo, Mateus. 4.09P.6 4.09P.5 4.03P.10, 4.03P.9 1.03P.3, 4.01P.4, 4.10.1, 4.10.2, 4.10P.2 Carere, Mario. 1.14P.1, 1.14P.3, Ceia, Filipe. 1.13P.4, 2.07P.3 Chiudioni, Filippo. 1.14P.2, 1.14PC.3 1.14P.4 Cela, Rafael. 3.03P.6 Chmielinska, Katarzyna. 4.10P.3 Conrad, Andre. 3.13P.3, 3.13P.4 Cariou, Ronan. 3.06.1 Celic, Mira. 4.15P.1 Choi, Jin-Soo. 3.12P.16 Conrad, Arnaud. 4.16PC.4 Carles, Louis. 2.08P.5 Cella, Caludia. 3.04P.22 Choi, Jinhee. 7.01.4 Constantine, Lisa. 4.09P.16, 4.09P.21, 4.09P.22 Carlesso, Anna. 5.08P.2 Celma de Oliveira Lima, Emília. Choi, Kyungho. 1.05P.27, 1.05P.5 Conte, Alessandro. 4.04P.6 Carley, Lauren. 2.08.4 4.11P.12 Chollet, Jean-Yves. 2.13PC.4 Conti, Barbara. 2.02.6 Carlin, Joseph. 4.10.3 Celma Tirado, Alberto. 3.15.2, Chong-Kit, Richard. 1.04P.10 Conway, Annaleise. 4.18PC.3 Carlsson, Pernilla. 3.21.1 3.15P.3, 7.02P.2 Choquet, Marvin. 1.06.5 Cook, Brian. 6.07P.3 Carmona Martinez, Eric. 3.24.3, Celo, Valbona. 3.13.2 Choung, Catherine. 2.06P.6 Cooney, Robert. 5.01.5 4.05.1 Celsie, Alena. 4.21P.4 Choyke, Sarah. 6.04.3 Cooper, Christopher. 2.04P.9, Carmona-Antonanzas, Greta. Cera, Alessandra. 1.14PC.2 Chrétien, Nina. 1.05.6 3.20.4, 3.20.5, 3.20P.4, 3.20P.6 1.04.10 Cerasino, Leonardo. 6.03P.1 Christen, Verena. 2.02P.20 Cooper, Myriel. 6.03.2 Carneiro, Diana. 1.05P.15, 1.05P.23 Cerdas, Felipe. 5.01P.6 Christl, Heino. 1.02P.12, 2.01.4 Coors, Anja. 4.07P.3 Carnevali, Oliana. 2.08P.3 Cerkvenik Flajs, Vesna. 3.03P.7 Christmann, Rabea. 1.02P.12, Cope, Harlie. 6.04P.2 Carney Almroth, Bethanie. Cernik, Miroslav. 4.04P.1 3.20P.14 Copetti, Diego. 4.04.1 3.03P.14, 3.03P.16 Cerqueira, Francisco. 3.05.6 Christou, Maria. 1.05P.25 Coppola, Francesca. 1.14PC.1 Carniel, Leticia Scopel. 4.13.1 Cervencl, Cervencl. 6.10P.3 Chu, Seoyoon. 1.05P.27 Corada-Fernández, Carmen. 2.06.4 Caro, Dario. 3.11P.6, 5.08PC.2 Cerveny, Daniel. 2.11P.1 Chung, Jum Sook. 4.11P.11 Corbi, Juliano. 2.01P.16, 4.01.3 Carolan, James. 2.02.4, 2.02.5, Cervi, Eduardo. 1.08P.6 Churilov, Gregory. 4.08.1, 4.08P.6 2.02P.22 Cordeiro, Alexandra. 1.01.2 Cesar, Augusto. 4.09P.6, 4.09P.8 Churilov, Grigoriy. 4.08.1 Carotenuto, Maurizio. 3.20P.12, Cordero-Maldonado, Maria Lorena. Cesarini, Giulia. 1.14PC.2 Ciadamidaro, Lisa. 4.04.4 4.01P.2 1.05.4 Cesnaitis, Romanas. 3.02.2, 7.01.1 Cicala, Davide. 3.16P.11 Carpani, Giovanna. 4.04P.6 Cordier, Sylvain. 5.02P.19 Cesynaite, Jurate. 3.20P.19, Cícero, Laís. 3.12P.23 Carrasco Navarro, Victor. 3.22P.7 CORDIER, Sylvaine. 3.06.4 3.20P.20 Ciesielski, Tomasz. 3.11P.8 Carreck, Norman. 2.02P.14 Cordioli, Alberto. 1.14P.1 Çevirgen, Serap. 3.02P.16 Cincinelli, Alessandra. 2.13P.1, Carrer, Marco. 6.04P.12 Cornelis, Geert. 3.14P.7, 4.14.3 Chabanon, Marthe. 1.09.1 2.13P.6 Carrera, Jesus. 3.05P.17 Cornement, Magdaléna. 2.02P.1, Chabas, Camille. 5.04.18, 5.04P.4 Ciubotariu, Alexandru. 3.12P.11 Carreras, Alba. 3.14P.5 4.13P.3 Chadili, Edith. 1.09.3 Cizdziel, James. 3.04P.5 Carrero, Jose Antonio. 1.02P.4 Corrà, Francesca. 6.04P.11, Chadwick, Bart. 1.08P.6 Claes, Sophie. 3.19.2 Carrey, Raul. 6.05P.5 6.04P.12 Chai, Jiangying. 6.09PC.5 Clarens, Frederic. 5.02P.10 Carro, Tiffany. 2.09P.6, 2.10P.4, Corrado, Sara. 5.04.10, 5.06.3 Chaker, Jade. 3.06.3 Claret, Ariadna. 5.02P.12 6.10P.1 Corral Morillas, Núria. 3.05.6 Chalot, Michel. 3.20P.11, 4.04.3 Clark, Cheryl. 4.18PC.3 Carter, Laura. 4.09.4 Correia, Antonio. 2.10P.5 Chalumeau, Sophie. 5.06.2 Clark, Nathaniel. 4.03P.8 Carvalho, Aline. 3.04P.4 Correig, Xavier. 1.05.4 Champly, Ilka. 2.13P.5 Clarke, Bradley. 3.14PC.2 Carvalho, Aline. 3.12.5 Corsi, Davide. 1.14P.1 Chand, Rupa. 3.12.2 Clasen, Barbara. 4.01P.12 Carvalho, Maria. 4.04P.13 Cortez, Fernando. 4.09P.6 Chandesris, André. 2.05.3, 2.05P.3 Claßen, Daniela. 2.13P.6, 3.25P.2 Carvalho, Patricia. 4.08.2 Corti, Margherita. 1.14P.3, 1.14P.4 Chandrakumar, Chanjief. 5.04.7 Classen, Silke. 1.02P.10, 2.02P.23 Carvan, Michael. 2.06.2 Corvi, Raffaella. 1.09P.7 Chang, Elisabeth. 1.03.10 Cleaver, Amy. 3.23.3 Casado, Marta. 1.06P.2, 3.05.6 Cosci, Francesca. 2.02.6 Chapple, Andrew. 3.10P.23 Clérandeau, Christelle. 2.07P.6, Casado-Martinez, Carmen. 3.02P.18 Coscolla, Clara. 7.02P.3 Charles, Sandrine. 3.02P.13, 3.12.4 Casado-Martinez, M. Carmen. Cossu-Leguille, Carole. 3.20P.13 3.02P.18, 4.06P.6, 4.07P.6, 4.07P.7 Clerc, Baptiste. 3.09.2 6.04P.9 Costa, Ana. 3.12P.23 Charpentier Poncelet, Alexandre. Coady, Katherine. 4.03P.3 Casartelli, Ilaria. 3.15P.4, 4.03.3, 5.04.3 Costa, Daniele. 5.07P.12 4.03P.10 Cobelo-García, Antonio. 3.16P.17 Chassaigne--Viscaino, Lucas. 3.12.4 Costa Souza, Brenda Natasha. Cascio, Matteo. 3.05P.7 Codina, Anna. 1.05P.16 3.08.3 Chassaing, François-Johan. 3.05.2 Casini, Silvia. 2.02.6, 2.09P.5, Coecke, Sandra. 1.09P.7 Costanzo, Jérémy. 5.03P.2 Chastel, Olivier. 4.19PC.3 2.12PC.1 Coelho, Sónia. 1.02P.3, 4.16P.5 Costas, Noemi. 3.20P.24 Chatel, Amelie. 3.11.3 Castaldo, Giovanni. 3.23.1, 3.23.2, Coffey, Mary-Frances. 2.02P.14 Costea, Ion. 6.06.2 Châtillon, Elise. 2.08.5 3.23P.7 Coffin, Scott. 1.07P.1 Couchman, Lewis. 3.14.1 Chatterton, Julia. 2.04P.8 Castaño, Cristina. 2.03P.1 Coimbra, Manuel. 2.07P.4 Coulson, Mike. 2.10.1 Chaudhary, Abhishek. 5.08PC.4 Castaño, Marc. 4.15P.1 Colbourne, John. 1.04P.2 Coumoul, Xavier. 1.10.2 Castaño-Ortiz, Jose Maria. 3.12.16 Chaumot, Arnaud. 1.06.6, 2.05.3, Cole, Talia. 4.03P.11 2.05P.3, 4.01P.5 Courant, Frédérique. 1.12.3 Castelan, Guy. 5.06.2 Cole, Thomas. 1.09P.7 Chaurand, Perrine. 3.11.10 Courcoul, Camille. 2.01.3 Castellblanco, Nicolás. 3.09P.6 Coller, Beth-Ann. 4.09P.7 Checa, Daniel. 5.04P.15 Courtois, Joséphine. 5.06P.4 Castiglioni, Sara. 2.06P.1, 7.02.1 118 scicon.setac.org Cousin, Xavier. 1.05.1, 1.05P.21, Dalsgaard Johannesen, Jan. 5.06.2 De Ridder, Karin. 5.08P.1 Deudero, Salud. 3.03P.6 1.09.3 Damalas, Dimitrios. 1.05P.10, 3.06.2 De Rijcke, Maarten. 3.12P.8 Devault, Damien. 4.11P.2 Cousins, Ian. 3.16P.12, 3.17.1, Damasceno, Évila. 1.05P.15, De Rijke, Eva. 7.02P.3 Devery, Rosaleen. 4.10P.7 6.04.5 1.05P.23 De Schamphelaere, Karel. 2.05.5, Dévier, Marie-Hélène. 4.08P.15 Coutris, Claire. 4.08.2 Damavandi, Fereshte. 1.08P.7, 2.05P.6, 3.20.1, 3.20.2, 3.20.3, Deviller, Genevieve. 4.15.4 Couture, Elodie. 2.02P.5 6.05P.9 3.20.7, 4.01P.6, 4.07.6, 4.07P.11, Devin, Simon. 1.02P.2, 3.11.3 4.09P.24 Cova, Miriam Carolina. 1.06.4 Damgaard, Christian. 2.10P.1 Devos, Yann. 8.03.1 De Schryver, Hans. 4.04P.11 Cowan, David. 3.09P.14 Damiani, Mattia. 5.08P.2 Devriese, Lisa. 3.12P.8 De Senerpont Domis, Lisette. Coxon, Catherine. 3.03P.9 Danby, Emma. 2.01P.2, 6.05P.2 Dewaele, Joost. 5.07.3 6.11P.1, 6.11P.2 Cracco, Michele. 5.02P.20 Danglades, Nathanaëlle. 6.09P.7 DeWitt, Jamie. 6.04.5 De Seynes, Aurélie. 2.13PC.4 Craft, Serena. 1.05P.8, 1.05P.9 Daniel, Christophe. 4.01P.2 Dewulf, Jo. 5.07.1 De Silva, Amila. 3.21P.3, 3.21P.4 Craig, Peter. 4.13.1 Daniels, Benjamin. 4.07P.10, 4.13.4 Dewulf, Wim. 5.07.2 De silva, Mangala. 1.11.5 Cravedi, Jean-Pierre. 3.06.4 Danion, Morgane. 1.05.9 Deydier, Laurence. 1.15PC.3 De Silva, P. Mangala. 4.11.1 Cravid, Claudio. 1.08P.5 Danshina, Anastasia. 4.15P.5 Dhakal, Hom. 3.12P.29 De Vaufleury, Annette. 3.20P.11 Cravo-Laureau, Cristiana. 2.08.5, Darriet, Marie. 6.09P.7 Di Domenico, Kevin. 1.14P.3, De Voogt, Pim. 1.15P.8, 3.05P.2, 2.08.6, 2.08P.7 Dauphin, Maxime. 4.01P.5 1.14P.4 3.15.1, 4.05.3, 7.02P.3 Crawford, Alex. 3.04P.21 DAuriac, Marc. 1.04.2 Di Giulio, Richard. 1.11.5 De Vos, Jan. 4.04P.11 Crawford, Sarah. 1.04.5, 1.04P.1 Davenport, Russell. 3.17P.6, Di Guardo, Antonio. 3.01.3 De weert, Jasperien. 3.15P.2 Crema, Andrea. 3.05P.7 3.17P.7, 6.06.3, 6.06.4 Di Noi, Agata. 2.02.6 De Wit, Cynthia. 3.07P.7, 3.21.1 Crenna, Eleonora. 5.05.3 Davenport, Sade. 2.08.4 Di Paolo, Carolina. 1.14P.4 De Witte, Bavo. 3.12P.8 Crespi, Miquel. 3.23.4 Davey, Charlie. 4.10P.6 Diamond, Miriam. 3.03P.1 De Zwart, Dick. 4.07P.16 Crick, Peter. 4.16PC.1 David, Arthur. 3.06.3 Dias, Ana. 5.01.6, 5.07P.10, Deacon, Samantha. 2.04P.13 Crini, Nadia. 3.20P.11 David, Calin. 3.11.8, 3.11P.2 5.07P.12, 5.07P.3 Dean, Aleksandra. 3.25P.4 Cristiano, Walter. 1.14P.3, 1.14P.4 David, Elise. 1.02.4, 1.02P.2 Diaz, Cecilia. 3.10P.5 Deaville, Rob. 1.13P.1 Cristobal, Susana. 1.10P.2 Davidson, Todd. 4.09P.21, 4.09P.22 Díaz, Gema. 4.16P.3, 4.16P.4 Debarre, Laura. 5.04.19, 5.04P.5 Croke, Mark. 3.03P.5 Davies, Emlyn. 1.05P.20, 3.12P.38 Diaz-Cruz, Silvia. 3.05P.17, 4.15.1, Cronin, Mark. 4.06.1, 7.01P.2 Davies, Iain. 4.18P.2, 4.18PC.4, Deborde, Marie. 3.15.3 4.18PC.1 Crookes, Michael. 2.04P.11 8.04.4 Debrauwer, Laurent. 3.06.4 Díaz-Peña, Ramón. 1.10P.1 Cros, Daniel. 4.10P.4 Davies, Joanna. 2.01.1, 2.01P.11, Decamps, Alexandre. 4.01P.5 Díaz-Raviña, Montserrat. 2.08P.12 Cross, Richard. 3.04.1, 4.14P.3 7.03P.3 Decesari, Stefano. 6.03P.2 Dickinson, Michael. 1.11.4 Cross, Wyatt. 2.07.4 Davies, Jordan. 3.17P.6, 3.17P.7, Dechesne, Arnaud. 3.17P.1 Diehl, Matthias. 2.02P.13 6.06.4 Crowley, Quentin. 3.03P.9 Dechesne, Magali. 3.05P.15 Diehle, Noemi. 6.05P.7 Davies, Peter. 3.12P.29 Crump, Doug. 1.10P.13, 1.12P.1, Declercq, Annelies. 3.12P.8 Diener, Arnt. 1.14PC.3 Davis, John. 3.17P.6, 3.17P.7, 6.06.4 1.12P.2, 1.13P.5, 3.13.2 Decors, Anouk. 2.13PC.4 Diepens, Noel. 3.12P.30 Davison, Josh. 1.08.3 Cucherousset, Julien. 3.04P.4 Dedourge-Geffard, Odile. 1.02P.2 Dierckx, Jenne. 3.19.2 Davison, Nicholas. 1.13P.1 Cucurachi, Stefano. 5.02.10, Deftereos, Nikolaos. 6.03.4 Dilger, Nikolas. 5.01P.6 Davy, Christina. 2.01P.9 5.02.13, 5.07P.1 Degenhardt, Rosa. 3.24P.8 Ding, Tianran. 5.03.4 Dazzi, Alexandra. 3.12.5 Cuevas, Nagore. 4.18P.3 Degli Esposti, Davide. 1.06.6 Dingemans, Milou. 3.05P.15 De Alba Gonzalez, Mercedes. Cui, Xianjin. 2.07.6 Deich, Carina. 3.16.5 Dipke, Christopher. 3.04.4 4.16P.3 Culatina, Stefano. 3.05P.7 Dekker, Rene. 1.13P.3, 2.13P.1, Distel, Emilie. 1.10P.1 De Alencastro, Luiz Felippe. 6.02P.4 2.13P.6 Cullen, Merissa. 2.02.4, 2.02.5 Dittmer, Ulrich. 3.12.1 De Assis, Cecilia. 4.11.3, 4.11P.10 Dekker, Stefan. 4.06P.11, 7.03P.2, Cunningham, Heidi. 2.09P.6, Doan, Que. 1.05P.25, 3.08P.10 2.10P.4 De Baan, Laura. 3.02P.4 7.03PC.1, 7.03PC.2 Dobrev, Dobromir. 2.13P.4 Curnick, David. 1.13P.1 De Baat, Milo. 4.05.3 Del Giacco, Luca. 3.03.8 Dodd, Matt. 3.20P.18 Curtet, Laurence. 3.14.3 De Bauw, Pieterjan. 3.10P.18 Del Real, Ana E. 3.12P.20 Doelsch, Emmanuel. 3.11.10 Curtis, Matthew. 3.07P.4 De Boeck, Gudrun. 3.23.1, 3.23.2, Delahaut, Laurence. 1.02.4, 1.02P.2 Dohmen, Peter. 8.03.1 Curtis-Jackson, Pippa. 3.17.4, 3.23P.7 Delaporte, Louise. 6.10P.10 Doka, Gabor. 5.04.7 3.17P.13, 3.17P.6, 3.17P.7, 3.17P.8, De Boer, Hugo. 7.03P.2 Delborne, Jason. 3.09P.1 Dolar, Andraž. 4.02P.8, 4.14.4 6.06.4 De Boer, Jacob. 3.07.3, 3.07P.3, DeLeo, Paul. 1.15P.1 Dolezalova, Lenka. 3.09P.15 Curto, Marco. 3.12P.29 3.07P.6 Della Pietra, Leondina. 3.02P.7 Dolique, Franck. 4.11P.2 Cytryn, Eddie. 3.05.3 De Brouwere, Katleen. 3.02P.17 Della Torre, Camilla. 3.03.8 Dollacker, Annik. 2.04P.13, 2.05.4 De Castro, Italo. 3.16P.14 Delledonne, Massimo. 1.14P.1 Domashnev, Denis. 4.04P.17 De Coen, Wim. 7.01.1 Delli Compagni, Riccardo. 3.05.1, D De Cooman, Ward. 6.09PC.5 3.05P.7 Domercq, Maria del Prado. 3.02.5, 3.02P.1 De Diego, Alberto. 1.02P.4 Demeneix, Barbara. 1.09P.7 Domingues, Ines. 1.05P.12, Da Costa, Tamiris. 5.07P.3 De Felice, Beatrice. 2.06P.1, Demi, Rossella. 6.06.2 1.05P.32, 2.08.8, 3.08P.9, 4.08P.7 Da Prà, Francesca. 6.04.1, 6.04P.11, 3.12P.15, 3.12P.17, 4.09P.15, Dempster, Emma. 1.04P.4 6.04P.12 4.14P.7 Dominguez, Laura. 3.05P.7 Den Broeder, Marjo. 1.04.3 Da Rugna, Lucia. 6.04P.12 De Fine Licht, Henrik. 1.04.1, Domínguez-Morueco, Noelia. Den Haan, Klaas. 4.07P.16 Da Silva, Nadia. 2.09P.7 1.04P.9, 4.06P.2 4.16P.3, 4.16P.4 Den Ouden, Fatima. 1.05P.26 Da Silva, Vitor. 3.04P.8 De Godoi, Filipe Guilherme. Donaldson, Lloyd. 2.07P.7 4.11P.15 Den Uijl, Mimi. 3.05P.2 Daam, Michiel. 4.11.1, 4.11P.6, Doni, Lucia. 1.02P.11 Denaix, Laurence. 3.18.4 4.11P.7 De Jong, Nina. 6.11P.1 Donnadieu, Florence. 2.08.1 Deniset, Ariane. 3.12.5 Dabek-Zlotorzynska, Ewa. 3.13.2 De Jourdan, Benjamin. 1.08.2 Doornebosch, Kim. 3.17.4 Dennis, Michael. 6.04P.6 Dacher, Matthieu. 1.01.2 De Kleijne, Kiane. 5.07P.4 Dorn, Alexander. 2.09P.3, 6.09P.1, Dennis, Nicole. 6.04P.6 Dafouz, Raquel. 3.03.4, 3.22P.6 De Knecht, Joop. 1.05P.26, 4.08.4 6.09P.2, 6.09PC.4 Denslow, Nancy. 1.05P.13 Dagnino, Sonia. 6.04.1 De la Fournière, Emmanuel Marie. Dorne, Jean lou. 4.05P.1, 4.08P.17 3.20P.26 Dent, Matthew. K2 Dahlgren, Henrik. 1.05.5 Dory, Daniel. 1.05.9 De Lima Faria, João Marcos. Derenne, Sylvie. 3.14PC.1 Dai, Wencai. 2.10P.1 Dos Santos, Amanda. 4.11.4 4.11P.12, 4.11P.13 Deroubaix, Paul. 5.04P.3 Daling, Per. 6.02P.7 Dotcheva, Mariana. 3.12P.29 De Marchi, Bruna. 6.07P.6 Derz, Kerstin. 3.10P.5 Dalkmann, Philipp. 3.10P.8, 3.17P.6, Dou, Jinze. 4.17P.4 De Oliveira, Cíntia Mara. 2.02P.12 3.17P.7, 6.06.4, 6.09P.1, 6.09P.2, Deschenes, Louise. 5.05.5 Doucette, Greg. 6.03.1 6.09PC.4 De Oliveira, Julie. 1.09.3 Desmet, Cloé. 3.04P.19 Douziech, Mélanie. 4.01P.1 Dall’Osto, Manuel. 6.03P.2 De Oliveira Lima, Marcelo. 3.08.3 Desrousseaux, Alizée. 3.08P.15 Drage, Daniel. 3.03P.18, 6.06P.7 De Paula Santos, Willian. 1.02P.1 Destandau, Emilie. 3.05.5 SETAC Europe 30th Annual Meeting - SETAC SciCon 119 Drechsler, Nadia. 3.16P.18 Edge, Anthony. 3.09P.14 Eskildsen, Carl. 3.05P.2 Feil, Edward. 1.11.2, 3.08P.2, Dresen, Boris. 3.22P.1 Edhlund, Ian. 1.03P.16 Espeland, Chris Inge. 3.09P.13, 4.09P.17 Drever, Mark. 3.21P.8 Edwards, Francois. 2.05.7 4.09.3 Feld, Louise. 7.04P.1 Drobne, Damjana. 4.02P.8 Edwards, Paul. 3.10P.24 Espindola, Evaldo. 4.11P.6, 4.11P.7, Felipe, Mayara. 2.01P.16 Droge, Steven. 1.15P.2, 1.15PC.1, Eek, Espen. 3.21P.5 4.11P.8 Felix, Rafael. 1.13.5 1.15PC.4 Eens, Marcel. 6.04P.5 Espinosa, Carmen. 2.08P.4 Feller, James. 2.04P.2 Drost, Wiebke. 2.13P.1, 2.13P.6, Eggen, Rik. 2.08P.5 Espregueira, Catarina. 3.19P.11 Fenet, Hélène. 1.12.3 4.03P.2 Eghbalinejad, Mahleh. 3.10P.26 Espriu, Sandra. 6.05P.5 Fenn, Teresa. 2.04P.13 Drozdova, Polina. 1.04.4 Egli, Melanie. 3.14.1 Essumang, David. 6.04P.10 Fenner, Kathrin. 3.17P.6, 3.17P.7, Drummond, Iain. 1.11.5 Egonmwan, Rosemary. 3.08P.16 Esteve-LLorens, Xavier. 5.08PC.3 6.06.4 Drummond, Jennifer. 3.12P.22 Ehiguese, Friday Ojie. 2.06.4 Estevez-Danta, Andrea. 7.02P.2 Fenton, Suzanne. 6.04.7, 6.04P.2 Drury, Anna. 3.04P.21 Eich, Andreas. 5.06.6 Esther, Alexandra. 4.12P.3 Ferario, Cinzia. 3.12P.17 Dryfhout-Clark, Helena. 3.20.8 Eich-Greatorex, Susanne. 4.15.3 Etterson, Matthew. 2.06P.7, 4.06.4 Ferguson, Lee. 1.11.5 Du, Miaomiao. 1.08P.2 Eichhorn, Klaus-Jochen. 3.04.3 Etxebarria, Nestor. 2.08P.7, 3.09.1, Ferguson, Steve. 2.03P.2 3.09P.6, 3.15P.1, 3.15P.5, 7.02.2 Du Pasquier, David. 1.03P.2, Eide, Marta. 1.06.3 Fernandes, Teresa. 6.05.1 1.09P.12 Euteneuer, Pia. 5.05P.3 Eijsackers, Herman. 2.09.6 Fernandez, Alberto. 7.01P.4 DUBARD, THOMAS. 5.03P.2 Evariste, Lauris. 2.08.10 Eilebrecht, Elke. 1.05.11, 1.09.1 Fernandez, Grisel. 1.15P.3 Dubey, Asmita. 2.11PC.1 Evenset, Anita. 3.07.2 Eilebrecht, Sebastian. 1.05.11, Fernandez Astudillo, Miguel. 5.04.2 Dubey, Sheri. 4.09P.7 1.12.1 Everaert, Gert. 3.12P.29, 3.12P.8, Fernández Tizón, Mario. 2.05P.8 7.04P.2 Dubillot, Emmanuel. 2.07P.6, Eisner, Stephanie. 5.04.8 Fernández-Calviño, David. 3.08P.18, 2.07P.8 Evlanova, Anna. 4.08P.13 Eitzinger, Josef. 7.03PC.1 3.16P.7 Dubin, Dirk. 4.04P.11 Ewald, Jessica. 1.12P.1 Ek, Caroline. 2.07.8 Fernandez-Cruz, Maria Luisa. Dubrana, Leslie. 1.05.10 Exeler, Nina. 2.02P.5 4.08P.10, 4.08P.8, 6.05P.6 Ekanayake, Dilini. 1.11.5 Duchard-yamada, Sophie. 4.16PC.4 Ezeokoli, Obinna. 2.04P.7 Fernández-González, Verónica. Ekvall, Tomas. 5.06P.4 Duclós, Melanie. 2.13P.2 3.12P.31 Ekweozoh, Peter. 6.12P.1 Ducrot, Virginie. 2.01P.12, 2.01P.13, Fernandez-Infantes, Thor. 2.03P.3 El Ayoubi, Miriam. 1.05.3 2.04.6, 2.04P.13, 4.06P.6, 8.01.6, F Fernández-Sanjurjo, María José. 8.01.7 El Morabet, Hamza. 2.10.2 2.08P.12, 3.16P.6, 3.16P.7 Duffek, Anja. 3.08.4, 3.13P.4, 3.19.3, El-Sheikh, Mohamed. 3.12P.2 Fabbri, Elena. 3.03.2, 3.03P.15 Ferrari, Anna Maria. 5.01P.1 4.18P.4 El-Temsah, Yehia. 3.12P.41 Faber, Daniel. 6.09P.1, 6.09P.2, Ferrari, Benoît. 6.04P.9 Duffner, Andreas. 2.09.3 Elder, Felicity. 1.11.2 6.09PC.4 Ferrario, Claudia. 3.16P.11, Duflou, Joost. 5.07.2 Eleršek, Tina. 6.03P.1 Faber, Jack. 2.04P.9 6.04P.11, 6.04P.12 Dufour, Vincent. 3.14.3 Ellen Katrin, Enge. 2.03.2 Fabre, Pascale. 3.12.5 Ferreira, Abel. 4.03P.8 Duft, Martina. 6.09P.5 Elliott, John. 1.13.3, 1.13P.5, 1.13P.6, Fabregat-Safont, David. 3.15P.3 Ferreira, Nuno. 1.10P.15, 2.02P.12, Duhme, Mona. 4.14P.1 2.13PC.1 Faetsch, Sonja. 3.01P.6 2.04P.5, 2.04P.6, 2.05P.1, 2.08P.2, 2.09P.12, 2.10.6 Duke, Guy. 2.13P.1, 2.13P.6 Elliott, Kevin. 8.03.2 Fafouti, Maria. 1.11.4 Ferreira, Violeta. 1.05P.15 Dulson, Samuel. 1.10P.15 Ellis, Laura-Jayne. 1.04.6, 1.04P.2, Fagundes, Maria Teresa. 1.09.2, 3.03P.18 Dumas, Thibaut. 1.12.3 1.09P.3, 1.09P.4, 1.09P.5 Ferreol, Martial. 2.05.3, 2.05P.3 Ellis, Timothy. 1.03.1 Dumont, Egon. 3.02P.2 Fajana, Hamzat. 2.09.4, 2.10P.3 Ferrero, Pablo. 3.12P.31 Elmer, Wade. 2.08.7 Dunet, Daniel. 5.01P.4 Faksness, Liv-Guri. 6.02P.7 Fett, Bastian. 5.02P.8 Elmore, Susan. 6.04P.2 Dunn, Elizabeth. 6.07P.3 Falk, Sarah. 3.02P.11 Fettig, Ina. 3.14P.1 Elmoznino, Joanne. 4.09P.21 Dupont, Anne. 2.01.2 Faltermann, Susanne. 4.09P.3 Fettweis, Andreas. 2.05P.6, 3.20.7 Elnabawi, Ahmed. 1.09P.10 Duran, Robert. 2.08.5, 2.08.6, Fan, Yongshu. 4.03P.7 Fiack, Suzan. 6.07.1 2.08P.7 Elsner, Martin. 3.04P.1, 3.04P.13, Fang, Kai. 5.04.7 Fialova, Pavla. 3.18.3 3.04P.14, 3.04P.15 Durand, Nicolas. 1.01.2 Fantin, Valentina. 5.02P.5 Fick, Jerker. 2.11P.1 Eltzov, Evgeni. 3.05P.12, 3.08.5 Durant, Jack. 6.07.2 Fantke, Peter. 3.13.4, 5.01P.2, Fidal, James. 3.08P.2, 4.01P.14 Embry, Michelle. 1.03.9, 1.03P.3, Durham, Jeremy. 3.19.1, 3.19.2, 5.05.1, 5.05.2, 5.05.3 Fiedler, Peggy. 1.14PC.4 4.01P.4, 4.03.3, 4.03.5, 4.03P.10, 3.19P.1, 3.19P.2, 3.19P.3, 3.19P.9 Farama, Emilie. 4.16PC.4 Figueira, Etelvina. 1.14PC.1 4.03P.12, 4.03P.7, 4.03P.9 Durou, Cyril. 4.10P.4, 6.09P.7, Faria, Tiago. 3.19P.7 Figueiredo, Joana. 6.05P.3 Enault, Jerome. 3.05P.15 6.09PC.1 Farinelli, Alessandro. 1.14P.1 Figueiredo, Neusa. 4.05P.9 Encina-Montoya, Francisco. 3.02P.9 Dutruch, Lionel. 3.16P.17, 3.20.9 Farkas, Julia. 1.05P.20, 1.05P.30, Fillinger, Ulrike. 3.08.2 Enders, Kristina. 3.04.3 Duus, Annette. 1.09P.6 3.11P.8, 6.02.4, 6.02P.7 Fillmann, Gilberto. 3.16P.14, Endo, Satoshi. 3.07P.5 Duval, Jerome. 3.11.7 Farre, Marinella. 3.03P.22, 3.04.7, 6.09P.4 Englert, Dominic. 2.07.3 Dzhardimalieva, Gulzhian. 4.08P.1 3.04P.2, 3.16P.16 Filser, Juliane. 4.08P.13, 4.08P.16 Enking, Jana. 5.07P.1 Dzhusupkalieva, Roza. 4.04P.16 Fassbender, Christopher. 1.03.5 Filtri, Paolo. 4.04P.6 Enrici, Marie-Hélène. 1.03.3, 6.06P.2 Dziga, Dariusz. 6.03.5 Fatoki, Olalekan. 3.08P.7 Finckh, Saskia. 4.05.1 Erasmus, Hannes. 3.11P.10 Fatone, Francesco. 1.14P.1 Finkbeiner, Matthias. 5.04.11, Erdle, Lisa. 3.03P.1 Fatta-Kassinos, Despo. 3.05.3, 5.04.8 E Ericher, Fabienne. 6.09PC.2 3.09P.12, 4.15.4 Finken, Emerson. 4.01P.12 Eriksson, Mattias. 5.03P.5 Fatunsin, Oluwatoyin. 3.05P.18 Finklestein, Sarah. 3.03P.1 Eagles, Emily. 2.01P.4, 3.16P.4 Eriksson, Ulrika. 3.22P.3 Faupel, Annekathrin. 6.09P.7, Fiorentino, Gabriella. 5.02.9, Eastabrook, Chloe. 1.02P.6, 3.11.5, Eriyamremu, G. E.. 3.20P.10 6.09PC.1 5.02P.15 4.07P.1, 6.02.5 Ermler, Sibylle. 1.09.4, 4.02.2 Faupel, Michael. 2.02P.26 Firman, James. 7.01P.2 Eastman, Michael. 2.05.7 Ernst, Gregor. 2.09P.6, 2.10P.4, Faure, Alexia. 2.02P.2 Fisch, Kathrin. 3.16P.3 Eaton, Ben. 1.05P.3 3.10P.11, 4.07P.13, 4.13.3, 4.13P.1 Faure, Pierre. 2.08.5 Fischer, Björn. 4.14P.1 Ebbrell, David. 7.01.7, 7.01P.2 Ernstoff, Alexi. 5.01.1 Favaretto, Paola. 6.04P.12 Fischer, Dieter. 3.04.3 Ebeling, Markus. 6.10P.12, Ertel, Bonnie. 6.02P.6 Fay, Kellie. 1.03P.3, 4.03P.7 Fischer, Fabian. 1.16P.1 6.10PC.1, 6.10PC.5 Erzgraeber, Beate. 3.10.3, 3.10P.12 Feckler, Alexander. 2.07.3, 2.08P.6 Fischer, Franziska. 3.04.3 Ebert, Andrea. 6.04P.3 Escalante-Rojas, Maria. 4.11.2 Fedje, Karin. 4.20P.2 Fischer, Jonas. 4.08P.13 Ebke, Klaus Peter. 1.02P.12, Escamilla, Marta. 5.02P.12, Fehlauer, Till. 3.11.10, 3.20P.17 Fischer, Marten. 3.04.4 3.20P.14 5.02P.18, 5.07P.8 Feidt, Cyril. 3.24P.1 Fisk, Peter. 3.19P.5 Eckelmann, Dennis. 3.25P.1, Escher, Beate. 1.16P.1, 1.16PC.2, Feijoo, Gumersindo. 5.03P.1 Fitzgerald, Jennifer. 1.03.9, 2.11P.3, 6.06P.6 3.05P.15, 3.24.3, 3.24P.6, 3.24P.8 Feijoo Costa, Gumersindo. 5.07P.9, 4.03.5 Eckenstein, Helene. 4.16PC.1 Eseban-Sánchez, Ada. 1.08P.3 5.08PC.3 FitzPatrick, Úna. K3 Eckstein, Helene. 2.11PC.2 Eshun, Albert. 6.04P.10 120 scicon.setac.org Fiúza, António. 4.04P.13 Friberg, Nikolai. 1.04.2 Garcao, Rita. 3.22P.4 Gerke, Amanda. 6.11P.4 3.14P.7, 3.14PC.3 Fjordside, Anna. 3.05P.14 Fricke, Julian. 2.02P.11 García, Isabel. 1.15P.3 Gerstle, Verena. 2.07.2 Gökcen, Taner. 3.05P.16 Flahaut, Emmanuel. 2.08.10 Frische, Tobias. 4.13.4 Garcia, Jade. 5.04P.9 Geueke, Birgit. 3.27P.1 Goksøyr, Anders. 1.06.3 Flipkens, Gunter. 3.11P.7 Fritsch, Clémentine. Garcia, Jose Luis. 4.04P.8 Ghilardi, Anna. 3.03.8 Golcher Benavides, Flores, Cintia. 1.06P.2 2.09P.15 García Fernández de Mera, Ghoshal, Subhasis. 4.04P.9 Christian. 3.11P.9 Florido, Antonio. 3.14P.5 FRODÉ DE LA FORET, Pierre. 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Gigl, Florian. 1.04P.1 Gomes, Aline. 4.11.2, 2.02P.24 Jesús. 5.02P.4 Foit, Kaarina. 2.05P.2 Gilabert, Alejandra. 1.06.3 4.11P.14, 4.11P.15, 4.11P.3 Fryer, Rob. 2.07P.5 Garcia-Reyero, Natalia. Folia, Maria. 7.01.2 Gilbert, Joanne. 3.10P.4 Gomes, Tânia. 1.02P.6, Fu, Tingting. 1.06.6 2.06.2 3.08.6, 3.08P.3, 3.08P.4, Fones, Gary. 3.09P.14 Gilbert, Mary. 1.09P.7 Fuelling, Olaf. 6.10P.10, Garcia-Velasco, Nerea. 3.12.13, 3.12P.21, 3.12P.4, Fonseca, Elza. 1.06.1 Gill, Laurence. 3.03P.9 6.10P.11, 6.10P.3, 6.10P.4, 1.02P.11, 1.02P.4 6.02P.2, 6.02P.8 Fonseca, Paulo. 1.11P.2 6.10P.9, 6.10PC.2 García-Velasco, Nerea. Gilles, Erwann. 3.06.3 Gomes, Vicente. 4.11.4 Font-Cardona, Nuria. Fuertes, Inmaculada. 1.07.1 4.04.6 Gillies, Suzanne. 1.05.7 Gomez, Camille. 4.16PC.2 3.04P.12 Fulgoni III, Victor. 5.08PC.1 Gardinali, Piero. 1.08P.5 Gilliland, Douaglas. Gomez, Elena. 1.12.3 Fontanaud, Angelique. 3.04P.22 Fullana-i-Palmer, Pere. Gardiner, Christine. 3.18P.6 Gómez, Luis. 1.11P.4 2.07P.8 Gilliland, Douglas. 3.04P.18, 5.08PC.5 Garman, Emily. 3.11.4, Gomez, María. 5.04P.7 Fontas, Claudia. 3.11P.1 3.20.6, 6.08.1 3.12.18 Fulvio, Zecchini. 4.20P.1 Gómez, Sergi. 1.03.6 Forbes, Valery. 4.07P.12, Garnero, Laura. 4.01P.5 Giltrap, Michelle. 2.07P.5 Funck, Matin. 4.14P.1 Gomez, Tânia. 6.02.3 4.12P.1, 4.13.3 Garrido, Teresa. 3.10P.29 Gimbert, Frédéric. 3.20P.11 Furdui, Vasile. 1.04P.10 Gomiero, Alessio. 3.03.7, Förlin, Lars. 1.05.5 Gimeno, Sylvia. 1.16PC.3 Furlong, Edward. 3.05.4 Garside, Christina. 4.07.1 3.03P.10, 3.03P.11, 3.12P.25 Formato, Giovanni. Gassner, Oliver. 3.14P.2 Gin, Karina. 3.24.6 2.02P.14 Furuno, Shoko. 1.15PC.3 Gömöryova, Kristina. GAUDRON, Tristan. 5.03P.2 Giner, Rosa. 3.08P.10 1.09P.9 Foster, Karen. 4.03.3, Gaur, Abhishek. 5.02.1 Ginn, Pamela E.. 1.05P.8, 4.03P.10 Gonçalves, Ana. 2.07P.4, Gautam, Prakash. 6.05P.13 1.05P.9 6.02P.9 Foudoulakis, Manousos. G Giovannetti, Laura. 2.02.6 4.06P.13, 6.10P.1, 6.10P.10, Gauthier, Laury. 2.08.10 Gonçalves, Ana Marta. Girotto, Lais. 4.11P.7 6.10P.12, 6.10P.4, 6.10P.9, Gaab, Juliette. 5.05.2 Gaze, William. 1.11.2, 2.07P.1, 3.04P.7 6.10PC.1, 6.10PC.5 Gabbert, Silke. 6.06.5, 4.09P.17, 4.13P.2 Giroux, Jean-François. Gonçalves, Fernando. 2.03.1 Fougère, Laëtitia. 3.05.5 6.06.6, 6.06P.11 Gazzotti, Stefano. 3.12P.17 2.07P.1, 2.07P.4, 3.04P.7, Gismondi, Eric. 1.01P.1 6.02P.9 Fox, Michelle. 4.09P.4, Gabriel, Aikaterini. 1.10P.1, Gebler, Sebastian. 3.10P.12, 4.09PC.1 1.11.4 3.24P.9, 4.12.2 Gissi, Francesca. 3.11.4 Gonçalves, José Fernando. 1.05P.29, 1.09P.8 Fraile, Josep. 3.10P.29 Gabriel, Antonieta. 2.09.5, Gebruk, Anna. 3.21P.7 Giubilato, Elisa. 3.02P.16, 3.20P.16, 5.08P.2 Goncalves, Sandra. Frame, Melinda. 4.14P.4 4.13P.5 Geeraerd, Annemie. Giuliani, Alessandro. 1.05P.15 Francesconi, Kevin. 3.11.6, Gabriel, Guilherme. 5.05P.5, 5.08P.1 1.14P.1 Gonçalves, Sara. 2.08P.6 3.11P.3 4.01P.12 Geerdink, Peter. 2.12P.3 Givens, Justina. 4.18PC.2 Goncalves, Valerie. 3.20P.13 Francese, Marco. 4.20P.1 Gabrielle, Benoit. 5.04P.9 Geerts, Lieve. 3.02P.17 Gjelstad, Karoline. 3.08P.13 Gondran, Natacha. 5.03.2, Franco, Javier. 3.18.2, Gachanja, Anthony. 4.15P.2 Geffard, Alain. 1.05.6 5.04.7 3.18P.1 Gaffney, Bella. 2.12PC.3 Geffard, Olivier. 1.06.6, Gjessing, Mona. 3.03.7 Gonsior, Gundula. 2.02.3 François, Adeline. 2.05.3, Gagliardi, Gabriele. 4.04P.3 2.05.3, 2.05P.3, 3.02P.18, Gkelis, Spyros. 6.03.4 Gonsior, Michael. 3.09P.4, 2.05P.3 Gagnon, Pierre. 2.03P.2 4.01P.5 Gkotsis, Georgios. 1.13P.3, 4.18PC.3 Francois, Cyrille. 5.03.2 GagoFerrero, Pablo. 3.09P.4 Gehrke, Ilka. 3.22P.1 2.13P.1, 2.13P.6, 3.08P.5 Gony, Sylviane. 3.10P.30 Francois, Jessica. 5.01P.4 Gaillet, Grégoire. 5.04P.3 Geiger, Michael. 2.01P.11 Gladbach, Anja. 8.03.10 González, Ana Belén. Frankenbach, Silja. 6.05P.3 Gaillet, Veronique. 1.02.4 Geirsdóttir, Áslaug. Glas, Karl. 3.04P.14 3.03P.11 1.02P.9, 3.12P.13 Franklin, James. 3.17.4, Galbán, Cristobal. 2.13P.2 Glaser, Clarissa. 3.24P.6 Geist, Juergen. 3.12P.18, Gonzalez, Farith. 3.11P.5 3.17P.13 Galceran, Josep. 3.11.8, Glassmeyer, Susan. 3.05.4 3.12P.34 Gonzalez, Jean-Louis. 3.18.2 Franz, Lorena. 5.08P.2 3.11P.1, 3.11P.2, 3.18.1, Glauch, Lisa. 3.24P.8 González, María. 2.13P.4 Frattini, Stefano. 3.02.2 3.18P.3 Gellatly, Nikki. 1.03.2 Gledhill, Martha. 3.11P.2 Gonzalez, Patrice. 1.02.3 Frauman, Evelyne. 3.19.2 Galfi, Helen. 3.22P.4 Gelžinytė, Elena. 7.01.2 Glogic, Edis. 5.07.4 Gonzalez, Susana. 3.08P.13 Fredensborg, Brian. 4.02P.1 Galic, Nika. 2.04P.10, 4.07.2, Genoni, Pietro. 6.08P.2 Glowacka, Natalia. 2.13P.1, Gonzalez Caballero, Maria Frederickson, Louise. 4.07.7, 4.07P.12, 4.12P.1 Genta-Jouve, Gregory. 2.13P.6 Del Carmen. 4.16P.3 3.16P.15 Galland, Victor. 5.05.4, 1.02P.5 Glüge, Juliane. 6.04.5 GONZALEZ RODRIGUEZ, Fredricks, Tim. 6.10PC.1 5.05P.1 Genthe, Bettina. 3.08P.7 Gobas, Frank. 3.19.4, Ignacio. 6.04.4 Fredricks, Timothy. 6.10P.1 Gallardo, Cristian. 2.08.2 Gentil, Céline. 5.05.1 3.19P.12, 4.03.6, 4.03P.11, González-Alcaraz, M. Gallen, Michael. 3.16P.8 Gentil, Celine. 5.05.2 4.03P.7 Freeland, Joanna. 2.01P.9 Nazaret. 2.10P.2, 2.10P.7 Gallinet, Gilles. 4.04.3 Georgantzopoulou, Göbel, Florian. 4.12P.3 Freeman, Harold. 4.17PC.2, González-García, Sara. 4.17PC.3 Galloway, Jason. 3.24P.2 Anastasia. 3.12P.21, Gobert, Sylvie. 6.02P.3 3.12P.4, 4.08.2 5.03.6, 5.03P.1, 5.07P.9, Freeman, Harold S.. Gan, Jay. 3.01.2 Goddiksen, Mads Paludan. 5.08PC.3 George, Matthieu. 3.12.5 4.10P.3 4.17PC.4 Ganatra, Akbar. 3.08.2 Gonzalez-Gaya, Belen. Gepp, Barbara. 1.10P.12 Freier, Korbinian. 3.04P.6 Gant, Tim. 3.17P.6, 3.17P.7, Godejohann, Matthias. 3.09.1, 3.09P.6, 3.15.4, 3.04P.9 Freire, Fausto. 5.07P.10 6.06.4 GERBAUX, Juliette. 5.03P.2 3.15P.1, 3.15P.5, 4.11P.1 Godin, Simon. 3.16.7 Freitas, Fabiana. 3.11.6, Gao, Zhenglei. 3.10P.23, Gerbinet, Saïcha. 5.05P.4 Gonzalez-Mariño, Iria. 3.11P.3 4.06P.10 Gerdts, Gunnar. 3.04P.16, Godlewska, Paulina. 4.15.2 7.02.2, 7.02P.2, 7.02P.4 Freitas, Juliane. 4.11P.6, Garajayeva, Nargiz. 1.08P.5 3.04P.9 Godziek-Botor, Agnieszka. Gonzalez-Ortegon, Enrique. 4.11P.7 Garba, Zakaria. 3.08P.8 Gergs, Andre. 2.06.1, 4.07.1, 3.10P.2 2.06P.5 4.07P.13, 4.07P.7, 4.13.3 Freitas, Rosa. 1.14PC.1 Garbaras, Andrius. 2.07.8 Goeckener, Bernd. 3.14P.1 Gonzalez-Ruiz, Sergio. Gergs, Katrin. 1.02P.10, Fremdt, Heike. 4.06P.10 Garber, Kristina. 4.06.4 Goedkoop, Mark. 5.04.16 4.16P.4 2.02P.23 Frenzel, Marcus. 4.01.1 Garbini, Gian. 1.11.1, 4.04.5, Goedkoop, Willem. 2.06P.3 Goodall, Tim. 2.08P.2 Gergs, Rene. 3.24P.2 Frey, Manfred. 3.08.4 4.04P.3, 4.20P.3 Gogic, Dario. 3.12P.39 Goodband, Tracey. 1.05P.3, Gerhards, Reinhard. 3.19.2 1.05P.31 Freyberger, Alexius. 1.09P.7 Garbisu, Carlos. 4.04.6 Gogos, Alexander. 3.14P.6, SETAC Europe 30th Annual Meeting - SETAC SciCon 121 Goodfellow, William. 6.07P.5 Groot, Renate. 1.05P.26 Hahn, Stefan. 6.06.5, 6.06.6 Hartikainen, Samuel. 3.22.4 Goodman, Jonathan. 7.01.2 Grootaert, Charlotte. 4.01P.6 Hahne, Joerg. 2.06.3, 4.06P.10, Hartmann, Alicia. 3.08P.11, 3.14.1 Goodson, Michaela. 3.24.6 Groppi, Vanessa. 6.04P.12 6.10P.6, 6.10PC.1 Hartmann, Nanna. 7.04P.1 Göpfert, Lisa. 3.04.6, 3.04P.1 Gros Calvo, Meritxell. 4.15P.1 Haigis, Ann-Cathrin. 1.05.2 Hassold, Enken. 4.13P.4 Gore, Damian. 3.20P.22 Groslambert, Sylvie. 5.05P.4 Hajibabaei, Mehrdad. 2.06P.6 Hatjina, Fani. 2.02P.14 Gori, Alessandro. 2.02.6 Gross, Elisabeth. 2.01.3, 3.11.3 Hajibabaei, Merhdad. 2.04.2 Hatté, Christine. 3.05.5 Gorokhova, Elena. 3.07.1, 4.02P.4 Grossi, Marina. 1.10P.11 Halappa, Ramesh. 2.02P.6 Hauck, Mara. 5.02.3 Gorovoi, Alexey. 3.07P.3, 3.07P.6 Grung, Merete. 2.12P.2, 4.06P.1, Halbach, Katharina. 1.05.8 Haug, Line. 3.07P.7 Goss, Kai-Uwe. 1.05.8, 1.16P.3, 6.02P.2, 6.04P.8, 7.03P.5, 7.03PC.3 Halden, Rolf. 3.14.1 Hauken, Marit. 2.12P.2 4.03.2, 4.03P.13, 4.03P.7, 6.04P.3 Gruter, Gert-Jan. 4.10P.6 Halder, Marlies. 1.03.5 Haukka, Kaisa. 3.08P.8 Gottesbueren, Bernhard. 3.24P.9 Grønlund, Sara. 4.09P.5 Hale, Sarah. 3.17.3, 6.04.3 Haupt, Ruth. 3.02P.8 Gottfridsson, Marie. 5.04P.1 Grønnestad, Randi. 1.07P.1 Hall, Nikki. 1.04P.5 Hauschild, Michael. 5.04.6, 5.04.7, Gottschling, Michael. 3.12P.39 Gschwind, Benoit. 5.03P.2 Hall, Robert. 2.07.4 5.06P.2 Goudouneche, Dominique. 3.12.5 Guan, Hang. 3.23.4 Hälldal, Anette. 4.20P.2 Håvardstun, Jarle. 6.02P.2 Goulart, Bianca. 4.11P.6, 4.11P.7, Guapo, Felipe. 2.02P.22 Halldórsdóttir, Valdís. 3.03P.10 Havranek, Ivo. 4.15.3 4.11P.8 Gubbins, Matt. 2.07P.5 Halle, Louise. 3.22.5 Hawker, Darryl. 3.16P.8 Goulouti, Kyriaki. 5.01.2 Gubian, Lorenzo. 6.04P.12 Hallmark, Nina. 2.06.3 Hayashi, Masaaki. 5.02P.6 Goussen, Benoit. 4.06.2, 4.07P.3, Guchardi, John. 1.03P.8 Halsall, Crispin. 3.21.1, 3.21P.1 Hayashi, Takehiko. 3.19P.10 4.07P.7 Guchok, Maria. 2.04P.1 Halsband, Claudia. 3.12P.38, Hayden, Brian. 3.21.2 Goussen, Benoît. 4.07.3 Guedes, Gabriela. 1.05P.22 3.12P.9, 3.22P.8 Hayes, April. 4.09P.17 Goutte, Aurelie. 1.01.2 Guelfo, Jennifer. 6.04P.1 Halvorsen Verpe, Ingrid. 3.03P.20 Hayhurst, Lauren. 3.11.1 Govorin, Aleksandr. 6.07P.9 Guerrero, Tracy. 3.19.2 Hamers, Timo. 3.15.5, 3.15P.2, Hayward, Angela. 2.02P.19 Goya-Jorge, Elizabeth. 3.08P.10 Guerrero-Limón, Gustavo. 1.05P.25 6.04.3 Hazen, Terry. 1.08P.5 Gozalbes, Rafael. 1.03.6, 3.08P.10 Guesdon, Stéphane. 3.18.2 Hamm, Thea. 3.12P.36 He, Wenkui. 3.10P.24 Gozzo, Sebastiano. 3.16.7 Guest, Geoffrey. 5.01.5, 5.02.1 Hammel, Klaus. 3.02P.5, 3.10.4, Head, Jessica. 1.12P.1, 1.12P.2 3.10P.11, 6.09P.1, 6.09P.2, 6.09PC.4 Grabic, Roman. 3.18.3 Guidi, David. 1.04.10 Heath, Ester. 3.05P.16 Hammer, Jort. 1.15P.8, 3.07P.5 Grabicova, Katerina. 3.18.3 Guidolin, Laura. 6.04P.11, 6.04P.12 Hébrard-Labit, Céline. 6.08P.5 Hammers-Wirtz, Monika. 1.02P.10, Graham, David. 3.24.6 Guigon, Elodie. 3.14PC.1 Hecker, Markus. 1.03P.10, 1.10P.13, 4.13P.4, 6.11P.3 Granatto, Caroline. 4.01.3 Guihou, Abel. 3.11.10 1.12P.1, 1.12P.2, 4.03.1 Hammerschmidt, Jon. 4.10.3 Grandjean, Dominique. 6.02P.4 Guimarães, Ana Tereza. 2.04P.5, Hedgespeth, Melanie. 3.09P.1 Han, Biyao. 1.13.2 Grassl, Bruno. 3.04P.19 2.04P.6, 2.05P.1, 2.10.6, 4.11P.4 Hedgpeth, Bryan. 1.16P.2 Hanaka, Tesshu. 5.02P.14 Grathwohl, Peter. 3.03.6, 3.22.3 Guimarães, Lucas. 4.11P.12, Heger, Sebastian. 1.08P.2 Hand, Laurence. 3.17P.6, 3.17P.7, Grau, Nathalie. 1.16P.3 4.11P.13 Heijungs, Reinout. 5.02.10 6.06.4 Gravato, Carlos. 1.02P.3, 3.12P.24, Guimarães, Matheus. 4.09P.8 Hein, Arne. 3.08P.14 Hands, Imogen. 3.16P.13, 3.16P.2 3.12P.28 Guinee, Jeroen. 5.02.2, 5.04P.13 Hein, Susanne. 6.10P.6 Handy, Richard. 2.01P.4, 3.16P.4, Gravell, Anthony. 3.09P.14 Guiney, Patrick. 6.07P.5 4.03P.8 Heine, Simon. 4.07P.9 Graves, Stephanie. 1.01.4 Gulde, Rebekka. 3.09.2 Häner, Andreas. 3.17.4, 4.09.2, Heinemann, Céline. 3.02P.8 Gray, Alison. 2.02P.14 Gunnarsson, Jonas. 3.21P.5, 3.21P.6 4.09P.16, 4.09P.22 Heintz, Robert. 3.03P.5 Grayson, David. 6.11P.4 Gunnarsson, Josefin. 5.04P.1 Hanewald, Nicole. 2.02P.5 Heinze, Wiebke Mareile. 4.14.3 Greco, Roberto. 2.02P.12 Gunold, Roman. 2.05P.2, 3.24.3 Haniffah, Mohd Ridza Bin Mohd. Heise, Susanne. 3.01P.5, 3.01P.6 Gredelj, Andrea. 6.04P.11, 6.04P.12 Gunsch, Claudia. 2.08.4 3.24.6 Heisel, Ingrid. 3.04.2 Gredilla, Ainara. 1.02P.4 Gurkov, Anton. 1.04.4 Hanke, Georg. 6.02.1 Helberg, Morten. 2.03.2 Green, Ashley. 5.08PC.4 Gushi, Mikako. 6.08P.6 Hanlon, Amy. 1.05P.8 Hélias, Arnaud. 5.01.2, 5.04.9, Green, Bob. 3.14P.3 Gustafsson, Johan. 1.05.5 Hann, Richard. 3.21.3 5.04P.2 Green, Christopher. 1.03.1 Gustafsson, Mats. 3.22P.4, 3.22P.5 Hanon, Nathalie. 6.09P.7, 6.09PC.1 Helias, Arnaud. 5.02.11, 5.04.12 Green, Derek. 1.10P.13, 4.03.1 Gutleb, Arno. 3.11.3, 3.12P.41, Hansen, Bjorn Henrik. 1.05P.20, Hellpointner, Eduard. 3.25PC.1, Green, John. 1.03.5, 4.07P.17 3.20P.15 6.02P.7 6.09PC.4 Green, Nicholas. 4.12.2 Gutsell, Steve. 1.12.4, 7.01.2, Hansen, Bjørn Henrik. 1.05P.30, Hellstern, Jutta. 4.09.2, 4.09P.16 Green, Norman. 3.12P.9 7.01P.2 1.06.5, 3.11P.8, 6.02.4 Hellweg, Stefanie. 3.27P.2, 5.01.3 Green Etxabe, Amaia. 4.08P.4 Guyader, Meaghan. 6.07.4 Hansen, Martin. 1.04.1, 4.10.1, Helm, Paul. 3.03P.1 Greener, Mark. 3.17.4, 3.17P.10, Guzzella, Licia. 3.05P.7, 4.04.1, 4.10P.2 Helmberger, Maxwell. 4.14P.4 3.17P.9 6.08P.2 Hansen, Steffen. 7.04P.1 Helmsing, Nico. 6.11P.1 Greer, Justin. 1.11P.3 Gweon, Hyun. 2.10P.5 Hansen, Tobias. 3.22.5 Helmus, Rick. 3.15.1, 7.03PC.2 Grellier, James. 1.14PC.3 Gwinnett, Claire. 3.04.5, 6.11P.2 Hanssen, Steef. 5.07P.4 Hendriks, Jan. 3.21P.2, 4.01P.1, Grenni, Paola. 1.11.1, 2.12P.3, Hansson, Maria. 6.01.3 6.09PC.5 4.04.5, 4.04P.2, 4.04P.3, 4.20P.1, Hansson, Niklas. 4.20P.2 Henneberger, Luise. 1.16P.1, 4.20P.3 H Hansul, Simon. 2.05.5, 2.05P.6, 1.16PC.2 Grgic, Magdalena. 4.03P.8 3.20.7 Hennecke, Dieter. 3.10P.5, 3.17.2, Grieshop, Matthew. 4.14P.4 H. Nguyen, Thanh. 3.08.5 Hantao, Leandro. 3.05P.1 3.17P.4, 3.17P.5, 3.25P.3, 4.14P.1 Griffiths, Jonathan. 2.04P.9 Haaf, Sonja. 4.11P.16, 6.10P.12, Hantel, Arne. 2.01P.12 Hennekens, Stephan. 2.01P.11 Griffiths, Tom. 6.06P.9 6.10PC.1, 6.10PC.5 Hao, Chunyan. 3.13.2 Hennequin, Thomas. 5.02P.8 Griffiths, Zabrenna. 1.08P.5 Haave, Marte. 3.03.7, 3.12P.25 Harding, Mairead. 4.01P.11 Henriques, Bruno. 1.14PC.1 Grignard, Elise. 1.09P.7 Habert, Guillaume. 5.07P.2 Harir, Mourad. 3.09P.4 Henriques, Isabel. 2.08.8, 2.08P.9, Grimaldi, Amelie. 4.16P.2 Hackermüller, Jörg. 1.04.4, 4.05P.2, Harmon, Thomas. 1.14PC.4 2.10.4, 2.10P.5, 6.05P.3 7.01.3 Grimard, Chelsea. 4.03.1 Harner, Tom. 3.13.2, 3.19P.4 Henriques, Lia. 1.05P.29 Hackett, Michael. 6.10P.2 Grintzalis, Konstantinos. 1.02P.5, Harpprecht, Carina. 5.02.6, 5.02P.2 Henry, Barbara. 4.10.3, 6.06P.8 Hackley, Vincent. 3.04P.18, 3.12.18 4.09P.14 Harrad, Stuart. 3.03P.18, 6.06P.7 Henry, Betsy. 6.08.2 Haddad, Samuel. 3.16.1 Groen, Kevin. 6.10P.6 Harrison, Anna. 3.21P.8 Henry, Theodore. 1.05.7, 3.12P.14, Hader, John. 4.01.1 3.12P.26, 4.11.4 Groenenberg, Jan. 3.11.3 Harrison, Ellie. 6.11P.2 Haegerbaeumer, Arne. 3.12P.18 Herfray, Gregory. 5.04P.9 Groezinger, Franziska. 3.10P.12 Harrison, Laura. 2.04P.8 Hafez, Tamer. 2.08P.7 Hermann, Markus. 2.05P.10, Groh, Ksenia. 3.27P.1 Harrison, Sam. 3.02.6, 3.02P.2 Haftka, Joris. 1.15P.8 7.03P.1 Gronauer, Andreas. 5.05P.3 Harrold, Simon. 6.05P.2 Hageman, Kimberly. 2.05.2 Hermanson, Mark. 3.21.3 Grönman, Kaisa. 5.03P.3 Hart, Steve. 1.14PC.4 Grönroos, Mira. 1.07P.2 Hager, Jutta. 2.02P.23, 4.07.1 Hermens, Joop L.M.. 1.15P.8 122 scicon.setac.org Hermsen, Lara. 6.05P.7, 6.05P.8 7.02P.9 Imbert, Nicolas. 8.04.6 Jarosz, Emil. 3.11.5, 4.02P.12, Hernádi, Szabolcs. 4.08P.4 Holzer, Manuel. 4.08P.11 Imhof, Hannes. 3.12P.18, 3.12P.34 4.07P.1, 6.02.5 Hernandez, Felix. 3.15.2, 3.15P.3, Homem, Vera. 3.19P.11, 3.19P.7, Inglis, Cristina. 1.03P.5 Jaruga, Pawel. 1.04.9 7.02.2, 7.02P.2, 7.02P.4 3.19P.8 Inostroza, Pedro. 1.05P.19, 2.08.2 Jarvis, Tim. 3.10.3, 3.10P.16 Hernandez, Juan Martín. 3.20P.26 Hommen, Udo. 4.07P.9, 4.13P.1 Iosif, Chrystalla. 1.03.11 Jaspers, Veerle. 1.07P.1 Hernandez-Moreno, David. 4.08P.8 Hoogeweg, Gerco. 3.10.1 Ipiñazar, Maitane. 1.09P.1 Jaumot, Joaquim. 1.06.4 Herno, Valerie. 6.09P.2 Hoondert, Renske. 3.21P.2 Ippolito, Alessio. 6.10PC.4 Jayasena, Kongalage Don Ranil. Herrala, Mikko. 4.17PC.2 Horgah, Jonathan. 6.04P.10 Iqaluk, Debbie. 3.21P.3 3.03.2, 3.03P.15 Herrenknecht, Christine. 3.08P.6 Hornek-Gausterer, Romana. Irato, Paola. 6.04P.12 Jayasundara, Nishad. 1.11.5 Herrero Villar, Marta. 2.13P.4, 3.03P.12 Irfan, Mohammad. 4.09.3 Jeanne-Belot, Mathieu. 5.01.1 2.13PC.2, 2.13PC.3 Horton, Alice. 2.09.1, 3.04.1, 4.14P.3 Iribarren, Diego. 5.01.6 Jeanneret, Philippe. 5.04.15 Herrmann, Christoph. 5.01P.6 Horvat, Milena. 1.10P.1, 1.11.4 Irrgeher, Johanna. 3.23P.5 Jedvert, Kerstin. 4.02P.2 Herruzo, Ana. 2.08P.13 Hose, Grant. 3.20P.22 Iruskieta, Usua. 4.04.6 Jegede, Kayode. 2.09.4 Herzke, Dorte. 3.07.2, 3.12P.38, Höss, Sebastian. 3.12P.18 Isaksson, Elisabeth. 3.21.3 Jégou, Bernard. 3.06.3 3.22P.8, 6.04.5 Hotopp, Ines. 6.10P.11, 6.10P.4, Isemer, Rena. 2.01.1, 2.01P.11, Jejeya, Vazha. 1.11.4 Herzog, Skuyler. 3.24P.2 6.10P.9 2.01P.12, 2.01P.13, 4.06P.10 Jemec, Anita. 4.02P.8, 4.14.4 Hesketh, Helen. 4.02P.5 Hotz, Simone. 4.01P.7 Ishaque, Ali. 1.09P.10 Jenal, Ursula. 4.09P.7 Hessen, Dag. 2.05P.11 Houde, Magali. 2.03.4, 2.03P.2, Ishibashi, Hiroshi. 6.08P.6 Jene, Bernhard. 3.10.1, 3.17.4, 3.21P.4 Heuacker, Vadim. 2.13PC.4 Itsubo, Norihiro. 5.02P.6, 5.03P.6, 3.17P.13 Heuberger, Manfred. 3.12P.10 Houghton, Jade. 1.12.4 5.04P.11, 5.04P.12, 5.04P.6, 5.06P.1 Jenner, Karen. 3.17.4 Heyes, Andrew. 4.18PC.3 Hovland Steindal, Eirik. 6.04P.8 Iturria, Iñaki. 1.09P.1 Jensen, Anders. 3.22.5 Hickey, Gordon. 1.12P.2 Howes, David. 6.05P.2 Itzel, Fabian. 3.14P.2 Jensen, John. 4.09PC.4 Hickmann, Silke. 3.08P.14 Howick, Chris. 3.07.4, 3.07P.1 Iuzzi, Júlia. 4.09P.6 Jensen, Kenneth. 3.11.6, 3.11P.3 Higes, Mariano. 2.03P.3 Hrabák, Pavel. 3.12P.41, 4.04.7, Ivan, Lori. 2.06.2 Jenssen, Bjorn Munro. 1.06.5, 4.04P.1, 4.04P.12 Higgins, Christopher. 6.04.3 Ivleva, Natalia. 3.04P.1, 3.04P.13, 1.07P.1, 1.08P.1, 6.04.3 Hildebrandt, Lars. 3.04.8 Huang, Anna. 4.19PC.2 3.04P.14, 3.04P.15 Jeong, Jaeseong. 7.01.4 Hill, Jane. 2.04P.8 Huang, Audrey. 4.04.4 Ivone Borrely, Sueli. 4.01P.3 Jeong, Seung-Woo. 6.05P.10, Hilscherova, Klara. 1.09P.7, 1.09P.9 Huang, Lei. 3.13.4, 3.26P.1, 5.01P.2, Izagirre, Urtzi. 1.02P.11, 1.02P.4, 6.05P.13 5.05P.6 Hilt, Sabine. 2.01.3, 3.24P.4 1.08P.4 Jepson, Paul. 1.13P.1 Huber, Christian. 2.09.2 Hindmarch, Sofi. 2.13PC.1 Jerde, Chris. 1.14PC.4 Hubert, Marie. 2.08.5 Hinfray, Nathalie. 1.09.3 Jessen, Gerdhard. 2.08.2 Hubo, Lauren. 5.05P.5 HINFRAY, Nathalie. 6.01P.1 J Jesus, Édipo. 1.10P.15 Huchthausen, Julia. 1.16PC.2 Hinwood, Andrea. 3.16P.10 Jesus, Fatima. 1.05P.32 Huet, Valerie. 2.07P.6, 2.07P.8, Jackson, Andrew. 3.04.5 Hirose, Akihiko. 4.09P.11 Jesus, Mónica. 3.19P.7 6.02P.3 Jackson, Brian. 1.11.5 Hischier, Roland. 5.01.2 Jetten, Mike. 4.01P.1 Hufenus, Rudolf. 3.12P.10 Jacob, Annie. 1.04.9 Hiskia, Anastasia. 6.03.4 Jha, Awadhesh. 1.03.8 Hughes, Christopher. 3.17.2, Jacob, Jens. 6.10P.6 Ji, Kyunghee. 1.05P.14, 1.05P.18, Hjermann, Dag. 4.07.5, 6.02P.2 3.17P.2, 3.17P.3, 3.17P.4, 3.17P.5, Jacob, Jeremy. 3.05.5 1.05P.5 Hjermann, Dag Øystein. 1.01.1, 3.25P.3, 4.21P.1 Jacobs, Matthew. 3.16P.13, 3.16P.2 Jiang, Chulin. 3.12P.29 4.07P.5 Hughes, Claire. 3.12P.37 Jacquet, Thierry. 2.09P.1 Jiang, Ruifen. 3.13P.2, 3.14P.4 Hjorth, Rune. 2.01P.1 Hughes, Sarah. 4.01P.4 Jaeger, Anna. 3.24P.2 Jieh, Phoenix. 3.27P.1 Hodapp, Bettina. 2.02P.1, 2.02P.5, Huhn, Carolin. 2.11PC.2 4.13P.3 Jaeger, Patrick. 3.09P.7 Jiménez, Ana-Lourdes. 1.11P.4 Huiting, Hilfred. 2.04P.13 Hodges, Geoff. 1.12.4, 2.04P.8, Jaegers, Jeremy. 1.01P.1 Jimenez, Begona. 1.11P.4, 2.13P.2 Hulgard, Katrine. 1.09P.6 7.01P.2 Jagadeesan, Kishore. 7.02P.9 Jiménez, Laura. 1.02P.4, 1.08P.4 Hullot, Olivier. 4.04.4 Hodges, Geoffrey. 1.15PC.2 Jagadeesan, Kishore Kumar. Jiménez, Pedro. 1.13P.9 Hulst, Mitchell. 5.02.3 Hodges, Juliet. 3.24P.5 4.09P.10, 4.09P.9, 7.02P.6 Jimenez Martinez, Joaquin. 4.14P.2 Hultman, Jenni. 2.09P.8 Hodson, Mark. 1.16PC.1 Jager, Tjalling. 1.05P.30, 4.02P.5, Jiménez-Pastor, J.M.. 2.08P.13 Hultman, Maria. 3.12P.9, 4.03P.7 Hoeger, Birgit. 4.09P.22 4.07.3, 4.07.5, 4.07P.3, 4.07P.4, Jimenez-Ruiz, Ernesto. 1.12P.3, Hung, Hayley. 3.20.8, 3.21.1 4.07P.5 Hoekzema, Constance. 3.02.2 4.07P.18 Huntsman, Philippa. 3.23.3, 6.08P.7 Jakob, Lena. 1.04.4 Hoen, Thierry. 2.01.4 Joachim, Sandrine. 1.05.6 Hurem, Selma. 1.10P.14 Jakoby, Oliver. 4.07P.2 Hoffman, Elijah. 1.04P.2 Jobling, Susan. 1.05P.1, 1.13P.1 Hurley, Rachel. 3.12P.9, 4.14.2 Jaksic, Fabian. 2.13P.2 Hoffmann, Steve. 1.04.4 Johann, Sarah. 1.05P.21, 1.08P.3 Hutchins, Michael. 3.02P.2 Jalaei, Farzad. 5.02.1 Hofman, Jakub. 3.10P.22, 3.10P.26, Johannesson, Cecilia. 4.20P.2, 3.10P.6 Hutchinson, Tom. 2.01P.4, 3.16P.4 James, David. 3.03P.5 5.04P.1 Hofmann, Thomas. 3.04P.14 Hutt, Lee. 1.03.8 James, Jebin. 5.07P.4 Johanning, Karla. 4.03P.7 Hogan, Natacha. 1.10P.13, 1.12P.1, Hutter, Victoria. 1.16PC.1 James, Kyle. 2.09.4 Johansen, Jon Eigill. 3.07P.3, 3.07P.6 1.12P.2, 2.09.4, 2.10P.3, 4.03.1 Huynh, Carolyn. 1.15P.1 James Casas, Alice. 6.01P.1 Johansson, Jana. 3.16P.12 Höger, Stefan. 2.01.2, 2.02P.1, Huynh, Nina. 3.15P.7 Jamieson, Heather. 3.23.3 Johnsen, Bjørn. 2.01P.6 4.06P.9, 4.09P.18, 4.13P.3 Huysveld, Sophie. 5.07.1 JAMIN, Emilien. 3.06.4 Johnson, Andrew. 2.05.7, 3.04.1 Hogstrand, Christer. 1.03.10, 1.03.9, Hyöty, Heikki. 1.07P.2 Janfelt, Christian. 3.05P.22 Johnson, Warren. 1.04.9 4.03.5 Jánosi, Amaya. 3.17P.12 Johnson-Restrepo, Boris. 3.11P.5 Hoh, Eunha. 1.14PC.4 Jans, Daniela. 2.01P.12, 2.01P.13 Johnston, Helinor. 1.05.7 Holbech, Henrik. 1.09.2, 1.09P.6 I Jänsch, Stephan. 4.13.1 Johnston, Robert. 6.08.2 Holden, Patricia. 1.14PC.4 Jansen, Leen. 2.10P.6 Jollie, Lucas. 1.06.2 Iaccino, Federica. 4.21P.3 Hölker, Franz. 2.01.3 Jansen, Marcel. 3.12P.6 Jolliet, Olivier. 3.13.4, 3.24P.5, Hollender, Juliane. 3.05P.22, 3.17.4, Ibañez, Maria. 3.15P.3 Janssen, Colin. 3.12P.8, 4.01P.6 3.26P.1, 5.01P.2, 5.05.3, 5.05P.6, 3.17P.8, 3.24.1 Ibañez Aguirre, Ana Laura. 1.03P.6 Janssen, Elwin. 4.21P.2 5.06.1, 5.08PC.1 Hollert, Henner. 1.03P.10, 1.04P.1, Ibrahim Muazu, Rukayya. 5.02P.13, Janssen, Nicole. 7.01P.3 Joly, Muriel. 2.08.1 1.05.11, 1.05.2, 1.05P.21, 1.08P.2, 5.02P.16 Joncour, Guy. 2.13PC.4 1.10P.7, 1.12.1, 1.14P.4, 1.16P.3, Janssen, Sharon. 3.20.1, 3.20.2 Ikarashi, Yoshiaki. 4.09P.11 Jones, June. 2.04P.9 3.01P.6, 3.08P.12, 4.01P.7, 4.03.1, Jantunen, Liisa. 3.03P.1 Illés, Erzsébet. 4.08P.1 4.14P.1, 4.14P.5, 4.15P.6, 6.07P.4, Jaques, Andrew. 3.07P.1, 3.07P.2 Jones, Kevin. 2.05P.11 Ilo, Timo. 3.16P.20 6.09PC.4 Jaramillo, David. 3.22P.5 Jones, Michael. 2.06.2 Imaizumi, Yoshitaka. 3.02P.15, Holmstrup, Martin. 2.10P.1 Jaramillo-Colorado, Beatriz. 4.04P.7 Jonkers, Tim. 3.15P.2 3.19P.10 Holton, Elizabeth. 3.08P.2, 4.01P.14, Järlskog, Ida. 3.22P.4, 3.22P.5 Jonkisz, Jadwiga. 1.05P.3 SETAC Europe 30th Annual Meeting - SETAC SciCon 123 Jonsson, Ove. 2.06P.3 Kase-Pasanen, Robert. 4.09P.3 Kirby, Mark. 1.08.3 Kooijman, Ellen. 3.14P.7 Jorguseski, Shanell. 7.02P.3 Kaserzon, Sarit. 3.05P.8, 3.16P.8, Kirk, Jane. 3.21P.4 Kools, Stefan. 3.04P.3, 3.05P.15, Joss, Adriano. 2.08P.5 3.18.3 Kirkwood, Ashlee. 2.01P.15 6.08.3 Jourdain, Eve. 1.13.1 Kasiotis, Konstantinos. 2.02P.14, Kiryushina, Anastasiya. 4.04P.17 Kootstra, Lucinda. 5.02.3 Journel, Blandine. 3.10P.30 3.20P.23 Kissane, Laura. 1.04P.2 Korkaric, Muris. 4.06P.3 Journel, Romain. 4.09.2, 4.09P.16 Kaske, Oliver. 2.05P.2 Kitamura, Yusuke. 5.03P.6 Körner, Oliver. 1.03P.2, 3.10P.9, Jousse Della Giustina, Allyriane. Kasprzyk-Hordern, Barbara. Kivelä, Kalle. 6.04.4 4.11P.16 1.11.2, 3.08P.2, 4.01P.14, 4.01P.15, 5.03P.2 Kjeldsen, Thomas. 4.01P.14 Koros, Rosalie. 3.04P.1 4.09P.10, 4.09P.17, 4.09P.9, 7.02.1, Joyce, Peter. 5.02.8 Kortenkamp, Andreas. 4.02.2 7.02.3, 7.02P.5, 7.02P.6, 7.02P.9 Klanova, Jana. 3.15P.8, 4.05P.3 Joyner, Dominique. 1.08P.5 Korzeniowski, Stephen. 6.04.6, Kassaye, Yetneberk. 1.02P.6 Klaschka, Ursula. 6.07P.1 Juergens, Monika. 2.05.7 6.04P.1 Kasurinen, Heli. 5.03P.3 Klasmeier, Jörg. 3.02P.11 Jühling, Frank. 1.04.4 Kosak, Lena. 1.09.1 Kato, Leandro. 4.11P.6, 4.11P.7 Klawonn, Thorsten. 3.11P.4, Junghans, Marion. 4.02.4 3.20P.2, 3.20P.3 Koschorreck, Jan. 2.13P.1, 2.13P.6, Katsiadaki, Ioanna. 1.03.1, 1.09.1 3.14P.1, 3.19.3, 4.03.4 Jungmann, Dirk. 3.08P.14 Klein, Judith. 4.07P.9, 4.13P.1, Katsumiti, Alberto. 3.12P.5 Kosfeld, Verena. 4.03.4 Junior da Silva Rosa, Jheimison. 6.06.6 Kauffmann, Kira. 1.10P.7 1.02P.8 Klein, Michael. 3.10.1, 6.06.5, 6.06.6 Kostal, Jakub. 4.06P.12 Kaur Aulakh, Parminder. 5.02P.22 Jurgens, Monika. 3.04.1 Klein, Olaf. 2.02P.11 Kosubova, Petra. 3.10P.22 Kavehei, Armin. 3.20P.22 Juvigny-Khenafou, Noel. 2.05.2 Klein, Ole. 3.23P.5 Kotschik, Pia. 4.13.1 Kay, Paul. 4.09.4 Klein, Roland. 2.05.6 Kouloumpis, Viktor. 5.06.3 Kayens, Goedele. 4.04P.11 Kleinmann, Joachim. 3.10P.11 Kounina, Anna. 5.01.1, 5.06.2 Ke, Xin. 2.10P.1 Kley, Carolin. 3.10P.1 Kouriba, Bourema. 3.08P.8 K Kehrein, Nils. 3.10P.10, 3.10P.20, Kling, Annette. 2.02P.5 Koutný, Marek. 3.10P.26 3.10P.24 Kaegi, Ralf. 3.04.9, 3.12.19, 3.14P.6, Klingler, Rebekah. 2.06.2 Koutsaftis, Apostolos. 6.02P.1 3.14P.7, 3.14PC.3, 6.05P.7, 6.05P.8 Keitel-Gröner, Frederike. 1.08.1 Kloeckner, Philipp. 3.04P.10, 3.22.2 Kovaleva, Ekaterina. 2.04.1 Kahilainen, Kimmo. 3.21.2 Keiter, Steffen. 1.05.1 Klopfenstein, Aurélien. 5.04P.3 Kovel, Ekaterina. 4.08.1, 4.08P.5, Kairigo, Pius. 4.15P.2 Keller, Andreas. 4.14P.2 4.08P.6 Klopp, Christophe. 1.04.8 Kaiser, Sibylle. 2.02P.26 Keller, Arturo. 1.12.2 Kowalczyk, Agnieszka. 3.17.4, Klopper, Tanja. 4.07P.2 Kakavas, Dimitrios. 1.02P.5 Keller, Virginie. 2.05.7, 3.02P.2 3.17P.13 Kloslova, Zuzana. 6.04.4 Kalkhof, Stefan. 1.05.11 Kellermann, Matthias. 4.18PC.5 Kozak, Natalia. 3.21.2 Klüver, Nils. 4.09P.23 Kallenborn, Roland. 4.15.3 Kempter, Lucas. 6.05P.4 Kozakova, Sarka. 3.09P.15 Knaebe, Silvio. 2.02.3, 2.02P.10, Kennedy, Robert. 2.07P.5 Kozuch, Marianne. 1.05P.9 Kalogianni, Eleni. 4.18PC.1 2.02P.11 Kennedy, Theodore. 2.07.4 KP, Raveesha. 2.02P.6 Kaloudis, Triantafyllos. 6.03.4 Knapen, Dries. 1.09.2, 1.09P.2, Kamali, Naghmeh. 4.01P.11 Kerkhof, Annemarie. 5.04.7 1.09P.7 Kraak, Michiel. 4.05.3 Kamari, Abderrahmane. 3.08P.6 Kerkhoff, Jessica. 4.01P.12 Knauer, Katja. 8.01.4 Kraemer, Stefan. 4.05P.2, 7.01.3 Kamminga, Leonie. 1.04.3 Kerstein, Jill. 3.14P.2, 4.14P.1 Knight, Derek. 7.01.1 Kraft, Philipp. 3.10P.13, 4.07.9 Kämpfer, Christoph. 4.14P.1, Keteleer, Bram. 5.07.3 Knillmann, Saskia. 2.05P.2, 3.24.3 Kragten, Steven. 6.10P.7 4.14P.5 Keva, Ossi. 3.21.2 Knittelfelder, Oskar. 1.06.6 Krail, Jürgen. 5.02P.11 Kämpfer, David. 3.05P.10, 4.04P.4, Khairy, Mohammed. 3.24.4 Knoll, Sarah. 2.11PC.2 Kral, Iris. 5.05P.3 4.15P.6 Khamis, Kieran. 2.08P.8 Knoll-Gellida, Anja. 1.05.10 Kram, Pavel. 3.20P.13 Kampmann, Kristoffer. 3.22.5 Khan, Essa Ahsan. 6.02P.7 Knopf, Burkhard. 2.13P.1, 2.13P.6, Kramer, Nynke. 1.16P.1 Kamstra, Jorke. 1.04.2, 1.04.3, Khan, Farhan. 3.04P.21, 3.22.5 3.11P.4, 3.20P.2, 3.20P.3, 6.05P.8 Krampe, Joerg. 2.09P.9 1.04P.6, 1.10P.14 Khelifi, Samira. 3.12P.8 Knudsmark Sjøholm, Karina. Krapp, Margit. 3.04P.6 Kan, Daniël. 5.04.16 Kho, Young Lim. 1.05P.5 3.17P.1, 4.21P.5 Krasnobaev, Artem. 3.21.4 Kanaki, Elisavet. 3.04.3 Kholodkevich, Sergey. 1.14P.7 Kobayashi, Norihiro. 4.09P.11 Kraus, Johanna. 2.07.1, 2.07P.10 Kanapathywasam, Ramyarooban. Khosa, Dumisani. 6.11P.1 Koch, Bjørn. 4.08.3 Krause, Simone. 5.05P.3 1.12.4 Kicheeva, Arina. 4.08P.5 Koch, Iris. 3.11.1 Krause, Sophia. 1.16P.3, 4.03.2, Kanarek, Andrew. 4.06.4, 4.07P.12 Kidd, Karen. 1.01.4, 2.08P.1 Koch, Josef. 4.09P.24 4.03P.13 Kandie, Faith. 3.08.2 Kienzler, Aude. 4.02.2 Koch, Tino. 4.15P.6 Krause, Stefan. 2.08P.8, 3.03.1, Kang, Seugnhun. 3.25P.4 Kienzler, Aude Emma. 1.03P.3, Kocher, Birgit. 3.22.3 3.03P.3, 3.12P.22 Kannan, Andrew. 7.02P.9 1.03P.5, 1.09P.7 Kocjan, Karolina. 2.02P.9 Krauss, Martin. 3.08.2, 3.24.3, Kantele, Anu. 3.08P.8 4.05.1 Kieseler, Julius. 4.15P.6 Koegst, Johannes. 1.09P.5 Kanwischer, Marion. 3.16.4, 3.16.5 Krebs, Florian. 3.10P.13, 3.10P.14, Kießling, Tobias R. 7.01.5 Koelmans, Albert. 3.02.4, 3.12P.30 Kapanen, Anu. 1.15PC.3, 6.06.2 4.07.9, 4.07P.15 Kilgallon, John. 3.24P.5 Koenig, Maria. 1.16PC.2, 3.24.3, Kreutzer, Anne. 3.01P.5, 3.01P.6 Kaplan, Aviv. 4.09.1 Kille, Peter. 1.10P.15, 1.10P.8, 3.24P.8 Kreuzinger, Norbert. 2.09P.9 Kapo, Katherine. 4.12P.1 2.02P.12, 2.02P.25, 2.08P.2, 2.09.1, Kögel, Tanja. 3.03.7, 3.04P.17 Krikech, Imad. 3.18P.1 Käppler, Andrea. 3.04.3 2.09P.12, 2.10.6, 4.08P.4 Kogovšek, Polona. 6.03P.1 Kringstad, Alfhild. 6.02P.2 Kapustka, Lawrence. 6.07.6, 6.07P.8 Kim, Aleksandra. 5.01.4 Köhler, Heinz. 1.05P.10 Krischik, Vera. 2.02P.16 Karakitsios, Spyridon. 1.10P.1, Kim, Hyungkyu. 1.05P.14 Kohler, Maxie. 3.06P.4 1.11.4 Kristensen, David. 3.06.3 Kim, Jaeshin. 3.19P.12, 3.19P.5, Köhler, Petra. 2.01P.12 Karamertzanis, Panagiotis. 6.04.4 3.19P.9, 4.03P.3 Kristensen, Torstein. 3.11P.8 Köhler, Stephan. 3.05P.5 Karjalainen, Anne-Mari. 7.01.1 Kim, Jeonghoon. 1.15PC.2 Kristofco, Lauren. 4.01P.4 Kohles, Alexander. 3.04P.14 Karkman, Antti. 4.15P.3 Kim, Min Joo. 1.05P.27 Kroder, Stefan. 3.10P.9 Kohles, Alexander J.. 3.04P.13 Karkour, Selim. 5.03P.6, 5.04P.6 Kim, Young Jun. 1.03P.11, 1.03P.12 Kroeger, Silja. 3.01P.5, 3.01P.6 Koistinen, Arto. 3.22.4 Karlsen, Odd André. 1.06.3 Kim, Yunhwan. 1.03P.11 Krogseth, Ingjerd. 3.07.2 Kokociński, Mikołaj. 6.03.5 Karlson, Agnes. 2.07.8 Kimbrough, Kimani. 1.04.9 Krokje, Aase. 1.07P.1 Kolm, Niclas. 2.11P.1 Karlsson-Drangsholt, Anders. Kimmel, Stefan. 4.06P.9 Krone, Oliver. 1.13P.2, 3.08P.5 Kolossa-Gehring, Marike. 3.13P.3, 3.12P.30 King, Henry. 5.04.7 3.13P.4 Kronsbein, Anna Lena. 3.24P.4 Karnjanapiboonwong, Adcharee. King, Mason. 1.13.3, 1.13P.5, Kolpin, Dana. 3.05.4 Kropf, Christian. 4.03.5 6.04P.6 1.13P.6 Kondrashina, Victoria. 3.01.4 Krotil, Richard. 5.02P.11 Karnstedt, Lea. 3.05P.3 Kingsbury, Joanne. 2.07P.7 König, Azora. 1.09.1 Kruckenfellner, Lukas. 3.20P.14 Karoliussen, Richard. 1.13.1 Kinney, Chad. 2.04P.2 König, Fabian. 3.03P.21 Krueger, Henry. 4.16PC.2 Karpel Vel Leitner, Nathalie. 3.15.3 Kintzi, Aaron. 4.14.1 Koning, Jasper. 3.16P.15 Kruse, Susanne. 2.01P.1 Karpov, Marina. 3.16.3 Kinzl, Maximilian. 3.03P.12 Konradi, Sabine. 4.09P.23 Kruszelnicki, Afsane. 6.11P.2 Kase, Robert. 3.08.4 Kipferler, Nora. 2.01.3 Konschak, Marco. 2.08.3, 3.12P.40 Kubicki, Michael. 2.09P.3 124 scicon.setac.org Kubitza, Johanna. 2.01.1 Langlois, Juliette. 5.04.13 Lefranc, Marie. 1.03P.7 Lindqvist, Dennis. 3.07.1 Kubitzky, Enya. 1.02P.5 LANNELONGUE, Vincent. 5.03P.2 Legagneux, Pierre. 4.19PC.3 Liñero, Olaia. 1.02P.4 Kudryasheva, Nadezhda. 4.08.1, Lanno, Roman. 2.04P.2 Léger, Thibaut. 3.06.3 Link, Andreas. 5.04.8 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Le Menach, Karyn. 4.08P.15 2.08P.9, 2.10.4 Lagarde, Fabienne. 3.12.21 Lewis, Dick. 3.17.4 Le Milbeau, Claude. 3.05.5 Lopes Motta, Fernanda. 6.05P.9 Lagojda, Andreas. 3.06P.4 Li, Augusto. 4.17P.1 Le Roux, Julien. 3.15P.7 Lopes-Marques, Mónica. 1.06.1 Lahive, Elma. 2.09.1, 4.02P.5, 4.14.3, Li, Hequn. 1.15P.7 Leahy, Paul. 3.16P.10 4.14P.3 Li, Li. 3.02.1, 3.02P.17 López, Carmen. 4.04P.8 Leal, Rafael. 4.19P.3 Lai, Chih. 4.05P.2, 7.01.3, 7.01.5 Li, Roman. 1.05.3 Lopez, Naroa. 3.09.1, 3.09P.6, Leão, Susana. 5.07P.8 3.15P.1 Lai, Foon. 3.15.2 Li, Wenlong. 3.20.8 Lear, Gavin. 2.07P.7 Lopez, Pascal-Jean. 4.11P.2 Laitinen, Jaana. 7.01.1 Li, Zhe. 3.05P.8, 3.15P.4, 3.24P.2 Lebaron, Philippe. 4.18PC.2 Lopez Antia, Ana. 1.13P.8 Laitinen, Olli. 1.07P.2 Liang, Ruoyu. 2.05P.5 Lebertz, Stephan. 3.09P.7 López de Alda, Miren. 3.10P.29, Lalić, Dijana. 6.03.5 Libralato, Giovanni. 3.20P.12 Lebreton, Morgane. 1.02P.2 7.02.2, 7.02P.2, 7.02P.4 LaLone, Carlie. 1.10P.3, 1.10P.4, Licha, David. 2.09.2 Leclercq, Celine. 3.20P.15 López García, Ester. 7.02P.2 4.19P.2 Lidman, Johan. 2.07.5 López Moreira Mazacotte, Grégorio. 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Martins Bernardino, Murilo. 4.19P.3 Lotz, Bert. 2.04P.13 5.06P.3 4.04P.7 Martyniuk, Chris. 1.05P.8, 1.05P.9 Loubet, Philippe. 5.04.3, 5.04.5, Magaud, Violaine. 5.06.2 Mariner, Richy. 3.07P.1, 3.07P.2 Marufu, Blessing. 2.09P.2 5.04P.2 Mageiros, Leonardos. 3.08P.2 Marini, Michele. 3.11P.6 Marx, Michael Thomas. 2.09P.6, Louboutin, Lenaig. 1.05.9 Magenau, Elena. 5.04P.8 Marino, Stefano maria. 1.14P.1 2.10P.4 Louis, Fanny. 1.02.4, 1.02P.2 Magni, Stefano. 3.03.8 Marjorie, Lortholarie. 3.08.3, Marziali, Laura. 4.04.1, 6.08P.2 Loureiro, Susana. 1.05P.15, Magnusson, Kerstin. 3.22P.4 3.08P.6 Mas-Pla, Josep. 4.15P.1 1.05P.23, 2.08P.9, 2.09P.13, 2.10.3, Maguire, Steve. 1.12P.2 Markey, Kristan. 1.10P.4 MASAFONT, Joris. 5.03P.2 2.10.4, 2.10P.2, 2.10P.5, 4.03P.8, Mai, Trung Hieu. 3.10P.18 Markiewicz, Anna. 3.22P.4 Masfaraud, Jean-François. 3.20P.12 6.05P.3 Maia, Frederico. 1.05P.23, 6.05P.3 Markkanen, Melina. 3.08P.8 Maslov, Michael. 2.10.5 Lourenço, Ana Laura. 3.03.5 Maïbèche, Martine. 1.01.2 Markus, Arjen. 3.22.1 Massalha, Nedal. 3.08.5 Lourenço Dias Nunes, Paulo Maillot-Maréchal, Emmanuelle. Marlatt, Vicki. 1.13.3, 1.13P.5 Augusto. 8.01.1 Massarelli, Carmine. 3.12P.35 1.09.3 Marqueno Bassols, Anna. 1.06P.2 Loutseti, Stefania. 2.01P.11, Massarsky, Andrey. 1.11.5 Maisonneuve, France. 2.13PC.1 Marques, Alexandra. 5.04P.16 2.09P.6, 2.10P.4 Massat, Felix. 4.11P.2 Mait, Russell. 3.19.2 Marques, Alexandre. 1.11P.5 Louzon, Maxime. 3.20P.11 Masse, Anita. 1.12P.1 Majumdar, Sanghamitra. 1.12.2 Marques, João. 2.07P.1, 2.07P.4 Love, Charlotte. 6.04P.2 Massei, Riccardo. 1.05P.19, Makiadi-Alvarado, Jennifer. 4.16P.3, Marques, Paula. 1.14PC.1 1.05P.28, 3.08.2 Lowe, Chris. 2.09P.1 4.16P.4 Marques, Pedro. 5.07P.10 Massini, Giulia. 1.11.1 Lozano, Clément. 4.18PC.2 Malabad, Abdoulaye Mahamat. Marques, Sérgio. 2.07P.1 Massot, Manuel. 1.01.2 Lubyaga, Yulia. 1.04.4 4.04.3 Marques-Souza, Henrique. 4.11.4 Matallana-surget, Sabine. 4.18PC.2 Lucassen, Magnus. 1.04.4 Malchi, Tomer. 2.12PC.2 Marras, Barbara. 3.18.2 Matamoros, Víctor. 3.05.6 Luckenbach, Till. 1.04.4, 1.05.8, Malekani, Kalumbu. 3.25P.4 1.10P.5 Marsden-Jones, Sian. 3.17P.13 Matei, Ionut. 7.02P.3 Maletzki, Dirk. 4.03P.1, 6.05P.8 Lückmann, Johannes. 2.02P.26 Marshall, Alice. 3.05P.13 Mateo Soria, Rafael. 1.13.4, 1.13P.7, Malheiro, Catarina. 2.09P.13, 2.10.3, 1.13P.8, 2.03.3, 2.03P.1, 2.03P.3, Lüderwald, Simon. 2.07.3, 3.12P.40, Marshall, Sophie. 1.14P.5 2.10P.2 2.05P.8, 2.05P.9, 2.13P.4, 2.13PC.2, 4.09P.2 Marshall, Stuart. 2.04.5, 2.04P.11, Malherbe, Wynand. 3.11P.10 2.13PC.3 Ludwigs, Jan-Dieter. 4.11P.16 2.04P.9 Malin, Chris. 6.06.3 Martellini, Tania. 2.13P.1, 2.13P.6 Mateos Cardenas, Alicia. 3.12.23, Luers, Michael. 3.16.1 3.12P.6 Maloney, Erin. 6.06P.3 Martens, Catarina. 3.03.7 Lukas, Marcus. 3.05P.14 Mathys, Alexander. 5.08PC.4 Maltby, Lorraine. 2.04.5, 2.04P.10, Martí, Celia. 1.09P.1 Lundqvist, Johan. 1.03.7, 3.15.2, 2.04P.11, 2.04P.9, 2.05P.5, 4.02P.7, Matos, Beatriz. 4.05P.9 3.26P.3 Martí, Vicenç. 3.14P.5, 6.05P.5 5.02P.16, 8.01.8 Matthaei, Christoph. 2.05.2 Lundy, Lian. 4.15.4 Martin, Christopher. 1.08.3 Mamouni, Abderrahim. 3.10P.16 Matthews, Sara. 3.12P.3 Lunghini, Filippo. 1.03.3 Martin, Helen. 3.04P.12 Manage, Pathmalal. 1.11.5 Maul, Jonathan. 6.10P.1 Lungu, Sebastian. 1.03.7 Martin, Jake. 2.11P.1 Mancini, Laura. 1.14P.1, 1.14P.2, Maury, Thibaut. 5.04P.2 Lusher, Amy. 3.04.10, 3.12P.9, MARTIN, Jean-François. 3.06.4 1.14P.3, 1.14P.4, 1.14PC.3 Mayack, Christopher. 3.06P.2 3.21P.7 Martin, Olwenn. 1.09.4, 3.27P.1, Mandava, Geeta. 3.15.2, 3.26P.3 Mayer, Christoph. 2.04.6 Lyche, Jan. 1.10P.14, 1.13.1 4.02.2 Manders-Groot, Astrid. 3.02P.2 Mayer, Philipp. 1.16P.1, 3.17P.1, Lynch, Iseult. 1.04P.2, 1.14P.5, Martin, Thomas. 1.16PC.1 Maner, Jenny. 1.16PC.3 3.17P.6, 3.17P.7, 4.21P.5, 6.06.4 2.08P.8, 3.03.1, 3.03P.18, 3.03P.3, Martin, Timothy. 6.06.3 Mangold-Döring, Annika. 4.03.1, 3.12P.22 Mayer, Simon. 3.10P.8 7.03P.1 Martin-Aparicio, Alberto. 3.17.2, Lyng, Emily. 1.08.1, 4.09.3 3.17P.2, 3.17P.3, 3.17P.4, 3.17P.5, Mayerhofer, Nicolas. 1.02P.12 Manish, Manish. 1.10P.9 Lynn, Scott. 1.10P.4 3.25P.3 Mayes, William. 3.03P.8 Manson, Philip. 6.10P.12, 6.10PC.5 Lyon, Delina. 1.03P.1, 3.17P.6, Martin-Diaz, Maria Laura. 2.06.4 Maynard, Sam. 4.09P.22 Manz, Andreas. 1.03P.12 3.17P.7, 4.21P.1, 6.06.3, 6.06.4, Martin-Gamboa, Mario. 5.01.6, Maynard, Samuel. 4.09P.21, 6.06P.3 Manzo, Sonia. 3.12.9, 3.20P.21, 5.02.7, 5.02P.3, 5.07P.10 4.09PC.2, 6.01.5 5.02P.15, 5.02P.5 Martinet, Lionel. 3.12.21 Mayser, Jan Peter. 2.09P.10, 3.14P.3 Mao, Kang. 4.01P.10 Martinez, Claudia B R. 1.02P.1, Mazerolle, Marc. 2.03.1 M Maradonna, Francesca. 2.08P.3 1.02P.8, 1.05P.24, 4.11P.9 Mazerolles, Vanessa. 3.02P.13, Marafatto, Francesco. 3.14P.6 Martinez Garcia, Mª Rosario. 4.06P.7, 4.16PC.4 M, Bhuvaneshwari. 2.07P.9, Marano, Roberto. 3.05.3 4.16P.3, 4.16P.4 Mazón, María. 1.09P.1 3.05P.12, 3.08.5, 7.02P.8 Marć, Mariusz. 3.03P.13 Martínez López, Rubén Francisco. 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Mazzucotelli, Matilda. 4.03.3, Macaulay, Samuel. 2.05.2 1.14P.2, 1.14PC.3 6.03.2 4.03P.10 MacDonald, Susan. 2.01P.4, 3.16P.4 Marchese, Enrico. 3.02P.16, Martínez-Álvarez, Ignacio. 4.08P.15 Mazzurco Miritana, Valentina. 3.20P.16 Machado, Ana. 3.12P.24, 3.12P.28, Martinez-Guitarte, Jose-Luis. 1.11.1 4.16P.5 Marchesi, Marco. 3.03P.16 3.12P.13, 3.22P.7 Mbajiorgu, Ejikeme. 1.05P.4 Machado, Andre. 1.01.3 Marchesi, Massimo. 4.04P.6 Martinez-Haro, Monica. 2.03P.1, McAdow, Kristin. 4.04.2 Machera, Kyriaki. 3.20P.23 Marco, Ignasi. 2.13PC.2 2.03P.3 McArdell, Christa. 3.05P.8, 3.09.2 Macherone, Anthony. 3.06P.2 Marcomini, Antonio. 3.02P.16, Martínez-Landa, Lurdes. 3.05P.17 McCallum, Erin. 2.11P.1 3.20P.16 Mack, Pierre. 2.02P.10 Martinez-Lopez, Emma. 2.13P.3 McCarron, Pearse. 6.03.1 Marcou, Gilles. 1.03.3 Mackay, Neil. 3.10P.23 Martinez-Madrid, Belen. 2.03P.1, McCord, James. 6.04.1, 6.04P.2 Mardsen-Jones, Sian. 3.17.4 2.03P.3 Macken, Ailbhe. 4.08.2, 6.02.3, McCormack, Paul. 6.02.4 Marengo, Michel. 6.02P.3 Martínez-Madrid, Maite. 3.20P.24 6.02P.2 McCumber, Alexander. 2.08.4 Margni, Manuele. 5.04.7, 5.04P.5 Martinkova, Sarka. 1.09P.9 MacKenzie, Claire. 3.14P.1 McDonald, Emily. 5.08PC.1 Margrét Ásmundsdóttir, Asta. 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Mumford, Rory. 3.10P.28 Mechelke, Jonas. 3.24P.2 Miles, Mark. 8.01.6, 8.01.7 3.12P.7 Muncke, Jane. 3.27P.1, 6.07.3 Medlock-Kakaley, Elizabeth. 3.05.4 Mill, Jonathan. 1.04P.4 Morão, Inês. 1.13.5 Mund, Christian. 3.19.1, 3.19P.1, Medvescek, Neja. 4.03P.8 3.19P.2, 3.19P.3, 3.19P.9 Millán Gabet, Vanessa. 3.18.2 Morariu, Ionela. 3.05P.4 Meesters, Johannes. 3.02.4, 4.08.4 Muniategui-Lorenzo, Soledad. 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Movalli, Paola. 1.13P.3, 2.13P.1, Näkki, Pinja. 3.22.4 2.13P.6 6.02P.9 2.02P.8 Nalini, Elia. 4.14P.7 Moxon, Thomas. 1.15P.7 Mesquita, Lorena. 4.11P.13 Molins, Daniel. 4.18PC.1 Napolitano, Daniela. 4.04.5 Moyano Morcillo, Encarnación. Mestres-Martinez, Julia. 3.09P.10 Mommer, Liesje. 2.10.1 Narain-Ford, Dominique. 7.03PC.2 6.03P.2 Mestrot, Adrien. 3.23.4 Monbaron, Laetitia. 1.03P.7 Nardi, Elisa. 3.20P.21 Mueller, Axel. 3.12.1 Metcalfe, Chris. 3.05.2, 3.11.1 Monclús, Laura. 1.13P.2 Natal da Luz, Tiago. 2.09.5 Mueller, Carina. 5.04.7 Metreveli, George. 3.16.6 Mondellini, Simona. 2.06P.1, Natal-da-Luz, Tiago. 2.10.2, 4.13.1, Mueller, Carolin. 4.03P.1, 4.03P.2, Metzeling, Leon. 3.16P.10 4.09P.15 4.13.2, 4.13P.5 4.18P.1 Meyer, Frederik. 4.09P.2 Monikh, Fazel. 3.12.11 Natarajan, Chandrasekaran. Mueller, Jochen. 3.05P.8, 3.16P.8 Meyns, Bart. 2.10P.6 Monk, Wendy. 2.04.2, 2.04.4, 2.07P.9 Mueller, Leonie. 1.03P.10, 6.07P.4 Meyns, Michaela. 3.04.10, 3.04P.16 2.06P.6 Nauen, Ralf. 2.02P.19 Mueller, Till. 6.06P.1 SETAC Europe 30th Annual Meeting - SETAC SciCon 127 Navarra, Wanda. 4.01P.2 Nobre, Caio. 4.09P.6 Oismueller, Matthias. 2.09P.9 Otamonga, Jean-Pierre. 3.24.5 Navarro-Martin, Laia. 1.04.12, Nöding, Stefanie. 2.01P.12 Okamura, Takehiko. 5.02P.6 Oteri, Erika. 6.02P.7, 6.08P.2 1.04P.6, 1.05P.16, 1.06.4, 3.05.6 Nogueira, Antonio. 3.11.6, 3.11P.3 Okamura, Tetsuro. 1.09.1 Otero, Neus. 6.05P.5 Navas, Isabel. 1.13P.9, 2.13P.2, Nogues, Isabel. 2.12P.3 Okeke, Chioma. 3.01P.3 Otero Farina, Alba. 3.11.3 2.13P.3 Nogues, Martí. 6.05P.5 Olafsen, Trude. 3.03.7 Ott, Amelie. 3.17P.6, 3.17P.7, 3.24.6, Navas, José María. 4.08P.10, Noij, Theo. 6.06P.8 Olalla Pérez, Paula. 4.08P.10 6.06.3, 6.06.4 4.08P.8, 6.05P.6 Nolan, Martin. 3.18.2, 3.18P.2 Olapoju, Oluwabukunola. 6.02P.5 Otte, Jens. 3.17P.6, 3.17P.7, 6.06.4 Naveen, Njattuvetty Chandran. Nolte, Tom. 3.06P.1, 3.11.11, Olatunji, Olatunde. 3.08P.7 Ottermanns, Richard. 4.07P.10, 3.10P.27 6.09PC.5 Olayinka, Kehinde. 3.05P.18 6.07P.4, 6.07P.6 Navis, Sabine. 3.02P.7, 4.04P.11, Nolte, Tom. 4.01P.1 Otto, Christian. 1.04.4 6.09P.6 Olayinka, Nihinlola. 6.02P.5 Nopper, Joachim. 6.10PC.5 Otton, Victoria. 4.03P.11 Navon, Gal. 4.09.1 Olbrich, Daniel. 3.05P.19 Norberg-King, Teresa. 1.03P.14, Oturai, Nikoline. 7.04P.1, 7.04P.3 Ndungu, Kuria. 4.08.2 Oleszczuk, Patryk. 4.15.2 4.01P.4, 6.08P.4 Ouedraogo, Judicaël. 3.08P.8 Neale, Peta. 3.05P.15, 3.24.3 Olivares, Maitane. 3.09.1, 3.09P.6, Nordtug, Trond. 1.05P.20, 3.11P.8, 3.15P.1, 3.15P.5, 7.02P.4 Ouellet, Jacob. 1.04P.1 Neely, Theresa. 6.10P.2 6.02P.7 Olivatto, Glaucia. 3.03.5 Owen, Stewart. 1.02.1, 1.03.10, Neep, David. 3.09P.14 Norin, Malin. 3.22P.4 Oliveira, Camila M Toigo de. 4.11P.4 3.16.2, 3.16P.5, 4.09PC.2, 6.01.5 Negi, Chander. 1.10P.9 Norman, Steve. 6.10P.3 Oliveira, Jacinta. 1.02P.3, 2.08P.9, Owojori, Olugbenga. 4.11.1 Neheli, Tannis. 1.04P.10 Noro, Kazushi. 3.18P.4 2.10P.5 Owsianiak, Mikolaj. 5.04.7 Nehren, Kirstin. 4.14P.1 Norte, Ana. 1.13P.4, 2.07P.3 Oliveira, Miguel. 1.05P.12, 1.05P.22, Oziol, Lucie. 3.14PC.1 Nel, Holly. 3.03.1, 3.03P.3, 3.12P.22 Norvès, Benoit. 6.09P.7 3.08P.9, 3.12P.11, 3.12P.12, Ozores, Paloma. 4.10P.7 Nelles, Jonas. 4.15P.6 Nouri Sharikabad, Mohammad. 3.12P.23, 4.12.1, 4.12P.5, 6.07P.7 O´Neill, Bridget. 2.09P.6, 2.10P.4 Nelson, Caroline. 1.10P.6 7.03P.5 Oliveira, Rhaul. 4.11P.1, 4.17P.1 Nemecek, Thomas. 5.04.15, 5.05.1, Novais, Sara. 1.11P.2, 1.11P.4, Oliveira, Talles. 2.05P.13, 2.05P.7 5.05.2, 5.08PC.4 1.11P.5, 1.13.5, 1.13P.4, 2.07P.3 Oliveira Cacheado, Eliandre de. P Nendza, Monika. 6.06.5, 6.06.6 Novak, Jiri. 1.09P.9 1.10P.1 Neotti, Marco Guido. 4.20P.1 Novella, Corinne. 2.13PC.4 Oliveira e Silva, Miguel. 1.05P.32 P Diz, Angel. 1.05P.13 Nepstad, Raymond. 1.05P.30 Novelli, Elisa. 5.02P.5 Oliveri Conti, Gea. 1.09P.7 Padey, Pierryves. 5.01.2 Neres de Lima, Phâmella. 4.11P.12 Novotny, Thomas. 1.14PC.4 Oliverio, Stefania. 1.09.4 Padilla, Juan. 3.07P.7 Neri, Paolo. 5.01P.1 Nowack, Bernd. 3.12P.10, 4.10P.5, Oliviero, Maria. 3.12.9 Paganini, Wanderley. 3.05P.20, Nerland Bråte, Inger Lise. 3.12P.9 6.05P.12 Olscher, Christoph. 1.10P.12 3.05P.21, 4.01P.3, 4.09P.12, Neumann, Paul. 4.07P.13 Nowak, Alina. 4.04P.4 Olsen, Anders J.. 1.06.5 4.09P.13 Neuparth, Teresa. 1.01.3 Nunes, Cláudia. 2.07P.4 Olsen, Anne-Berit. 3.12P.25 Page-Lariviere, Florence. 1.03P.5 Neuser, Christian. 1.03P.10 Nunes, Gabriel. 4.11P.1 Olsen, Jorunn. 2.01P.6 Paglione, Marco. 6.03P.2 Neuzeret, Didier. 4.01P.5 Nunes, Pedro. 3.08P.1 Olsen, Kristine. 7.03P.5 Pahl, Sabine. 7.04P.3 Newbold, Lindsay. 2.09.1, 3.12P.37 Nunes Cardoso, Diogo Filipe. Olsen, Rolf Erik. 1.06.5, 1.06P.1 Pain-Devin, Sandrine. 1.02P.2, 3.11.3 Nfon, Erick. 3.25P.4, 4.09P.20 1.05P.15, 1.05P.23, 2.09P.13, 2.10.3 Olsvik, Pål. 3.11P.8 Paina, Andrea. 4.20P.1 Ng, Carla. 3.17.1, 6.04.5 Nunes Ponezi, Alexandre. 4.01P.3, Olubodun, Stella. 3.20P.10 4.09P.12 Paini, Alicia. 1.03P.5, 1.09P.7 Ng, Keng Tiong. 1.02.1, 3.08P.11, Oluseyi, Temilola. 3.05P.18 Núñez-Delgado, Avelino. 2.08P.12, Paiva, Vitor. 1.13P.4 3.14.1, 3.16.2 Olusoji, Oluwafemi Daniel. 2.11PC.1 3.16P.6, 3.16P.7 Pajula, Tiina. 5.03P.3 Ngumba, Elijah. 4.15P.2 Ono, Yuya. 5.02P.6 Nguyen, Nhung. 3.12P.41, 4.08P.3 Nys, Charlotte. 3.20.3, 3.20.4, Pakhomova, Svetlana. 3.21P.7, 3.20P.6, 3.20P.7, 3.20P.8, 4.21P.3, Onofrio, Giovanni. 6.04P.12 Nguyen, Thao. 6.08P.1 3.23P.2 6.09PC.3 Onoja, Simeon. 3.03P.3 Nichols, Elizabeth. 3.09.4, 3.09P.1 Palais, Frederic. 3.17P.6, 3.17P.7, Nøst, Ole Anders. 4.07.5 Oorts, Koen. 3.02P.7, 4.21P.3 6.06.4 Nichols, John. 4.03P.7 Opeolu, Beatrice. 3.08P.7 Palermo, Francesco. 1.14PC.3 Nickel, Carmen. 4.14P.1, 6.05P.11 Opute, Prosper. 1.05P.4 Pallavera, Marco. 3.04P.22 Nickisch, Dirk. 4.07P.2, 4.12.2 O Orbea, Amaia. 1.08P.3, 4.08P.15 Palluel, Olivier. 1.05.6, 1.09.3 Nicolas, Jean-Pierre. 5.03.2 Ord-Mcdermott, Laura. 2.09P.12 Palmeri, Luca. 6.04P.11, 6.04P.12 Nicolaus, Manuel. 2.07P.5 O’Brien, Jake. 3.05P.8 Oriel, Justine. 2.13P.5 Palmowski, Laurence. 4.04P.4 Nied, Oliver. 3.09P.8 O’Brien, Jason. 1.04P.5 Orihel, Diane. 3.21P.8 Palmqvist, Annemette. 3.03P.17, Nielsen, Anders. 2.02P.21 O’Brien, Kate. 5.06P.4 Ormad, Maria Peña. 3.16.7 3.22.5, 7.04P.1 Nielsen, Torkel. 7.04P.1 O’Callaghan, Irene. 4.03P.4 ORourke, Katie. 4.09P.14 Pamminger, Tobias. 2.09P.6, Niemeyer, Julia. 4.11.1 O’Connell, David. 3.03P.9 Orozco-terWengel, Pablo. 2.02P.12 2.10P.4 Niemeyer, Julia Carina. 2.09P.7, O’Donnell, Greg. 3.24.6 Ortega, Marcelo. 5.02P.4 Pampanin, Daniela. 2.08.9, 4.13.2, 4.13P.5, 4.19P.3 O’Dowd, Kris. 3.05P.6 Ortega, Priscila. 4.11P.11, 4.11P.5 3.09P.13, 4.09.3 Niemissalo, Sanna. 1.03P.4 O’Flynn, Dylan. 3.16P.1 Ortega-Calvo, José Julio. 3.01.1, Pan, Yuwei. 3.14.4 Niessner, Reinhard. 3.04P.13, O’Halloran, John. 3.12P.6 4.04P.10, 4.04P.8, 4.04P.9 Panagopoulou, Eleni. 1.05P.10, 3.04P.15 O’Reilly, Kaleigh. 2.04P.2 Ortego, Lisa. 4.16PC.2 3.06.2 Nieto, Sofia. 3.07P.4 Oberdoerster, Christoph. 4.07P.13 Ortenzi, Marco. 3.12P.15, 3.12P.17 Panchagavi, Renuka. 2.08.4 Nietzer, Samuel. 4.18PC.5 Oberdoerster, Susanne. 4.07P.13 Ortigosa Rodriguez, Jorge. 5.04P.16 Panico, Speranza C.. 2.09P.15 Nightingale, John. 4.09.4 Oberg, Gunilla. 6.07.2, 6.07P.6, Ortiz Santaliestra, Manuel. 1.13.4, Pannetier, Pauline. 1.09.2, 1.09P.2, Nika, Maria-Christina. 1.13P.3, 8.04.1 1.13P.8, 2.03P.3, 2.05P.8, 4.12.3 1.09P.3, 1.09P.4, 1.09P.5 2.13P.1, 2.13P.6, 3.08P.17, 3.08P.5, Obersteiner, Gudrun. 5.03P.5 Orton, Frances. 2.03P.4, 4.02.5 Panou, Manthos. 6.03.4 3.09P.12 Oboh, Ijeoma. 1.05P.4 Osadchiev, Alexander. 3.21P.7 Pantos, Olga. 2.07P.7 Nikiforova, Natalia. 4.04P.17 Obradovic, Mihailo. 4.09.3 Osaro, Peter. 1.05P.4 Paoletti, Melissa. 2.05P.1, 2.10.6 Nikolopoulou, Varvara. 2.13P.6, Papa, Ester. 3.15P.4, 4.03.3, 3.08P.17 Ocio, Iñigo. 3.20P.24 Osborne, Amy. 3.04.5 4.03P.10, 4.03P.9 Nilin, Jeamylle. 1.10P.15 Oehlers, Valerie. 1.06.2 Osei-Owusu, Albert. 5.08PC.2 Papadopoulou, Eleni. 3.07P.7 Nilsen, Hanne. 3.12P.25 Oellers, Johanna. 4.13.4 Osibona, Adesola. 6.02P.5 Papagiannaki, Dimitra. 3.05P.9 Nilsson, Josefine. 3.05P.14 Oesterheld, Willy. 7.01.5 Oskarsson, Agneta. 3.15.2 Papaioannou, Nafsika. 1.10.4, Oger, Laurent. 2.04.6, 2.09P.6, Osman, Rima. 2.11PC.1 Niu, Zhiyue. 3.12P.29, 3.12P.8, 1.10P.1, 1.11.4 7.04P.2 2.10P.4 Osset, Philippe. 5.04P.9 Parajulee, Abha. 3.24.2 Nizzetto, Luca. 2.05P.11, 4.11P.1, Oguguah, Ngozi. 6.07P.4 Ostbye, Kjartan. 3.21.2 Parajuli, Anirudra. 1.07P.2 4.14.2 Ogungbemi, Afolarin. 1.05P.28 Oster, Sophie. 4.01P.7 Paramonova, Anastasia. 4.04P.17 Njakou-Djomo, Sylvestre. 5.04P.9 Oh, Byung-Chul. 1.05P.27 Osuji, Chigoziri. 3.01P.3 Pardo, Isabel. 3.20P.24 Nkomozepi, Pilani. 1.05P.4 Oikarinen, Sami. 1.07P.2 128 scicon.setac.org Pardon, Patrick. 1.09.3 Perea, Oneka. 1.02P.11 6.02P.3 3.10P.29, 7.02.2, 7.02P.2, 7.02P.4 Parège, Caroline. 3.05P.16 Pereira, Inês Lopes. 1.06P.3 Pilling, Ed. 8.01.6, 8.01.7 Postma, Jaap. 4.02.1, 6.09PC.5 Parelle, Julien. 4.04.3 Pereira, Karyna. 2.06P.5 Pimparel, Ines. 1.10P.6 Poté, John. 3.24.5 Parenti, Camilla Carla. 3.03.8 Pereira, Maria. 1.05P.12, 1.14PC.1, Piña, Benjamin. 1.04P.6, 1.05P.16, Potesil, David. 1.10P.13 Paris, Severine. 1.02.4 3.08P.9 1.06.4, 1.07.1, 3.05.6 Potter, Thomas. 1.15PC.2 Parissis, Nikolaos. 4.02.2 Pereira, Natalia. 1.10P.15, 2.02P.12, Pinelli, Eric. 2.08.10 Poulsen, Rikke. 1.04.1, 1.04P.9, Park, Brad. 1.10P.13 2.04P.5, 2.04P.6, 2.05P.1, 2.08P.2, Pinheiro, Fernanda. 4.01.3 4.06P.2 2.09P.12, 2.10.6, 4.03P.6, 4.11P.4 Park, Changgyun. 1.03P.12 Pinheiro, João Paulo Silva. 4.11.3, Pourchet, Mariane. 3.06.1 Pereira, Rute. 3.08P.1 Park, June Woo. 3.12P.16 4.11P.10 Pouzar, Miloslav. 3.12P.41 Pérès, Guénola. 2.09P.1 Park, Suhyun. 1.05P.14, 1.05P.18 Pinheiro, Lara. 3.03.10, 3.03P.2 Prabhu, Padmaja. 3.10P.3 Pérez, Noemí-Inmaculada. 6.03P.2 Park, Young Joo. 1.05P.27 Pinho, Grasiela. 3.03P.2 Prada-Rodríguez, Darío. 3.12P.32, Perez-Albaladejo, Elisabet. 3.09P.10 Park, Yumi. 1.03P.11 Pini, Martina. 5.01P.1 3.12P.33 Perez-Lopez, Paula. 5.03P.2 Parker, Aaron. 3.14P.3 Piñon, Arturo. 5.05P.7 Pradel, Alice. 3.04P.19 Perez-Novo, Cristina. 3.08P.18 Parkkonen, Jari. 1.05.5 Pinto, Alice. 2.02P.14 Praetorius, Antonia. 3.02.7, 3.02P.1, Perez-Ornosa, Maria Rosario. 3.02P.3 Pärnänen, Katariina. 3.08P.8 Pinto, Fernanda Endringer. 2.03P.1, 2.03P.3 3.05P.22 Praher, Daniela. 1.10P.12 Parnis, J. Mark. 4.21P.4, 6.04P.4 Perez-Rojas, Alberto. 2.01P.10 Pinto, José. 2.09P.13 Prasniewski, Victor. 2.04P.6, Parolini, Marco. 2.06P.1, 3.12.3, Perin, Fabrizio. 4.20P.1 2.05P.1, 2.10.6 3.12P.15, 3.12P.17, 4.09P.15, Pinto, Thandy. 4.11P.6 4.14P.7 Perini, Federico. 4.20P.1 Pioch, Sylvain. 5.04.13 Preda, Davide. 3.05P.7 Parot, Jeremie. 3.04P.18, 3.12.18 Perkins, Alison. 4.09P.21, 4.09P.22, Pipal, Marek. 1.09P.9 Prenzato, Massimiliano. 6.04P.11 4.09P.23 Parra Saldivar, Roberto. 3.14.1 Pires, Sílvia. 2.03P.5 Preuss, Thomas. 1.02P.10, 2.02P.23, Perkins, Matthew. 1.13P.1 2.06.1, 4.06P.10, 4.07.1, 4.07P.13, Parrella, Luisa. 5.02P.15 Piringer, Gerhard. 5.02P.11, 5.05P.3 Peroni, Michela. 3.05P.7 4.07P.15, 4.07P.7, 4.07P.8 Parrotta, Luigi. 2.12PC.1 Pirok, Bob. 3.05P.2 Persico, Maria. 1.05P.8 Prévalet, Solène. 1.02.2 Parsons, Daniel. 3.03P.8 Pirovano, Alessandra. 7.01.1 Pescatore, Tanita. 4.04P.2, 4.20P.3 Pribylova, Petra. 4.05P.3 Parsons, John. 3.17P.6, 3.17P.7, Piscia, Roberta. 3.16P.11 Price, Anna. 1.09P.7 4.10P.6, 6.06.4 Pestana, João. 1.02P.3, 3.12P.13, Pistollato, Francesca. 1.09P.7 3.12P.24, 3.12P.28, 4.16P.5 Price, Elliott James. 3.15P.8 Parz-Gollner, Rosemarie. 3.03P.12 Pistorius, Jens. 2.02.2 Peterek, Silke. 2.02P.2 Prieto, Ailette. 1.08P.3, 3.09.1, Pascariello, Simona. 6.04P.9 Pitarch, Elena. 7.02P.3 Peters, Adam. 3.11.4, 3.20.4, 3.20.5, 3.09P.6, 3.15P.1, 3.15P.5, 7.02P.2 Paschke, Albrecht. 2.05P.2 Pivato, Alberto. 4.20P.4 3.20P.4, 3.20P.5, 3.20P.6, 3.20P.7, Prieto, Elena. 4.16P.3, 4.16P.4 Pascoa, Inês. 1.06.1 Plautz, Stephanie. 6.10P.1 3.20P.8, 3.20P.9, 6.08.1 Primpke, Sebastian. 3.04P.16, Pascual, Juan. 6.10PC.1, 6.10PC.5 Peters, Daniel. 2.04.4, 2.06P.6 Plisson, Bernard. 2.07P.8 3.04P.9 Pasinetti, Eleonora. 3.05P.7 Peters, Greg. 5.04.7, 6.06P.10 Plotzke, Kathleen. 4.03P.3 Proctor, Kathryn. 4.01P.15, 4.09P.9 Pasqualini, Julia. 4.19P.1 Peters, Jens. 5.07P.11 Plugge, Hans. 4.06P.12 Prodana, Marija. 2.10.3 Pasquini, Laure. 3.14.3 Petersen, Karina. 2.01P.8, 2.12P.2, Pocurull, Eva. 7.02.2, 7.02P.2, Pröfrock, Daniel. 3.04.8, 3.23P.5 7.02P.4 Pastorello, Tiziana. 5.08P.2 4.02P.10, 4.02P.11, 4.06P.1, 6.02.3, Proia, Lorenzo. 2.08P.4 Podemski, Cheryl. 1.01.4 Patch, David. 3.11.1 6.02.5, 6.02P.2, 6.04P.8, 7.03PC.3 Pronk, Geertje. 3.05P.15 Pohl, Korinna. 4.13P.4 Paterson, Eileen. 2.01P.11 Petersen-Thiery, Mechtild. 4.18PC.5 Pronk, Tessa. 6.08.3 Poirier, David. 1.04P.10 Patmont, Clay. 6.08.2 Petridis, Ioannis. 1.11.4 Prouteau, Louise. 4.19PC.3 Poirier, Laurence. 3.08.3, 3.08P.6, Patnaude, Michael. 2.02P.5, Petrie, Bruce. 4.01P.15 Provencher, Jennifer. 3.21P.8 4.16PC.2 3.11.3, 3.12.21 Petrik, Leslie. 3.09P.13, 4.09.3 Provenza, Francesca. 4.20P.1 Patrolecco, Luisa. 1.11.1, 4.04P.2, Polakova, Sarka. 3.10P.22 Petrlik, Jindrich. 4.05.2 Prudnikova, Eva. 3.20P.28 4.20P.3 Polazzo, Francesco. 2.05P.13, Petrovic, Mira. 4.15P.1 Prunier, Grégoire. 2.07P.6 Pattanayek, Mala. 1.15P.1 2.05P.7 Pettersson, Anita. 4.20P.2 Pruvost-Couvreur, Manon. 1.11.3 Patterson, David. 3.10.3 Poleksic, Vesna. 3.23P.7 Peuportier, Bruno. 5.03.1 Prygiel, Emilie. 6.08P.5 Pauget, Benjamin. 3.20P.11 Polese, Gianluca. 1.14PC.1 Peyrard, Alice. 5.01P.4 Puccinelli, Camilla. 1.14P.2, Paula, Angélica. 4.11P.9 Polesel, Fabio. 3.05.1 Pezzutto, Denise. 4.15P.3 1.14PC.3 Paulillo, Andrea. 5.01.4 Polesello, Stefano. 3.15P.6, Pfaffl, Michael. 3.12P.18 Puhakka, Riikka. 1.07P.2 Paulus, Martin. 2.05.6 3.16P.11, 6.04.1, 6.04P.11, 6.04P.12, Pfister, Stephan. 5.01.3, 5.04P.14 6.04P.9 Pujol, Albert. 3.14P.5 Paumelle, Martin. 2.08.1 Pflanz, Daniela. 3.03P.21 Pollard, Simon. 1.03P.8 Pukalski, Jan. 2.02P.7 Paus-Knudsen, Julie. 2.02P.21 Phan, Trina. 6.04P.2 Pollesch, Nathan. 2.06P.7, 4.06.4, Pulido-Reyes, Gerardo. 3.12.19 Pavez, Eduardo. 2.13P.2 Philibert, Danielle. 1.08.2 4.07P.12 Pusceddu, Fábio. 4.09P.6, 4.09P.8 Pavlaki, Maria. 1.05P.15, 1.05P.23 Philippe, Allan. 4.08P.13 Pollitt, Annika. 2.08P.6 Puska, Reetta. 3.02P.7 Pawlowski, Sascha. 3.17.4, 3.17P.9, Phuong, Nam. 3.12.21 Polst, Bastian. 2.01.3 Putna, Ieva. 3.05P.14 4.18PC.5 Picado Pavón, Francisco. 3.11P.9 Polubesova, Tamara. 3.16.3 Puvanendran, Velmurugu. 3.12P.30 Peano, Laura. 5.06.2 Picard, Christian. 2.01P.15, 4.16PC.2 Polukarova, Maria. 3.22P.4 Puy, Jaume. 3.11.8, 3.11P.1, 3.18.1, Pechacek, Nathan. 1.15P.1 Piccini, Benjamin. 1.09.3 Polverino, Giovanni. 2.11P.1 3.18P.3 Peck, Lloyd. 3.21.4 Piccinini, Flavia. 1.11.1 Pons, Marie-Laure. 3.11.10 Pyke, James. 3.14PC.2 Pedersen, Kathrine. 4.02P.1 Pickford, Daniel. 1.03P.2, 1.09P.7 Pontes, João. 2.06P.4 Peeters, Edwin. 2.05P.10 Pico, Yolanda. 2.12P.5, 3.09P.11, Ponti, Jessica. 3.04P.18, 3.12.18 Pegg, Josephine. 6.11P.1 3.10P.25, 3.12.7, 3.12P.2, 3.16P.20, Poot, Anton. 3.10.1 Q Pegoraro, Cesar. 3.19P.4 4.01P.9, 7.02.2, 7.02P.2, 7.02P.4 Poppa, Lucia. 4.04P.6 Peijnenburg, Willie. 3.12.11, 4.08.3, Piechota, Sam. 7.01.2 Qing, Hua. 1.05P.9 Porcher, Jean Marc. 1.05.6 4.08.4, 5.02.13, 7.01P.3 Piechotta, Christian. 3.05P.16, Quambusch, Anja. 2.02P.5 Porte, Cinta. 1.06.3, 1.06P.2, Peither, Armin. 2.01.2 3.05P.3 3.09P.10 QUEAU, Hervé. 4.01P.5 Peixoto, Sara. 2.10P.5 Pieper, Silvia. 2.10.1, 4.13.1 Porter, Terri. 2.04.2, 2.06P.6 Quik, Joris. 3.02.4, 3.02P.2, 4.08.4 Pelosi, Celine. 2.09P.15 Pierdet, Manon. 3.18.4 Portier, Julien. 2.13P.5 Quilty, Brid. 4.10P.7 Peltola-Thies, Johanna. 6.04.4 Pietrini, Ilaria. 4.04P.6 Portmann, Andrea. 3.24P.2 Quiñones, Luis. 3.11P.5 Pelz, Oliver. 1.08P.5 Pietz, Sebastian. 2.07.2 Pörtner, Hans-Otto. 1.04.4 Quiñones, Renato. 2.08.2 Peña, Nancy. 5.05.1 Piffady, Jérémy. 2.05.3, 2.05P.3 Posada, Rosa. 4.04P.10, 4.04P.8 Quintana, José Benito. 1.01.3, Peñalver Alcalá, Antonio. 2.10P.7 Piggott, Jeremy. 2.05.2 3.03P.6, 7.02.2, 7.02P.2, 7.02P.4 Posselt, Malte. 3.24P.2 Pepper, Tim. 3.10P.7, 3.10P.8 Pihlaja, Tea. 1.03P.4 Quintaneiro, Carla. 2.10P.2 Posthuma, Leo. 3.16P.21, 4.02.1, Peräniemi, Sirpa. 3.22.4 Pikuda, Oluwadamilola. 3.12.12, 4.07P.16, 6.09PC.5 Quinteiro, Paula. 5.07P.10, Perceval, Olivier. 3.18.2 3.12P.3 5.07P.12, 5.07P.3 Postigo, Cristina. 3.09P.10, 3.09P.4, Pillet, Marion. 3.23.1, 3.23P.7, SETAC Europe 30th Annual Meeting - SETAC SciCon 129 Quirici, Verónica. 2.13P.2 Reinwald, Hannes. 1.12.1 Robinson, Nik. 6.06.3 Roslund, Marja. 1.07P.2 Reis, Filipa. 2.10.2 Robinson, Paige. 1.04.11, 1.04P.4 Ross, Cynthia. 4.18PC.3 Reiter, Alena. 2.02P.18 Robuck, Anna. 3.18P.6, 6.04.2 Ross-Nickoll, Martina. 4.07P.10 R Reiter, John. 4.15P.6 Rocchia, Massimiliano. 3.03P.5 Rossato, Marzia. 1.14P.1 Rembotte, Léon. 5.04P.3 Rocha, Alexandre. 1.05P.22 Rossbach, Andrea. 6.10P.9, Rab, Gerhard. 2.09P.9 Remec Rekar, Špela. 6.03P.1 Rocha, Carolina. 2.07P.1, 2.07P.4 6.10PC.2 Rabelo Costa, Bruno Rafael. 4.12.1 Remuzat, Pauline. 1.03P.15 Rocha, Cláudia. 6.05P.3 Roth, Juliane. 4.15P.6 Raber, Georg. 3.11.6, 3.11P.3 Renaud, Jean Mathieu. 2.10.2 Rocha, Eduardo. 1.05P.29, 1.06P.3, Roth, Sabrina. 4.02P.4 Radermacher, Georg. 3.11P.4, Renaud-Gentié, Christel. 5.05.1 1.09P.8, 4.02P.9, 4.05P.8 Rother, Alica. 4.08P.16 3.19.3 Renault, David. 1.01.2 Rocha, Filipe. 3.19P.8 Rothman, Rachael. 5.02P.13, Radu, Elena. 2.09P.9 Rendón-von Osten, Jaime. 2.03P.5 Rocha, Maria. 4.02P.9, 4.05P.8 5.02P.16 Rafajova, Aneta. 1.09P.9 Renko, Kostja. 1.09P.7 Rocha, Maria João. 1.05P.29 Rotrekl, Vladimir. 1.10P.10 Ragaert, Kim. 5.07.1 Renzi, Monia. 4.20P.1 Rocha, Rui. 1.02P.3, 2.03P.5, Rotz, Alan. 5.05P.6 Ragas, Ad. 3.16P.21, 3.21P.2, Reppas- Chrysovitsinos, Efstathios. 3.12P.23 Rouane-Hacene, Omar. 6.02P.4 4.01P.1, 6.09PC.5 3.21P.1 Roche, Pascal. 2.13P.5 Rouboa, Abel. 5.02P.10 Raimondo, Sandy. 2.06P.7, 4.06.4, Resseler, Herbert. 3.10P.24 Rocher, Béatrice. 1.02.4, 1.02P.2 Roux, Charlotte. 5.04P.9 4.07P.12, 4.12P.1 Restivo, Victoria. 2.08P.1 Rodgers, Essie. 3.23P.7 Roux, Philippe. 5.04.9, 5.05.1, 5.05.5 Raisanen, Riikka. 4.17P.4, 4.17PC.1, Rodgers, Karen. 3.03P.8 Rowenczyk, Laura. 3.12.5 4.17PC.2 Rey-Castro, Carlos. 3.11.8, 3.11P.2, 3.18.1, 3.18P.3 Rodil, Rosario. 1.01.3, 3.03P.6, Rowles, Bob. 6.06.3 Raithatha, Arun. 3.10P.3 Reyes, Marcela. 6.05P.3 7.02.2, 7.02P.2, 7.02P.4 Roy, Rajdeep. 6.05P.4 Rajaniemi, Juho. 1.07P.2 Reyes Herrera, Juan. 3.12P.20 Rodrigo Sanz, Marta. 3.18.2 Roy Chowdhury, Riju. 1.10P.10 Rajkovic, Andreja. 4.01P.6 Reynaud, Stéphanie. 3.04P.19 Rodrigues, Andreia. 1.02P.3, Rozmankova, Eliska. 1.02.3 Rakel, Kim. 4.07P.13 Ribas de Oliveira, Cintia Mara. 2.03P.5, 3.12P.23, 4.16P.5 Ruberg, Elizabeth. 1.13P.6 Rama, Manuel. 5.03P.1 2.05P.1 Rodrigues, Caio. 4.09P.8 Rucic, Enrico. 3.13P.4 Ramirez, Noelia. 1.05.4 Ribbe, Kirsten. 3.25P.1, 6.06P.6 Rodrigues, Mariana. 2.07P.1, Rudakova, Olga. 1.14P.7 Ramo, Juan J. 3.09P.11 2.07P.4, 3.04P.7 Ribbenstedt, Anton. 1.15PC.1 Rueda-Cediel, Pamela. 4.07P.12, Ramos, Ana. 5.02P.10 Ribeiro, Beatriz. 4.02P.9, 4.05P.8 Rodrigues da Silva Jr, Flavio. 2.09P.7 4.12P.1 Ramos, Cintia Irene. 3.20P.26 Ribeiro, Rui. 2.04P.12, 2.06.5, Rodríguez, José Germán. 3.18P.1 Ruedel, Heinz. 2.13P.1, 2.13P.6, Ramos, Jaime. 1.13P.4, 2.07P.3 2.06P.4 Rodriguez, Pilar. 3.20P.24 3.11P.4, 3.14P.1, 3.19.3, 3.20P.2, Ramos, Raul. 6.05P.5 Ribeiro, Sara. 2.07P.4 Rodríguez Fernández-Alba, 3.20P.3, 4.03.4 Ranneklev, Sissel. 6.04P.8 Ribeiro de Oliveira, Mariana Ieda. Amadeo. 2.02P.14 Rüegg, Joelle. 1.05.1 Rapp Wright, Helena. 3.14.1, 5.02.9 Rodriguez Sanchez, Neus. 2.02P.4 Ruf, Daniel. 2.02P.26 3.16P.13, 3.16P.2 Ricci, Marina. 3.07P.3, 3.07P.6 Rodriguez-Estival, Jaime. 2.05P.9 Ruivo, Raquel. 1.01.3, 1.06.1 Rappé, Karen. 7.04P.2 Rice, Jack. 4.01P.15 Rodriguez-Mozaz, Sara. 3.12.16, Rumkee, Jack. 4.07.7 Rashash, Diana. 3.09P.1 Richardson, Alexandra. 3.09P.14 4.15P.1 Rumohr, Quintana. 4.13.4 Raskovic, Bozidar. 3.23P.7 Richardson, Jane. 8.03.8 Rodriguez-Orozco, Victor. 4.04P.7 Rundlöf, Maj. 6.01.3 Rasmussen, Lasse. 3.12.2 Richardson, Katherine. 5.04.6 Rodriguez-Sanchez, Pablo. 2.11PC.1 Rünzler, Dominik. 1.10P.12 Rathke, Anne-Kathrin. 2.02P.5 Richarz, Andrea. 4.06.1 Roeben, Vanessa. 4.07P.13, 4.13.3 Ruppert, Katharina. 6.09P.5 Raths, Johannes. 3.05P.22 Richter, Steffen. 4.15P.6 Roelofs, Dick. 1.10.1, 2.10P.2 Rusconi, Michele. 3.15P.6 Ratier, Aude. 3.02P.13, 3.02P.18 Rickwood, Carrie. 3.23.3, 6.08P.7 Roessink, Ivo. 2.02P.14, 2.02P.23, Russ, Anja. 2.01P.13 2.02P.5, 2.05P.4, 4.07.4, 4.19PC.2, Ratola, Nuno. 3.19P.11, 3.19P.13, Rico, Andreu. 2.05P.13, 2.05P.7, Russell, Paul. 1.12.4, 7.01.2 3.19P.6, 3.19P.7 6.08P.3 3.03.4, 3.09P.6, 3.22P.6, 4.11P.1, Russo, Francesca. 6.04P.12 Ratte, Monika. 2.01.1 Roex, Erwin. 3.16P.21 4.14.2, 4.19P.1, 7.02.2, 7.02P.2, Russo, Tania. 1.14PC.1 Rauert, Caren. 4.03.4, 4.03P.1, 7.02P.4, 7.03PC.1 Rojas Conejo, Johanna. 3.11P.9 Rutere, Cyrus. 3.24P.2 4.18P.1, 6.05P.8 Rideau, Pierre. 2.07P.8 Rolando, Ludovica. 1.11.1, 4.04.5, Rutledge, Kenton. 6.08P.7 Rausch, Juanita. 3.22P.5 Rideout, Natalie. 2.04.2 4.04P.2, 4.04P.3, 4.20P.3 Rutsch, Moreno. 3.09.2 Rauseo, Jasmin. 1.11.1, 4.04P.2, Rieder, Jessica. 1.09.1 Romão, João. 2.07P.1 4.20P.3 Romão, Silvia. 4.11P.4 Ruus, Anders. 1.13.1, 2.03.2, Riem, Louna. 3.04P.4 4.02P.10, 4.02P.11, 6.02P.2 Rautenbach, Christo. 4.09.3 Römbke, Jörg. 2.10.1, 4.11.1, 4.13.1 Riera, Maria Rosa. 5.02P.9, 5.07P.8 Ruwona, Tinashe. 6.06P.8 Ravagnan, Elisa. 4.07.5, 4.07P.5 Romeis, Joerg. 8.03.4 Rigal, François. 2.08.5 Ryan, James. 4.09.2, 4.09P.16, Rawlings, Jane. 4.10.1 Romero, Ferran. 3.12.16 Rigamonti, Lucia. 5.07.1 4.09P.4, 4.09PC.1 Raymond, Caroline. 3.21P.6 Romero Diez, Sandra. 6.09P.7 Rigato, Jacopo. 3.15P.6 Ryan, Jim. 4.09P.22 Razin, Martine. 2.13PC.4 Romi, Marco. 2.09P.5, 2.12PC.1 Righi, Serena. 5.02P.5 Ryberg, Morten. 5.04.6, 5.04.7, Read, Daniel. 2.10P.5, 3.04.1 Rimauro, Juri. 3.20P.21 Rönnefahrt, Ines. 3.08P.14 5.06P.2 Rechsteiner, Daniela. 3.24.1 Rimmington, Oliver. 2.09.1 Rooney, Philip. 4.09.4 Rydberg, Tomas. 5.04.4, 5.04P.1 Redman, Aaron. 1.16P.2, 3.17.2, Rinck-Pfeiffer, Dr Stéphanie. Roos, Sandra. 5.04.7 Rysä, Jaana. 4.17PC.2 3.17.4, 3.17P.2, 3.17P.3, 3.17P.4, 3.05P.15 Rorije, Emiel. 1.05P.26, 7.01P.3 Ryu, Chang Seon. 1.03P.11, 3.17P.6, 3.17P.7, 3.17P.8, 3.17P.9, Rinderknecht, Maximilian. 1.09P.3 Rortais, Agnès. 4.05P.1 1.03P.12 6.06.4 Rios Miguel, Ana. 4.01P.1 Roß-Nickoll, Martina. 2.02P.18, Redshaw, Carl. 3.03P.8 Risalde, Maria Angeles. 2.03P.3 2.04P.4, 4.13.4, 4.14P.1, 4.14P.5 Reemtsma, Thorsten. 1.05.8, Rosa, Silvia. 1.11.1 2.05P.2, 3.04P.10, 3.16.3, 3.22.2 Riße, Henry. 4.15P.6 S Rosado-Sanz, Antonio. 3.04P.12 Refseth, Gro. 4.07.5 Risso, Wagner. 4.11P.9 Rosal, Charlita. 3.05.4 Sá, Heloísa. 3.19P.11 Regan, Fiona. 3.14.1, 3.16P.1, Rivarola-Duarte, Lorena. 1.04.4 Rosales, Harold. 3.18P.5 Saadé-Sbeih, Myriam. 5.04P.9 3.16P.13, 3.16P.2, 3.18.2, 3.18P.2 Rivetti, Claudia. 1.12.4, 2.04P.8 Rosales, Kevin. 3.11P.1 Saaristo, Minna. 2.11P.1 Regimbald, Lyette. 4.19PC.3 Rivière, Gilles. 1.11.3 Roscioli, Claudio. 3.15P.6, 4.04.1 Saarloos, Aafke. 4.14P.3 REGNAUT, Lucas. 3.06.4 Rixrath, Doris. 5.02P.11 Rose, Jerome. 3.11.10, 3.20P.17 Sabatier, Pierre. 3.05.5 Reichenberger, Stefan. 3.10P.1, Rizzuto, Simone. 2.05P.11 3.10P.14, 3.10P.24, 4.07P.9 Roberst, Gareth. 2.09P.10 Rosen, Gunther. 1.08P.6 Sabbah, Isam. 3.08.5 Reilly, Katie. 1.14P.5, 3.03P.18 Roberts, Jayne. 7.01P.2 Rosende, Maria. 7.02P.4 Sabia, Taryn. 6.07P.3 Reinardy, Helena. 1.08P.4 Robichaud, François. 5.02P.19 Rosenfeldt, Ricki. 2.07.3, 4.17P.2, Sabóia-Morais, Simone. 4.11P.13 6.05P.1 Reinelt, Lukas. 2.11PC.2 Robichaux, Estelle. K4 Sacco, Olga. 4.01P.2 Rosi-Marshall, Emma. 2.07.4 Reiner, Eric. 1.04P.10 Robinson, Alex. 1.10P.8, 2.02P.25, Sachkova, Anna. 4.08.1, 4.08P.6 Rosin, Silvia. 6.04P.12 Reinhard, Juergen. 5.01.1 2.09.1, 4.02P.5, 4.08P.4 Sacker, Dominic. 2.01P.2 Roslev, Peter. 3.03P.20, 3.05P.9 Reinken, Gerald. 3.10.4, 3.10P.10 Robinson, Craig. 3.18.2 Sadhasivam, Giji. 3.05P.12
130 scicon.setac.org Sadler, Jon. 3.03P.18 Santos, Lúcia. 3.12.16 3.16P.9, 3.23P.3 Schreiner, Verena. 2.05P.2 Sadowski, Jan. 4.12P.3 Santos, Margarida. 3.18.2 Schiesari, Luis. 4.11P.6, 4.11P.7, Schreitmüller, Jörn. 2.01.2, 4.16PC.1 Sadutto, Daniele. 3.10P.25, Santos, Mariana. 1.02.1 4.11P.8 Schriever, Carola. 3.10.2 3.16P.20, 4.01P.9 Santos, Miguel. 1.01.3, 1.06.1 Schifferli, Andrea. 3.05P.19 Schriks, Merijn. 3.15P.2 Safi, Carl. 2.12P.3 Santos, Niedja. 1.05P.12, 1.05P.22, Schimera, Agnes. 2.09P.6, 2.10P.4, Schröder, Nicola. 3.10P.5, 3.25P.3, Sahlin, Ullrika. 4.06.3, 6.01.3 3.08P.9 4.11P.16 6.05P.8 Saini, Amandeep. 3.13.2, 3.19P.4 Santos, Raphaël. 1.03P.7 Schimmelpfennig, Heike. 3.02.2 Schröder, Tom. 3.24P.9 Sainio, Erika. 3.22.4 Santos, Wanderson. 4.11P.12, Schintu, Marco. 3.18.2 Schuer, Christoph. 3.12.14 Sakaguchi-Soeder, Kaori. 3.12P.39 4.11P.13 Schirinzi, Gabriella. 3.03P.22, Schug, Hannah. 1.16PC.3 Sakugawa, Hiroshi. 3.02P.15 Santos Costa, Matheus. 4.11P.12 3.04P.2 Schuijt, Lara. 2.05P.4, 2.11PC.1 Sakurai, Maki. 1.09.1 Sanye-Mengual, Esther. 5.04.10, Schirmer, Kristin. 1.03.9, 1.05.3, Schulte, Anna. 5.02P.17 1.16PC.3, 2.08P.5, 4.01P.4, 4.03.5, Sakurai, Takeo. 3.19P.10 5.04P.16, 5.06.3 Schulte, Christoph. 3.13P.4 4.03P.12, 4.03P.7, 4.08P.11 Sala, Alberto. 3.15P.6, 4.04.1 Sanz, Claudia. 3.05.6 Schultz, Carolin. 2.09.1 Schirone, Antonio. 3.20P.21 Sala, Serenella. 5.03.3, 5.04.10, Sapounidou, Maria. 7.01P.2 Schultz, Terry. 4.06.1 Schittl, Florian. 5.02P.11 5.04.7, 5.04P.16, 5.06.3 Sapozhnikova, Yelena. 3.16.1 Schulz, Isabelle. 6.02.2 Schiwy, Andreas. 1.05.2, 1.10P.7, Salač, Jan. 3.10P.26 Saramito, Gaëlle. 1.04.8 1.16P.3 Schulz, Lennart. 4.13P.1 Salaverria, Iurgi. 3.12P.38 Sardina, Paula. 3.16P.10 Schiwy, Sabrina. 3.08P.12, 4.01P.7, Schulz, Ralf. 2.07.3, 2.08.3, 4.09P.2, Sarigiannis, Denis. 1.10.2 Salbu, Brit. 1.02P.6, 2.01P.7, 4.15P.6 6.05P.4 2.01P.8, 3.23P.4 Sarigiannis, Dimosthenis. 1.10P.1, Schlaeppi, Klaus. 3.23.4 Schulz, Tobias. 2.05P.2 Saldanha, Erika. 4.11P.8 1.11.4 Schlechtriem, Christian. 3.16.6, Schulz-Bull, Detlef. 3.16.4, 3.16P.3 Sarkis, Noelle. 2.05.3, 2.05P.3 Salerno, Franco. 4.04.1 4.03.4, 4.03P.1, 4.03P.2, 4.18P.1, Schulze, Tobias. 3.24.3, 4.05.1 Salgueiro-Gonzalez, Noelia. 2.06P.1 Sarno, Antonio. 1.05P.20 6.05P.7, 6.05P.8 Schupp, Peter. 4.18PC.5 Salinas, Gabriela. 1.12.1 Sarret, Geraldine. 3.12P.20 Schlegel, Katharina. 5.06.6 Schuster, Hanna. 4.06P.13 Salinier, Benoît. 1.03P.2 Sartoris, Franz Josef. 1.04.4 Schlekat, Christian. 3.11.4, 3.20.4, Schuster, Jasmin. 3.19P.4 Saliou, Florian. 1.05.9 Satzger, Anna. 3.04.2 3.20.5, 3.20.6, 3.20P.5, 3.20P.7, Schüth, Christoph. 3.16P.18 6.08.1 Sallach, Jonathan. 2.12PC.3, Saunders, David. 3.17.2, 3.17P.2, Schuwirth, Nele. 2.08P.5 3.17P.3, 3.17P.4, 4.21P.1, 6.06P.3 Schlenk, Daniel. 1.07P.1, 1.11P.3, 3.08P.15, 4.10P.1, 7.03P.4 Schwaferts, Christian. 3.04P.1, 2.08.9, 3.01.2, 3.09P.13, 4.09.3 Salter, Matthew. 3.16P.12 Sauve, Marie-Claude. 6.05.2 3.04P.14, 3.04P.15 Schlichting, Rita. 3.24.3, 3.24P.8 Salvado, Victoria. 3.11P.1 Savino, Ilaria. 3.12P.35 Schwalbe, John. 2.01P.15 Schmehl, Daniel. 4.16PC.2 Sambrook Smith, Gregory. 3.03P.3, Savuca, Alexandra. 3.12P.12 Schweiger, Nicole. 1.05.8 Schmid, Simone. 3.02P.8 3.12P.22 Savva, Katerina. 3.04P.2 Schweizer, Mona. 1.05P.10 Schmidt, Jordan. 1.05P.9 Samel, Alan. 6.11P.4 Sawal, George. 3.13P.3 Schwientek, Marc. 3.24P.6, 3.24P.8 Schmidt, Katharina. 2.02P.13 Sampaio, Silvio. 2.10.6 Scagnetti Goyarzu, Carla. 5.06P.5 Schwirn, Kathrin. 6.05P.8 Schmidt, Kathrina. 2.02.3 Samson, Rejean. 3.12.22 Scalbi, Simona. 5.02P.5 Schymanski, Emma. 1.05.4, 3.15.1, Samson, Roxana. 3.21P.1, 4.21P.5 Scalici, Massimiliano. 1.14PC.2 Schmidt, Stefanie. 3.16P.18, 3.16P.9 3.15P.3 Sanchez, Elena. 4.04P.3 Scana, Fabio. 3.05.1 Schmidt, Thomas. 2.02P.1, 4.06P.9, Schøyen, Merete. 1.01.1 4.09P.18, 4.13P.3 Sánchez Morgado, José. 1.03.4 Scarpellini, Simone. 5.01P.1 Schönborn, Andreas. 4.05P.5 Schmitt, Markus. 3.09P.8 Sanchez Romero, Carlos. 3.16P.19 Schaanning, Morten Thorne. Scippo, Marie-Louise. 3.08P.10 Schmitt, Melanie. 3.14P.7 Sanchez Vidal, Anna. 3.04P.2 3.21P.5, 3.21P.6, 3.23P.2 Scircle, Austin. 3.04P.5 Schmitt, Tobias. 3.12P.40 Sanchez-Barbudo, Ines. 2.13PC.2, Schad, Thorsten. 3.10P.11, Scoccimarro, Enrico. 1.14PC.3 3.10P.13, 4.07.9, 4.07P.15 Schmitt-Jansen, Mechthild. 2.01.3 2.13PC.3 Scott-Fordsmand, Janeck. 2.09.2 Schaefer, Dieter. 3.02P.5, 3.10.3, Schmitt-Kopplin, Philippe. 3.09P.4 Sanchez-Canales, Maria. 5.02P.4 Scotti, Roberto. 5.02P.8 4.07P.13 Schmitz, Markus. 3.08P.12, 4.15P.6 Sanchez-Hernández, Pedro. Scrimshaw, Mark. 1.14P.1 3.04P.12 Schaefer, Ralf Bernhard. 2.05.1, Schmitz-Afonso, Isabelle. 2.08.5 3.24.3 Sculthorpe, Toby. 3.04P.21 Sànchez-Melsió, Alexandre. 4.15P.1 Schmolke, Amelie. 4.07P.12, 4.12.2, Seailles, Romain. 5.03P.2 Sánchez-Rodas, Daniel. 3.11P.5 Schaefers, Christoph. 1.05.11, 4.12P.1 1.12.1 Sebire, Marion. 1.09.1 Sánchez-Soberón, Francisco. Schneeweiss, Anke. 2.05P.2 Schaeffer, Andreas. 1.16P.3, Secco, Deonir. 4.03P.6 3.19P.13, 3.19P.6 Schneider, Christof. 2.02P.5 2.02P.18, 3.17P.6, 3.17P.7, 3.25P.2, Seco, José. 2.07.7 Sancho, Juan V. 3.15.2, 3.15P.3 Schneider, David. 1.10P.13 4.04P.4, 4.07P.10, 4.13.4, 4.15P.6, Sedlacek, Petr. 3.10P.6 Sandblom, Anton. 4.02P.2 6.06.4 Schneider, Manuel. 3.24.1 Segelle, Steffie. 3.10P.30 Sanden, Monica. 3.04P.17 Schäfer, Jörg. 3.16P.17, 3.20.9 Schneider, Markus. 3.10P.24 Segner, Helmut. 1.09.1, 4.03.5, Sanders, Gordon. 3.17.4 Schneider, Philipp. 4.09P.2 Schäfer, Ralf. 4.13.3 4.03P.12, 4.03P.7 Sanderson, Hans. 4.10.1, 4.10.2, Schnepf, Andrea. 3.10P.18 Schäffer, Andreas. 3.05P.10, 3.18P.7 Seidel, Erika. 2.09P.3, 6.09PC.4 4.10P.2, 4.10P.3, 4.10P.8 Schnurr, Alexander. 2.02P.5 Schapaugh, Adam. 6.10P.1 Seidel, Michael. 3.04P.1 Sanderson, Marta. 6.03.1 Schnurr, Jacob. 2.08.3 Schaper, Jonas. 3.24P.2, 3.24P.4 Seidensticker, Sven. 3.03.6 Sandin, Gustav. 5.04.7 Schoenenberger, Rene. 4.03.5 Schaufelberger, Sonja. 3.09P.2 Seiler, Thomas-Benjamin. 1.03P.10, Sandoval, Chris. 3.11P.5 Schaumann, Gabrielle. 3.16.6, Schoenmakers, Peter. 3.05P.2 1.05P.21, 1.08P.3, 4.14P.1, 4.14P.5, Sangion, Alessandro. 3.02.1, 4.03.3, 4.14.1 Schollee, Jennifer. 3.09.2 6.07P.4, 6.07P.6, 8.03.3 4.03P.10, 4.03P.9 Schebek, Liselotte. 3.12P.39, Scholz, Stefan. 1.05.8, 1.05P.28, Seitz, Frank. 2.07.3, 4.17P.2, 6.05P.1 Sáňka, Ondřej. 4.05P.3 5.02.12 1.10P.5, 7.01.5 Seiwert, Bettina. 1.05.8, 3.16.3, Sans-Duñó, Jordi. 3.11P.1, 3.18P.3 Scheibener, Shane. 3.23P.4 Scholz, Ulrike. 3.03P.21 3.22.2 Santagata, Remo. 5.02.9 Scheid, Christian. 3.12.1 Scholz-Boettcher, Barbara. 3.04.10, Selck, Henriette. 2.07.6, 3.03P.17, Santamaria, Arrate. 3.15P.1 Scheidegger, Andreas. 3.14P.6 3.04.4 4.09P.5 Santana, Lígia. 6.05P.3 Schell, Theresa. 3.03.4, 3.22P.6, Scholz-Starke, Bjoern. 4.13.1, Selja, Valentina. 1.05P.21 Santás-Miguel, Vanesa. 2.08P.12 4.14.2 4.13P.4 Sellin Jeffries, Marlo. 4.01P.4 Santiago, Beatriz. 5.07P.9 Scherbak, Nikolai. 1.05.1 Scholze, Martin. 1.09.4, 4.02.2 Selonen, Salla. 4.02P.8, 4.14.4 Santiago, Sergio. 4.02.4 Scherer, Laura. 5.04P.14 Schonemann, Alexandre. 1.05P.13 Semenzin, Elena. 3.02P.16, Santiago-Moreno, Julián. 2.03P.1, Scheringer, Martin. 3.17.1, 6.04.5, Schönheit, Jürgen. 3.12P.25 3.20P.16, 5.08P.2 2.03P.3 6.06.1 Schoonen, Willem. 1.05P.26 Semiletov, Igor. 3.21P.7 Santillán-Saldivar, Jair. 5.07P.5 Scheurer, Marco. 3.08.4 Schoonjans, Reinhilde. 4.08.4, Sendra, Marta. 2.08P.13 Santoro, Orlando. 3.03P.8 Schiavo, Simona. 3.12.9, 3.20P.21, 4.08P.17 Seo, Jihyun. 1.05P.5 Santos, Catia. 1.05P.15 5.02P.15 Schor, Jana. 4.05P.2, 7.01.3 Serchi, Tommaso. 3.20P.15 Santos, Eduarda. 1.04P.4 Schiavon, Alfredo. 4.04.1, 6.08P.2 Schrader, Steffi. 2.05P.2 Serôdio, João. 6.05P.3 Santos, Joana. 4.08P.7, 4.14P.6 Schiedek, Thomas. 3.16P.18, Schreiber, Stephan. 1.04.4 Serra, Helene. 6.01.3
SETAC Europe 30th Annual Meeting - SETAC SciCon 131 Serratosa, Francesc. 7.01P.4 Sinclair, Chris. 4.09.4 Song, You. 1.02P.6, 1.04.2, 1.10.3, 4.06P.1, 7.03PC.3 Serre, Jeanne. 5.01P.4 Sinclair, Tom. 2.05P.5, 4.02P.7 2.01P.6, 2.01P.7, 2.01P.8, 2.12P.2, Stenzler, Jan. 3.14P.2 Sesin, Verena. 2.01P.9 Singer, Alexander. 4.07P.2, 4.12.2 3.23P.4, 4.05P.6, 6.02.5 Stepinski, Sabine. 2.11PC.2 Seston, Rita. 3.19P.9 Singer, Heinz. 4.02.4 Sonnemann, Guido. 3.26P.1, 5.04.3, Šter, Tadeja. 6.03P.1 5.04P.2, 5.07.4, 5.07P.5 Setälä, Outi. 3.22.4 Sinkkonen, Aki. 1.07P.2 Stern, Jeff. 6.08.2 Sopko, Xiaoyi. 6.10P.1 Ševců, Alena. 3.12P.41, 4.04P.12, Sittig, Stephan. 3.10P.1 Steubing, Bernhard. 5.02.2, 5.02P.2, Sorais, Manon. 2.03.1 4.08P.3 Skancke, Jørgen. 6.02P.7 5.03.4 Sorvari, Jouni. 3.22P.7 Sewell, Fiona. 1.03.2 Skipperud, Lindis. 4.02P.12 Stewart, Kenneth. 3.04P.21 Sosa Hernandez, Juan Eduardo. Sfez, Sophie. 5.07.1 Skjolding, Lars. 2.01P.1 Stibany, Felix. 1.16P.3, 3.18P.7, 3.14.1 Sha, Bo. 3.16P.12 Skorek-Osikowska, Anna. 5.02P.3 4.13P.4 Soto, Manu. 4.04.6 Shapiro, Orr. 3.05P.12 Skottene, Elise. 1.06.5, 1.06P.1, Stibor, Herwig. 2.01.3 Soto, Manuel. 1.02P.11, 1.02P.4, Sharkey, Martin. 6.06P.7 1.08P.1, 2.06P.2 Stiernström, Sara. 4.20P.2 3.16P.17 Sharma, Ashok. 3.25P.4 Skoulikidis, Nikolaos Th.. 4.18PC.1 Still, Ian. 6.06.3 Souchon, Yves. 2.05.3, 2.05P.3 Sharples, Amanda. 2.09P.6, 2.10P.4 Skowron, Ewa. 1.15PC.3 Stoczynski, Lauren. 1.03P.16 Soufan, Othman. 1.10P.13, 1.12P.1 Shashoua, Yvonne. 3.04P.21, Skowron, Michal. 6.06.2 Stoddart, Gilly. 1.03.5 Soukka, Risto. 5.03P.3 7.04P.1 Skulcova, Lucia. 3.10P.22, 3.10P.27 Stoker, Tammy. 1.09P.7 Sousa, Filipa. 1.05P.22 Shatilina, Zhanna. 1.04.4 Slaby, Sylvain. 3.14.3, 3.24P.1 Stoll, Dwight. 1.06.4 Sousa, José Paulo. 2.09.5, 2.10.2, Shea, Damian. 3.09P.1 Stone, Vicki. 1.05.7 Slaveykova, Vera. 1.12.2 4.13.1, 4.13.2, 4.13P.5 Shemotyuk, Lidiya. 4.13P.1 Storck, Tamiris. 4.01P.12 Slencu, Bogdan. 3.05P.4 Sousa, Jose Paulo. 4.11.1 Shen, Hua. 4.21P.1 Stork, Andreas. 3.06P.4 Slobodnik, Jaroslav. 2.13P.1, Sousa-Moura, Diego. 4.17P.1 Shenkar, Noa. 4.09.1 2.13P.6, 4.05P.6 Stout, Jane. 2.02.4, 2.02P.15, South, Josie. 6.11P.1 Shenker, Moshe. 2.12PC.2 Slodek wahlstrom, Justyna. 4.08.4, 2.02P.17 Souza, Gabriela. 4.11.2 Sheppard, Kevin. 3.04P.21 4.08P.17 Strand, Jakob. 3.04P.8, 7.04P.1 Souza, Lorena. 4.09P.6, 4.09P.8 Sherborne, Neil. 4.07.2 Sloman, Kath. 4.02.5 Stratemann, Lucas. 2.04P.4 Souza, Mariana. 4.09P.6, 4.09P.8 Sheridan, Kyle. 2.02.5 Slootmaekers, Bart. 3.23.1, 3.23.2 Strauss, Peter. 2.09P.9 Sovadinova, Iva. 1.10P.10, 1.10P.11, Slootweg, Jaap. 3.02P.2, 4.02.1 Strauss, Tido. 6.11P.3 Sherry, James. 1.04P.10 1.10P.9 Slotsbo, Stine. 2.10P.1 Streletskii, Rostislav. 2.10.5 Shokralla, Shadi. 2.06P.6 Sowa, Christopher. 3.14P.2 Smart, Alyssa. 5.04.14 Strijakova, Elena. 3.01.4, 4.15P.5 Shomroni, Orr. 1.12.1 Sowa, Grzegorz. 2.02.1 Smatana, Stanislav. 1.05P.8 Striolo, Alberto. 5.01.4 Shore, Richard. 1.13P.2, 2.13P.1, Sowig, Peter. 4.06P.10 2.13P.6 Smidt, Hauke. 2.05P.4 Strömvall, Ann-Margret. 3.22P.4 Spaink, Herman. 4.08.3 Shrestha, Prasit. 3.17.2, 3.17P.4, Śmiełowska, Monika. 3.03P.13 Stroomberg, Gerard. 6.08.3 Špánek, Roman. 4.04P.12, 4.08P.3 3.17P.5 Smit, Bert. 2.04P.13 Struijs, Jaap. 4.07P.16 Spani, Federica. 1.14PC.2 Shukla, Rishabh. 4.04P.5 Smit, Mathijs. 6.06P.3 Strynar, Mark. 3.09P.1, 6.04.1, Sparaventi, Erica. 2.06P.5 Shuliakevich, Aliaksandra. 3.08P.12, Smit, Nicholas. 3.11P.10, 4.03P.5 6.04P.2 Spataro, Francesca. 1.11.1, 4.20P.3 4.01P.7 Smith, Adrian. 1.03.4 Sturm, Armin. 1.04.10 Spear, Stephen. 2.04P.2 Siaussat, David. 1.01.2 Smith, Dawn. 2.07P.7 Šturm, Sabina. 3.03P.7 Specker, Jan. 3.05P.10 Sibley, Paul. 2.12P.1 Smith, Juliette. 6.03.1 Sturve, EL. 3.03P.14, 3.03P.16 Speirs, Lucy. 2.04P.8, 3.24P.5 Siciliano, Steven. 2.09.4, 2.10.2, Smith, Kilian. 1.16P.3, 2.02P.18, Sturve, Joachim. 2.07.6 Spencer, Christine. 3.21P.4 2.10P.3 3.05P.10, 4.02P.4, 4.04P.4, 4.15P.6 Stylianou, Katerina. 5.08PC.1 Spickermann, Gregor. 3.10.3, Sie, Marion. 5.04P.9 Smith, Zacharias. 6.03.1 Størseth, Trond. 3.09P.2 3.10P.9 Siefert, Simon. 3.16P.9, 3.16P.9 Smolders, Erik. 2.05.5, 2.05P.6, Su, Jian-Qiang. 3.24.6 Spijker, Job. 4.15P.4 Siemering, Geoff. 4.04.2 3.20.7 Su, Ky. 3.19P.4 Spurgeon, David. 1.10P.8, 2.02P.25, Signorini, Antonella. 1.11.1 Smutna, Marie. 1.09P.9 2.08P.2, 2.09.1, 3.12P.37, 4.02P.5, Suares-Rocha, Paula. 4.17P.1 Sikanen, Tiina. 1.03P.4 Snape, Jason. 1.11.2, 4.09.2, 4.08P.4 Suárez Serrano, Andrea. 3.11P.9 Sileno, Giulia. 6.08P.1 4.09P.16, 4.09P.17, 4.09P.21, Srinivasan, Prakash. 3.10P.10 Subbiah, Seenivasan. 6.04P.6 Sillen, Wouter. 2.08.7 4.09P.22, 4.09PC.2, 4.13P.2, 6.01.5, Środa, Agnieszka. 3.10P.2 Sugata, Seiji. 3.02P.15 Silva, Ana. 1.05P.15, 2.10P.2, 6.06.3 Staab, Frank. 2.09P.6, 2.10P.4 Sugni, Michela. 3.12P.15, 3.12P.17 3.12P.13, 3.12P.23, 3.12P.24, Snow, Becky. 6.11P.2 Sujetoviene, Gintare. 2.12P.4, 3.12P.28, 4.03P.8 Soares, Amadeu. 1.05P.15, Stadler, Peter. 1.04.4 3.20P.19, 3.20P.20 Silva, Andreia. 2.07P.3 1.05P.32, 1.14PC.1, 2.03P.5, Stadnicka-Michalak, Julita. 4.03.5, 4.03P.12 Sullivan, Timothy. 4.01P.11, 4.03P.4 Silva, Carlos. 3.12P.13, 3.12P.24, 2.09P.13, 2.10.3, 2.10P.5, 3.12P.23, Sultan, Maryam. 4.06P.10, 4.16PC.2 3.12P.28 4.12.1, 6.05P.3 Stahlmecke, Burkhard. 6.05P.11 Sulzer, Lenz. 2.08.3 Silva, Davide. 3.12P.23 Soares, Joana. 6.07P.7 Stamenov, Anton. 2.13P.4 Sun, Hongwen. 3.14.2 Silva, Isabel. 6.05P.3 Soares, Joao. 1.08P.7, 6.05P.9 Stamm, Christian. 2.08P.5 Sun, Xiangfei. 3.13P.2 Silva, Joana. 1.13P.4, 2.07P.3, Sobanska, Marta. 6.06.2, 7.01.1 Standerwick, Richard. 7.02P.9 3.19P.7 Sobek, Anna. 3.07.1, 4.02P.4 Stanley, Dara. 2.02.4, 2.02.5, Sund, Jukka. 1.09P.7 Silva, Marco. 1.08P.7 Sobrino-Figueroa, Alma. 1.02P.7, 2.02P.17 Sundberg, Rotta-Riina. 4.15P.2 Silva, Mayrine. 2.09P.7 1.03P.6, 1.05P.11, 1.15P.6, 2.01P.10 Stapf, Michael. 3.05P.14 Sung, Baeckkyoung. 1.03P.12 Silva, Nuno. 3.08P.1 Sogbanmu, Temitope. 3.08P.16, Stauber, Jennifer. 3.11.4 Sunyer Caldú, Adrià. 4.15.1 6.12P.1 Silva, Patricia. 4.03P.8 Stauch, Claudia. 5.02P.8 Sur, Robin. 3.10.1, 3.10P.1, 3.10P.20 Sogn Andersen, Guri. 2.12P.2, Silva, Sara. 6.05P.3 Stedmon, Colin. 3.04P.8 Surabh Singh, Kumar. 2.02P.19 4.05P.6 Silveira, Andressa. 4.01P.12 Stee, Leo. 3.04P.3 Sures, Bernd. 3.11P.10, 4.03P.5 Sogne, Vanessa. 3.04P.15 Silverthorn, Veronica. 2.13PC.1 Steeger, Tom. 4.19P.2 Surette, Michael. 2.08P.1 Sohag, Shahadur. 1.05P.8 Sim, Sarah. 5.04.7 Steel, Daniel. 6.07.2, 6.07P.6 Surfraz, Bashir. 3.10P.7, 3.10P.8 Sohm, Bénédicte. 3.20P.15 Simal, Jorge. 1.13P.9 Steele, Joshua. 3.14.1 Sushkova, Alesia. 6.05P.3 Soininen, Asta. 5.03P.3 Siminski, Alexandre. 2.09P.7 Steffan-Dewenter, Ingolf. 2.02.2 Sushkova, Svetlana. 3.01.4 Soldat, Douglas. 4.04.2 Simmons, Cody. 1.10P.3 Stegeman, Hanna. 1.09P.5 Sutton, Paul. 6.02.4 Soldati, Cristian. 5.02P.5 Simmons, Denina. 1.03P.8, 1.04P.10 Steinhäuser, Lorin. 3.05P.16 Suzuki, Noriyuki. 3.02P.15, 3.19P.10 Soler, Albert. 6.05P.5 Simon, Eszter. 3.05P.19, 3.08.4, Steinhoff-Wagner, Julia. 3.02P.8 Svecova, Helena. 3.18.3 Soler, Eugenia. 2.02P.5 3.24.1, 4.05P.5 Steinmetz, Heidrun. 3.12.1 Svendheim, Linn. 1.05P.30, 3.11P.8 Solga, Andreas. 2.01P.13, 4.06P.10 Simonin, Marie. 2.08.4 Steinmetz, Zacharias. 4.14.1 Svendsen, Claus. 2.08P.2, 2.09.1, Solhaug, Knut Asbjørn. 2.01P.6, Simonneau, Anaëlle. 3.05.5 Stelmaschuk, Stephanie. 4.03P.11 3.04.1 2.01P.7, 2.01P.8 Simpson, Myrna. 1.04P.10 Stemmer, Michael. 3.10.1, 3.10P.10 Sverclova, Katerina. 3.18.3 Solomon, Keith. 8.03.6 Sims, Natalie. 7.02P.9 Stenrød, Marianne. 2.12P.2, Svirčev, Zorica. 6.03.5 Song, Xin. 2.08.4 132 scicon.setac.org Swab, Rebecca. 2.04P.2 Teixeira, Alexandre. 1.15P.7, 1.03P.16, 1.10.3, 1.12P.3, 2.01P.6, Swales, Sharon. 3.10P.28, 3.10P.4 1.15PC.2 2.01P.7, 2.01P.8, 2.12P.2, 3.11.5, 3.23P.4, 4.02P.10, 4.02P.11, U Swart, Elmer. 2.08P.2 Teixeira, Camilla. 3.21.3 4.02P.12, 4.05P.6, 4.06P.1, 4.06P.8, Swart, Kees. 3.08.4 Teixeira Sabóia-Morais, Simone. Ubani, Chibuike. 3.01P.3 4.11P.12 4.07P.1, 4.07P.18, 6.02.5, 7.03P.5, Sweeney, Paul. 3.10.1, 3.10P.24 7.03PC.3 Ubl-Kägi, Sandy. 6.06.1 Teixidó, Elisabet. 7.01.5 Sweet, Lauren. 1.03P.16 Tolls, Johannes. 3.17P.6, 3.17P.7, Ueki, Ryuta. 3.02P.15 Tell, Joan. 4.09.2, 4.09P.16, Sweetlove, Cyril. 3.17P.6, 3.17P.7, 6.06.4 4.09P.21, 4.09P.22, 4.09P.7 Ulgiati, Sergio. 5.02.9 6.06.4 Tolussi, Carlos. 4.11.2, 4.11P.14, Telscher, Markus. 2.09P.3 Ullberg, Malin. 3.05P.5 Swenson, Tim. 4.09.2, 4.09P.16 4.11P.15, 4.11P.3 Ten Dam, Guillaume. 3.21.4 Ulrich, Jake. 1.11.5 Syberg, Kristian. 7.04P.1, 7.04P.3 Tomasini Montenegro, Claudia. Ulrich, Nadin. 1.05.8, 6.04P.3 Ten Doeschate, Mariel. 1.13P.1 5.07P.11 Sybertz, Alexandra. 4.07P.10, 4.13.4 Ultre, Marta. 4.20P.1 Sychrova, Eliska. 1.10P.11 Teng, Quincy. 3.05.4 Tombácz, Etelka. 4.08P.1 Tenório Botelho, Marina. 4.11.4 Umbuzeiro, Gisela. 4.11.4, 4.17P.1, Sydnes, Magne. 3.09P.13, 4.09.3 Tomiama Alvim, Tiago. 1.05P.24 4.17P.4, 4.17PC.2, 4.17PC.3, Symondson, William. 2.02P.12 Ter Halle, Alexandra. 3.04P.4, 3.12.5 Tomovska, Radmila. 4.08P.15 4.17PC.4 Szentes, Csaba. 4.05P.1 Ter Laak, Thomas. 3.15.1 Toomväli, Cecilia. 4.20P.2 University, Radbound. 5.02.3, Szewzyk, Ulrich. 6.03.2 Tercier-Waeber, Mary-Lou. Toose, Liisa. 3.02.1 5.07P.4 3.16P.17, 3.20.9 Szinwelski, Neucir. 2.04P.5, 2.04P.6, Topping, Christopher. 4.12.3 Uricchio, Vito. 4.04P.3 Terekhova, Vera. 3.20P.28, 2.05P.1, 2.10.6 Tornero, Victoria. 6.02.1 Uricchio, Vito Felice. 3.12P.35, 4.04P.16, 4.08P.1 Szpunar, Joanna. 3.16.7 Tornisielo, Valdemar. 3.03.5 4.04.5 Teresiak, Holger. 2.01P.14 Szymczyk,, Malgorzata. 4.17PC.2, Torreblanca, Amparo. 3.09P.11 Urík, Jakub. 3.18.3 Terrasson, Hugo. 5.03P.2 4.17PC.3 Torres-Rivero, Karina. 3.14P.5 Urionabarrenetxea, Erik. 1.02P.11, Tesser, Stefania. 5.08P.2 Sørensen, Lisbet. 1.05P.20, 3.03.2, Torres-Ruiz, Mónica. 4.16P.3, 1.02P.4, 4.04.6 Teubner, Diana. 2.05.6 3.03P.15, 3.09P.2, 3.12P.38, 3.22P.8, 4.16P.4 Uzyczak, Joanna. 1.08.3 6.02.4, 6.02P.7 Teunen, Lies. 6.04P.7 Torto, Baldwyn. 3.08.2 Sørensen, Sara. 2.01P.1 Teurlincx, Sven. 6.11P.1 Toschki, Andreas. 4.13.4, 4.13P.4, Teutenberg, Thorsten. 3.14P.2 6.11P.3 V Theelen, Mirjam. 5.02.3 Town, Raewyn. 3.11.7, 3.11P.7, T Theodoro, João Lucas. 2.10.6 3.23.2 Väänänen, Kristiina. 3.11.2 Thibault, Alexandre. 3.05.5 Townhill, Bryony. 3.21P.1 Vacchi, Francine. 4.11.4, 4.17PC.4 Taelman, Sue Ellen. 5.07.1 Thiebault, Thomas. 3.05.5 Traas, Theo. 4.09P.1, 4.15P.4 Vaiano, Vincenzo. 4.01P.2 Tagliapietra, Elena. 6.04P.12 Thiele, Karen. 6.06P.11 Traina, Samuel. 1.14PC.4 Vaiopoulou, Eleni. 3.17.2, 3.17P.2, Tagliati, Chiara. 4.20P.1 Thit Jensen, Amalie. 2.07.6, 3.03P.17 Tran, Ngoc Han. 3.24.6 3.17P.3, 3.17P.4 Tagnit-Hamou, Arezki. 5.07P.2 Thomaidis, Nikolaos. 1.05P.10, Trannum, Hilde. 3.21P.6 Valcárcel, Yolanda. 7.02.2, 7.02P.2, 7.02P.4 Taipale, Sami. 3.21.2 2.13P.1, 2.13P.6, 3.05.3, 3.06.2, Transue, Thomas. 1.10P.3 3.08P.17, 3.08P.5, 3.09P.12 Valdehita, Ana. 4.08P.10 Takayama, Kotaro. 6.08P.6 Trapp, Stefan. 4.03P.2 Thomaidis, Nikos. 1.13P.3 Valderhaug, Solveig. 3.07.5, 3.07P.3, Takeda, Kazuhiko. 3.02P.15 Tremolada, Paolo. 3.12.3 Thomas, Helene. 2.07P.6, 6.02P.3 3.07P.6 Takeuchi, Ichiro. 6.08P.6 Treu, Gabriele. 2.13P.6, 3.08P.5 Thomas, Hélène. 2.07P.8 Valencia Martinez, Elsa. 5.07.3 Talandier, Gaelle. 5.01.1, 5.06.2 Triebskorn, Rita. 1.05P.10, 2.11PC.2 Thomas, Paul. 1.03P.15, 1.14P.6, Valenti, Erica. 3.05P.7 Tallandini, Laura. 6.04P.12 Trier, Xenia. 6.04.5 7.01P.1 Valentine, Katey. 3.12P.37 Tallentire, Eva. 3.10P.16 Trijau, Marie. 4.07P.7 Thomas-Oates, Jane. 2.12PC.3 Valette, Laurent. 2.05.3, 2.05P.3 Tammaro, Marco. 5.02P.15 Trimbos, Krijn. 6.10P.6 Thompson, Helen. 1.16PC.1 Valhondo, Cristina. 3.05P.17 Tamminen, Manu. 2.09P.8 Trindade, Tito. 4.08P.7, 4.14P.6 Thompson, Linzi. 2.02.4, 2.02P.17 Vallotton, Nathalie. 3.17.4, 3.17P.10 Tan, Qiao-guo. 3.11.9 Trisna, Audrey. 2.09P.3 Tanfin, Melissa. 3.12.4 Thomsen, Marianne. 3.11P.6, Valsami-Jones, Eugenia. 1.04P.2, 5.07P.7, 5.08PC.2 Troia, Eugenie. 7.02P.3 2.07.6 Tang, Longlong. 5.04P.6 Thonemann, Nils. 3.22P.1, 5.02P.17, Trouillefou, Malika. 4.11P.2 Valsecchi, Lucia. 4.04.1, 6.08P.2 Tanguy, Arnaud. 1.02P.2 5.06.4, 5.06P.3 Trujillo, Abraham. 6.02.2 Valsecchi, Sara. 3.05P.7, 3.15P.6, Tanguy, Audrey. 5.02P.19, 5.03.5, Thorbek, Pernille. 2.04P.10, 4.12.2, Tsotskou, Anastasia. 3.03P.21 3.16P.11, 6.04.1, 6.04P.11, 6.04P.12, 5.07P.2 4.13.3 Tsoy, Natalya. 5.02.2 6.04P.9 Tannouri, Nancy. 1.04P.10 Thorpe, Karen. 3.12P.37 Tucca, Felipe. 3.02P.9, 3.18P.5 Valsesia, Andrea. 3.04P.18, Tänzler, Verena. 2.02P.5 Thorstensen, Helene. 2.03.2 Tudesque, Loic. 3.04P.4 3.04P.19, 3.12.18 Tapfuma, Donald. 3.23P.1 Thrane, Jan-Erik. 2.05P.11 Tuerk, Jochen. 3.08.4, 3.14P.2, Valverde, Irene. 1.13P.9 Tarazona, Jose V.. 4.05P.1, 4.08.4, Tiberg, Charlotta. 4.20P.2 4.14P.1 Valverde, Pablo. 6.10P.1 4.08P.17 Tiecher, Tadeu. 4.01P.12 Tufenkji, Nathalie. 3.12P.3 Van Aerle, Ronny. 1.04P.4 Tarchitzky, Jorge. 3.05.7 Tietema, Albert. 4.10P.6 Tuhkanen, Tuula. 4.15P.2 Van Assche, Frank. 3.20.4, 3.20.5, Tarelho, Luís. 5.07P.10 3.20P.4, 3.20P.6 Tiktak, Aaldrik. 3.10.1 Tuijtelaars, Alexandra. 8.03.7 Tarjuelo, Rocío. 2.05P.8 Van Bavel, Bert. 2.02P.21 Tilbrook, Martin. 4.16PC.3 Tuinenburg, Obbe. 7.03P.2 Tarrant, Ann. 1.06.5, 1.08P.1, Tukker, Arnold. 5.07P.1 Van Bodegom, Peter. 5.04P.13 2.06P.2 Timbine, Lassina. 3.08P.8 Tulasi Kirla, Krishna. 2.11P.3 Van Bommel, Maarten. 3.05P.2 Tartari, Gianni. 4.04.1, 6.08P.2 Timmer, Niels. 1.15P.2, 6.06P.8 Tumlin, Susanne. 3.12.2 Van Craynest, Camille. 3.04P.4 Tasselli, Stefano. 3.05P.7, 6.08P.2 Timofeyev, Maxim. 1.04.4 Tuoriniemi, Jani. 3.14P.7 Van de Broeck, Steven. 3.17P.12 Tatin-Froux, Fabienne. 4.04.3 Tindall, Andrew. 1.09.1 Turek, Thomas. 5.02P.7 Van de Meent, Dik. 4.07P.16 Tauler, Roma. 1.05P.16, 1.06.4, Tisler, Selina. 2.11PC.2 Van den Berg, Erik. 3.10.1 3.09.3 Tisserand, Floriane. 1.03P.7 Turiès, Cyril. 1.05.6, 1.09.3 Van den Berg, Hans. 1.02.2, 1.13.2 Tausch, Frederic. 2.02.3, 2.02P.13 Titaley, Ivan. 3.22P.3 Turja, Raisa. 3.22.4 Van den Berg, Sanne. 2.11PC.1 Tay, Joo Hui. 3.07P.7 Tittonel, Alessandro. 1.14P.1 Turner, Andrew. 6.03.1 Van den Brink, Nico. 1.02.2, 1.13.2, Taylor, Allison. 3.01.2 Tlili, Ahmed. 2.08P.5 Turner, Francesca. 4.02P.7 3.02P.2, 3.21.4, 4.03P.8, 4.19PC.2 Taylor, Seamus. 4.11P.16 Tobi, Hilde. 6.06P.11 Turolla, Andrea. 3.05.1, 3.05P.7 Van den Brink, Paul. 2.04.5, Tust, Maurice. 3.06P.4 Tcheremenskaia, Olga. 1.14P.1 Todorov, Zlatomir. 1.14P.6 2.04P.10, 2.04P.11, 2.04P.9, Tebby, Cleo. 1.05.6 Tokito, Shohei. 5.02P.14, 5.03P.4 Tveiten, Helge. 3.12P.30 2.05P.10, 2.05P.4, 2.11PC.1, Teboul, Eloïse. 3.21P.8 Tokodi, Nada. 6.03.5 Tveiten, Lise. 1.01.1 4.19PC.1, 4.19PC.2, 7.03P.1, Tedim, João. 6.05P.3 Tokura, Luciene. 4.03P.6 Tyler, Charles. 1.05P.1 7.03PC.1 Teien, Hans-Christian. 3.11.5, Toledano, Adolfo. 2.03P.1 Tyson, Cashmeira. 1.03P.8 Van der Burg, Bart. 4.05.2 3.23P.4, 4.02P.12, 4.07P.1, 6.02.5 Tölgyesi, László. 3.09P.7 Van der Ent, Ruud. 5.04.8 Teigeler, Matthias. 1.05.11 Tollefsen, Knut Erik. 1.02P.6, Van der Giesen, Coen. 5.02.2
SETAC Europe 30th Annual Meeting - SETAC SciCon 133 Van der Grinten, Esther. 4.09P.1, Veclin, Cloé. 3.04P.19 Vinaixa, Maria. 1.05.4 Wang, Bing. 4.10P.6 4.15P.4 Vega, Albert. 3.03P.22 Vinall, Stephen. 2.02P.5 Wang, Feng. 5.06P.2, 5.06P.4 Van der Heijden, Stephan. 4.16PC.5 Vega, Nahuel Agustín. 3.20P.26 Vinhas, André. 2.09P.13 Wang, Jie. 3.01.2 Van der Maas, Kevin. 4.10P.6 Vega-Herrera, Albert. 3.04P.2 Vink, Jos P.M.. 6.09PC.5 Wang, Liman. 4.09P.7 Van der Mije, Steven. 1.13P.3 Vejsnaes, Flemming. 2.02P.14 Viñuelas, Jose Alberto. 2.03P.1, Wang, Magnus. 4.07P.4 Van der Oost, Ron. 4.05.3, 6.08.4, Velarde, Roser. 2.13PC.2 2.03P.3 Wang, Neil. 3.17.2, 3.17.4, 3.17P.2, 6.08P.1 Veltman, Boris. 3.05P.12 Virta, Marko. 2.09P.8, 3.08P.8, 3.17P.3, 3.17P.4, 3.17P.8, 3.25P.3 Van der Steen, Jozef. 2.02P.14 Velzen, Martin. 4.21P.2 4.15P.3 Wang, Xiaowa. 2.03P.2, 3.21P.3, Van der ven, Leo. 1.05P.26 Venancio, Catia. 2.04P.12, 2.06P.4, Visca, Andrea. 1.11.1, 4.04.5, 3.21P.4 Van Deursen, Richard. 3.23P.3 3.08P.1, 3.12P.11, 3.12P.12, 4.12P.5, 4.04P.2, 4.20P.3 Wang, Ying. 5.05P.6 Van Dijk, Joanke. 4.06P.11, 7.03P.2 6.07P.7 Visser, Petra. 6.03.4 Wang, Yue. 4.10P.6 Van Dongen, Stefan. 3.23.2 Venditto, Vincenzo. 4.01P.2 Vitale, Chiara Maria. 3.01.3, 3.15P.8 Wang, Zhanyun. 3.13.1, 3.17.1, Van Doorn, Rene. 3.04P.3 Vendrell Puigmitjà, Lidia. 2.08P.4 Vitale, Dyana. 3.09P.11 3.27P.2, 6.04.5 Van Drimmelen, Chantal. 2.05P.4 Venhuis, Bastiaan. 4.09P.1 Viveros Santos, Ivan. 5.05.5 Wania, Frank. 3.24.2, 4.03P.14 Van Drongelen, Arjan. 4.09P.1 Venkatraman, Vishwesh. 3.08P.13 Vizcaíno, Elena. 1.13.4, 2.05P.8 Waniek, Joanna. 3.16.5, 3.16P.3 Van Eupen, Michiel. 2.01P.11 Ventura, Hudson. 4.16PC.2 Vizioli, Beatriz. 3.05P.1 Wanke, Sonja. 5.04P.15 Van Geneijgen, Peter. 1.13P.3 Verdejo, Eva. 3.12P.31 Vlaeminck, Karel. 3.20.1, 4.07.6, Wannaz, Cedric. 3.24P.5 Van Gestel, C.A.M.. 1.10.1, 2.09P.15, Verdon, Rachel. 1.05.7 4.07P.11 Warner, Nicholas. 3.07.2 2.10.1, 2.10P.2, 3.11P.9, 4.02P.8, Verdonck, Frederik. 3.20.4, 3.20P.6, Vliet, Sara. 1.10P.3, 1.10P.4, 4.19P.2 Warwick, Oliver. 2.04P.11 4.03P.8, 4.11.1, 4.14.4 3.20P.7, 3.20P.8, 4.21P.3, 6.09P.6, Vnukova, Natalya. 4.08P.6 Wassenaar, Pim. 7.01P.3 Van Gils, Jos. 3.22.1 6.09PC.3 Voegelin, Andreas. 3.14P.6, Wassenberg, Jacoba. 4.07.8, 6.01P.2 Van Ginneken, Inge. 4.09P.22 Verdonschot, Piet. 4.05.3 3.14PC.3 Watson-Leung, Trudy. 1.04P.10 Van Hees, Patrick. 4.20P.2 Vereecken, Harry. 3.10P.18 Vogelsang, Christian. 4.08.2 Watt, Ian. 6.02P.1 Van Hees, Stijn. 4.04P.11 Vereshchagina, Kseniya. 1.04.4 Vogler, Miriam. 3.22.3 Wazne, Mohammad. 3.12P.20 Van Herk, Maria. 6.03.4 Vergauwen, Lucia. 1.09.2, 1.09P.2 Voigt, Astrid. 3.20P.1 Weaver, Louise. 2.07P.7 Van Leeuwen, Herman. 3.11.7 Verhaegen, Yves. 3.17.2, 3.17P.2, Völkel, Wolfgang. 4.16PC.1 Weber, Denis. 3.10.3, 3.10P.16 Van Leeuwen, Stefan. 3.21.4 3.17P.3, 3.17P.4 Völker, Carolin. 3.03.3 Weber, Frank-Andreas. 4.15P.6 Van Loon, Niels. 5.02.3 Verkest, Aurine. 4.21P.3 Volker, Doris. 6.05P.8 Weber, Jan. 1.15PC.3, 6.06.2 Van Looy, Kris. 4.04P.11 Vermeirssen, Etienne. 3.05P.19, Vollertsen, Jes. 3.12.2, 7.04P.1 Weber, Kela. 3.11.1 3.08.4, 3.24.1, 4.02.4, 4.05P.5 Van Mierlo, Klara. 5.08P.1 Volta, Pietro. 3.16P.11 Weber, Lynn. 4.03.1 Vernay, Emilie. 3.12P.26 Van Miert, Erik. 1.03.3 Vom Berg, Colette. 1.05.3, 2.11P.3 Weber, Miriam. 5.06.6 Verones, Francesca. 5.06.1 Van Mourik, Louise. 3.07P.2, Von Blanckenhagen, Felix. 2.02P.26 Weber, Sven. 2.04P.4 Verougstraete, Violaine. 4.21P.3, 3.07P.3, 3.07P.6, 4.21P.2 Von der Esch, Elisabeth. 3.04P.1, Weddeling, Paula. 1.09P.4, 1.09P.5 5.02P.1 3.04P.13, 3.04P.14 Van Nes, Egbert. 7.03P.1 Wedlake, Andrew. 7.01.2 Verreault, Jonathan. 2.03.1 Von der Kammer, Frank. 3.14PC.3 Van Oers, Lauran. 5.02P.2 Weeber, Marc. 3.22.1 Versonnen, Bram. 7.01.1 Von der Ohe, Peter. 1.05P.10, Van Pelt, Frank. 3.12P.6 Weeks Santos, Shannon. 1.05.9 Verweij, Peter. 2.01P.11 4.09P.2 Van Putten, Robert-Jan. 4.10P.6 Weighman, Kristi. 4.07P.11 Vespalcova, Hana. 1.05P.8 Von Gunten, Urs. 3.09.2, 3.12.19 Van Smeden, Jasper. 4.07.4 Weil, Carolin. 3.12.14 Vestel, Jessica. 4.09.2, 4.09P.16, Von Törne, Wipert Jannik. 3.05P.16, Van Sprang, Patrick. 3.20.1, 3.20.2, Weil, Marcel. 5.07P.11 3.20.3, 4.07.6, 4.07P.11 4.09P.22 3.05P.3 Weinfurtner, Karl-Heinz. 4.14P.1 Van Straalen, Nico. 4.07P.16 Vethaak, Dick. 3.22.1 Von Tümpling, Wolf. 2.05P.2 Weinstein, John. 6.02P.6 Van Vuuren, Detlef. 7.03P.2 Vethamanickam, Jayasujatha. Von Wyl, Alex. 4.10P.5 1.15P.7 Weinstein, Melanie. 3.09P.9 Van Wezel, Annemarie. K1, 3.15.1, Vorkamp, Katrin. 3.12P.30, 3.21.1 Weisner, Oliver. 2.05P.2, 3.24.3 4.06P.11, 7.02P.3, 7.03P.2, 7.03PC.1, Vey, Daniele. 2.13PC.4 Vormeier, Philipp. 2.05P.2, 3.24.3 7.03PC.2 Vézina, François. 4.19PC.3 Vorozheikina, Elena. 3.21P.7 Weisser, Jana. 3.04P.14 Van Zelm, Rosalie. 4.01P.1, 5.02P.8, Vezzaro, Luca. 3.05.1 Vrana, Branislav. 3.18.3 Weitere, Markus. 2.05P.2 5.07P.4, 6.09PC.5 Viaene, Karel. 3.20.1, 3.20.2, Vrielinck, Henk. 3.12P.8 Welch, Samuel. 7.03P.5, 7.03PC.1 Vancoillie, Gertjan. 3.12P.29 4.04P.11, 4.07.6, 4.07P.11 Vryenhoef, Helen. 2.01P.2 Wellmitz, Joerg. 3.13P.4 Vandegehuchte, Michiel. 3.12P.29, Victor, Ashvini. 1.15P.4, 3.10P.14 Vucinic, Luka. 3.03P.9 Welte, Cornelia. 4.01P.1 3.12P.8, 7.04P.2 Vidal, Cristiane. 1.02P.1 Vuillemard, Pascaline. 4.16PC.4 Weltje, Lennart. 1.03P.2, 4.12.2 Vanderborght, Jan. 3.10P.18 Vidal, Leticia. 1.05P.13 Vulliet, Emmanuelle. 3.14.3 Weltmeyer, Antonia. 4.14P.1, 4.14P.5 VanDuren, Luca. 5.04P.15 Vidal, Tânia. 2.07P.4 Vuorinen, Tapani. 4.17P.4 Vangheluwe, Marnix. 2.10P.6, Vieira, Hugo. 1.02P.3, 2.03P.5 Wendt-Potthoff, Katrin. 3.12P.18 4.04P.11, 6.09PC.3 Vieira, Marisa. 5.07.3 Wengerodt, Christoph. 4.13.4 Vangronsveld, Jaco. 2.08.7 Vieira, Sara. 1.13.5 W Wennberg, Aina Charlotte. 6.06P.4 Vannuci-Silva, Monizze. 4.11.4 Vieweg, Ireen. 2.08.9 Wensvoort, Jaap. 4.03P.14 Vänttinen, Jesse. 2.09P.8 Vighi, Marco. 2.05P.13, 2.05P.7, Wade, Michael. 1.09P.7 Wepener, Victor. 3.11P.10, 4.03P.5 Varela, Nelson. 3.11P.5 3.03.4, 3.22P.6, 4.11P.1, 4.14.2, Wagenhoff, Eiko. 2.09.3 Wermeille, Aurore. 5.04P.3 4.19P.1, 7.03PC.1 Varesche, Maria Bernadete. 4.01.3 Wagner, Martin. 3.03.3, 3.12.14 Werneburg, Martina. 3.24P.6, Vignati, Davide. 3.20P.12, 3.20P.13, Vargas-Gonzalez, Marcial. 5.04.7 Wagner, Moritz. 5.04P.8 3.24P.8 4.01P.2 Vari, Heli. 1.07P.2 Wagner, Stephan. 1.05.8, 3.04P.10, Werner, Inge. 3.08.4, 4.02.4 Vijayaraj, Vinita. 2.01.3 Varnek, Alexandre. 1.03.3 3.14P.7, 3.22.2 Werth, Christine. 6.06P.1 Vijver, Martina. 3.12.11, 4.08.3, Vasantha Raman, Nandini. 6.11P.1 Wagner, Thomas. 3.15.1 Wesch, Charlotte. 2.05.6 5.02.13, 7.01P.3 Vasconcelos, Lacey. 3.25P.4 Waichman, Andrea. 4.11P.1 Wesner, Jeff. 2.07.1 Vike-Jonas, Kristine. 3.08P.13 Vasilyeva, Galina. 3.01.4, 4.15P.5 Walker, Glen. 3.13.1 Wess, Ralf Arno. 4.09P.18 Vila, Maria. 4.04P.13 Vasincu, Alexandru. 3.05P.4 Walker, Stuart. 5.02P.13 Wetzel, Karl-Friedrich. 3.04P.6 Vilagines, Lydia. 2.13PC.4 Vasincu, Ioana. 3.05P.4 Wallace, Jim. 5.05P.6 Weyand, Steffi. 5.02.12 Villa, Sara. 4.11P.1 Vassallo, Joanne. 4.03P.8 Walravens, Nils. 5.01P.5 Weyers, Arnd. 2.06.3, 6.10P.12, Villalobos, Sergio. 3.17.2, 3.17P.2, Vatanen, Saija. 5.03P.3 6.10PC.1, 6.10PC.5 3.17P.3, 3.17P.4 Walsh, Gina. 6.11P.1 Vaugeois, Maxime. 4.07P.12, Whale, Graham. 4.21P.1, 6.06.3 Villamar-Bouza, Laura. 1.09.4 Walter, Christoph. 2.09.3 4.12P.1 Wheatley, Christopher. 2.04P.8 Villarreal, Edgar. 5.04P.7 Walter-Rohde, Susanne. 4.13.1 Vaz-de-Mello, Fernando. 2.04P.5 Wheeler, James. 1.03P.1, 3.17.4, Villeneuve, Bertrand. 2.05.3, 2.05P.3 Walters, David. 2.07.1, 2.07.4 Vázquez-Rowe, Ian. 5.06.1 4.06P.13, 4.21P.1 Villeneuve, Jacques. 5.07P.5 Walton, Helen. 1.08.3 Vea, Eldbjørg. 5.04.6 Whelan, Michael. 3.19P.5 Villette, Sandrine. 3.12.4 Wang, Bin. 3.14.2 134 scicon.setac.org White, Andrew. 1.12.4 Wnęk, Agnieszka. 2.02P.9 Yang, Yongxiang. 5.02P.2 Zhao, Qinghua. 2.05P.12 White, Blánaid. 2.02P.15, 3.14.1, Woegerbauer, Markus. 2.09P.9 Yang, Zhugen. 3.14.4, 4.01P.10 Zhen, Huajun. 3.05.4 3.16P.1, 3.16P.13, 3.16P.2, 3.18.2, Wójcik, Marcin. 3.10P.2 Yao, Yiming. 3.14.2 Zheng, Keke. 1.02P.6 3.18P.2 Wolf, Christian. 6.10P.3, 6.10PC.2 Yargeau, Viviane. 3.05.2 Zheng, Yuanfang. 6.05P.12 White, Jason. 2.08.7 Wolf, Jayanthi. 4.09P.7 Yaseneva, Polina. 5.02P.22 Zheng, Ziye. 6.06P.10 White, Kevin. 4.05P.3 Wolf, Raoul. 1.10.3, 1.12P.3, Yeap, Cheryl Soo Yean. 4.08P.3 Zhou, Meng. 3.16P.3 White, Piran. 2.04P.8 2.12P.2, 3.11.5, 4.02P.10, 4.02P.11, Yli-Öyrä, Johanna. 4.17PC.2 Zhu, Yong Guan. 3.24.6 Whitehouse, Paul. 2.04P.9 4.02P.12, 4.05P.6, 4.06P.8, 4.07P.1, Yokoyama, Koichiro. 5.02P.6 Ziegler, Michael. 2.11PC.2 4.07P.18, 6.02.5 Whitlock, Katie. 1.05P.1 Yoshii, M. Paula C. 4.11P.6, 4.11P.7, Zijp, Michiel. 4.02.1 Wolfaardt, Gideon. 3.08P.2, Wiberg, Karin. 3.05P.5, 3.09P.4, 4.11P.8 Zillien, Caterina. 3.16P.21 3.15.2 4.01P.14 Young, Steven. 5.07.4 Zimmer, Carl. 2.11P.3 Wich, Sonja. 6.10P.12 WONG-WAH-CHUNG, Pascal. 3.12.5 Yuan, Bo. 3.07.1, 3.07P.7 Zimmermann, Lisa. 3.03.3 Wick, Lukas. 2.08.6 Woods, Hope. 4.10P.8 Zimmermann, Sonja. 3.11P.10, Woods, John. 5.06.1 Widdowson, Caroline. 2.09P.10 4.03P.5 Woodward, Gemma. 3.10P.7, Widok, Andi. 5.01.1 Zimmermann, Tristan. 3.04.8, 3.10P.8 Z Wielhouwer, Eric. 1.03P.10 3.23P.5 Woodward, Michael. 6.11P.4 Wielinski, Jonas. 3.14P.6, 3.14PC.3 Zabiegała, Bożena. 3.03P.13 Zioga, Elena. 2.02P.15 Wörle, Katharina. 3.04P.6 WienholD, Arthur. 5.03P.2 Zafeiraki, Effrosyni. 3.20P.23 Ziółkowska, Elżbieta. 2.02P.8, Wright, Michael. 2.04.2, 2.06P.6 Wiesinger, Helene. 3.27P.2 Zaiat, Marcelo. 2.01P.16 2.02P.9 WU, Dan. 4.06P.6 Wießner, Katharina. 1.10P.12 Zaidy, Syed. 4.17PC.4 Żmijowska, Agnieszka. 3.10P.2 Wu, Longhua. 2.10P.1 Wiest, Laure. 3.14.3 Zakkak, Sylvia. 2.13P.4 Zolfaghari, Reza. 3.02P.5 Wullschleger, Simon. 2.08P.5 Wijaya, Leonard. 2.12P.5 Zaldibar, Beñat. 1.02P.11, 3.16P.17 Zondo, Musawenkosi. 2.09P.2 Wyatt, Faye. 2.04.4 Wik, Ola. 4.20P.2 Zalouk Vergnoux, Aurore. 3.11.3 Zorn, Paul. 2.04.4 Wilde, David. 5.02P.12, 5.02P.18, Zalouk-Vergnoux, Aurore. 3.08.3, Zubrod, Jochen. 2.07.2, 2.07.3, 5.02P.9, 5.07P.8 3.08P.6, 3.12.21 2.08.3, 2.08P.6, 4.17P.2 Wilkinson, John. 3.13.3 X Zanão Júnior, Luiz. 2.10.6, 4.03P.6 Zucaro, Amalia. 5.02.9, 5.02P.15 Williams, Dawn. 4.16PC.1 Zaninetta, Luciano. 4.04P.6 Zuccato, Ettore. 7.02.1 Xavier, Dauchy. 3.14.3, 3.24P.1 Williams, Richard. 3.02P.2, 4.02P.7 Zannoni, Denis. 5.02P.5 Zullo, Lorenzo. 5.02.5, 5.02P.1, Xhani, Marla. 1.14P.3 Williams, Rosie. 1.13P.1 Zanon, Francesca. 6.04.1, 6.04P.11, 6.09P.6 Xia, Haiying. 4.09P.2 Williams, Tony. 1.13.3, 1.13P.5, 6.04P.12 Zuloaga, Olatz. 3.09.1, 3.09P.6, 1.13P.6 Xia, Jeff. 1.10P.13, 1.12P.1, 1.12P.2 Zarfl, Christiane. 3.03.6, 3.24P.6, 3.15P.1, 3.15P.5, 7.02P.4 Williamson, Mary. 3.21P.4 Xie, Li. 1.02P.6, 1.10.3, 2.01P.6, 3.24P.8 Zumarraga, Cristina. 4.04.6 2.01P.7, 2.01P.8, 2.12P.2, 3.23P.4 Wilson, Iain. 3.20.4, 3.20.5, 3.20P.4, Zarragoitia, Maren. 2.08P.7 Zumkier, Ulrich. 2.01.4, 6.10P.11 3.20P.5, 3.20P.6, 3.20P.7, 3.20P.8, Xu, Elvis Genbo. 3.12P.3 Zaworra, Marion. 2.02P.19 Zupančič, Maša. 6.03P.1 3.20P.9 Xu, Mengmeng. 1.06.2 Zdrahal, Zbynek. 1.10P.13 Zupanic, Anze. 1.16PC.3 Wilson, Joanna. 2.08P.1 Xu, Shihe. 3.19P.5 Zellmer, Sabrina. 5.01P.6 Zweigenbaum, Jerry. 3.14PC.2 Wilson, Julie. 2.12PC.3 Zeng, Eddy. 3.13P.2 Zweigle, Jonathan. 3.09P.8 Wilson, Laurie. 3.21P.8 Zenker, Armin. 4.09P.3 Zwiener, Christian. 2.11PC.2, Wilson, Peter. 4.09P.22 Y Zervou, Sevasti-Kiriaki. 6.03.4 3.09P.8, 3.09P.9, 3.24P.6, 3.24P.8 Wilson, Rod. 4.02P.6 Zgirski, Thomas. 4.19PC.3 Yabuki, Yoshinori. 3.18P.4 Wilson, Simon. 3.21.1 Zgola, Melissa. 5.06.2 Yakimenko, Olga. 3.20P.28 Wilson, Vickie. 3.05.4 Zhang, Hao. 2.05P.11 Ø Yakovenko, Nadiia. 3.12.5 Wilson McNeal, Alice. 4.02P.6 Zhang, Jieying. 5.02.1 Yakushev, Evgeniy. 3.12P.42, Øverjordet, Ida. 1.05P.20, 3.11P.8 Winiarska, Katarzyna. 3.10P.2 Zhang, Lifang. 3.14P.4 3.21P.7, 3.23P.2 Øverjordet, Ida Beathe. 3.09.5, Winkler, Anna. 3.12.3 Zhang, Lihong. 4.09P.17, 4.13P.2 Yamada, Takashi. 4.09P.11 3.09P.2 Wipfler, Louise. 3.10P.13, 4.07.9, Yamamoto, Hiroshi. 4.09P.11 Zhang, Qiyun. 3.01P.4 4.07P.15 Øxnevad, Sigurd. 1.01.1, 6.02P.2 Yamashiro, Hideyuki. 6.08P.6 Zhang, Ruifeng. 3.16.5, 3.16P.3 Wirth, Marisa. 3.16.4 Øysæd, Kjell Birger. 3.03.7, Yan, Xiaoyu. 5.06.3 Zhang, Xianming. 3.13.2, 3.13P.2 3.03P.10, 3.03P.11 Witt, Gesine. 3.01P.5, 3.01P.6 Yang, Tong. 3.12P.10 Zhang, Xiaokang. 1.06.3 Witt, Johannes. 4.07P.8 Zhang, Xiaowei. 2.08.2
SETAC Europe 30th Annual Meeting - SETAC SciCon 135 Policies
SETAC provides open, safe forums for the purpose of exchanging ideas and information on the study, analysis and solution of environmental problems, the management and regulation of natural resources, promotion of scientific research and the development of strong environmental education.
Code of Conduct Members of the Society of Environmental Toxicology and Chemistry (SETAC) and meeting attendees are expected to exhibit the highest standards of integrity and professionalism. To ensure a strong and successful organisation, our activities require honesty and equity and should reflect well on the Society. In the spirit of promoting “Environmental Quality Through Science®,” members should strive to be good stewards of environmental resources and effective and objective contributors to the environmental discussion globally as well as locally. Professional behaviour and integrity are also expected of every attendee (members and non-members alike) of SETAC meetings, workshops and activities. Each member and all persons participating in SETAC meetings and activities are bound by the Codes of Conduct and Ethics and should: • Avoid inappropriate and discriminatory actions. • Ensure that presentations during Society-sponsored The diversity of human cultures, races, religions, events and other communications are restricted ethnicities, nationalities, sexual orientations, gender to and based on scientific principles and made in a expressions, gender identities, marital statuses, respectful manner political affiliations, visible and unseen disabilities, • Respect the rights, interests, and contributions of employers, levels of employment and educational professional colleagues backgrounds bring unique perspectives to our • Respect intellectual property and provide organization. Discrimination based on any of appropriate attribution for all intellectual property these, or other less apparent differences, will not arising elsewhere. be tolerated; show respect to colleagues, staff and meeting vendors • Declare and avoid conflicts of interest. • Be professional. Refrain from using insulting, • Not knowingly make false or misleading statement(s) harassing or otherwise offensive language in SETAC or engage in activities that could be viewed as interactions. Disruptive, harassing or inappropriate defamatory about a professional colleague or an behavior towards other scientists, meeting organisation. attendees, staff or vendors will not be tolerated • Recognise and respect confidentiality while being • Refrain from representing themselves as honest and forthcoming in all issues of public record. spokespersons for SETAC without the express • Objectively and clearly communicate scientific authorization by the global executive director of methods, understanding and knowledge in a SETAC, the SETAC World Council president or an professional manner. appropriate SETAC World Council delegate • Conduct research and related activities so as to • Respect personal boundaries. Boundaries set by avoid or minimise adverse environmental effects others must be observed. Harassment of any kind, of that research and ensure compliance with legal including unwelcome sexual advances and requests requirements for protection of researchers, human for sexual favors, sexually graphic statements, or any subjects, and research organisms and systems. other verbal or physical abuse will not be tolerated
136 SETAC Europe 30th Annual Meeting - SETAC SciCon Copyright and Presenter Responsibilities Your efforts as a presenter at the SETAC Europe meeting are valuable, and we want to ensure you are aware of the legal and society requirements regarding to previously published material that may appear in your presentation. Attendees Photography “Opt-out” Policy SETAC embraces a set of values, which include transparency, integrity and civil dialogue. As part of our commitment to be an open and transparent society, we encourage meeting attendees to capture and share the research being presented as long as they do so in a respectful manner, honor the intellectual property of the presenter, and they provide appropriate attribution. We do ask you to please respect a presenter’s request to refrain from photographing, taking screen shots or disseminating the contents of their talk or poster. Presenters may have various reasons for opting out, such as guarding intellectual property or not wanting preliminary data disseminated while they are seeking feedback from peers. We will provide the following tools to help communicate all “no recording” restraints: A “No Recordings or Photos” icon that presenters can download and place on slides or posters. These steps will make it clear that a presenter does not want their results photographed or discussed on Twitter or other social media. Meeting attendees should familiarize themselves with our social media guidelines. SETAC Forums and Chat Rooms The aim of the forums and chat rooms is to initiate scientific discussions. The forums are moderated to preserve the spirit of an open, interactive, courteous, polite and respectful discussion. If misuse occurs, please contact the SETAC Europe staff in the SETAC booth or Bart Bosveld, SETAC Europe Executive Director, [email protected]. Online Meetings Out of courtesy to participants, we request that you mute your line if you are not speaking when on a meeting call or video conference. Inclusion Consistent with SETAC’s values, we strive for both scientific and individual diversity and inclusivity in our operations and programming. Some of the initiatives to achieve and support these values include: • We follow by-laws and charters that ensure disabled individuals diversity and inclusion in all governance bodies and • We retain sign language interpreters for the hearing committees impaired if requested in advance • We offer students and underrepresented • We make family rooms available at events professionals financial assistance (meeting registration waivers and monetary stipends) to support their attendance • We follow procedures that ensure inclusivity when selecting keynote and plenary speakers at our events • We select venues that are accessible for physically
scicon.setac.org 137 SETAC EUROPE 31ST ANNUAL MEETING
2–6 MAY 2021, SPAIN
SEVILLE.SETAC.ORG SETAC Europe Office Avenue des Arts, 53 B-1000 Brussels, Belgium T +32 2 772 72 81 F +32 2 770 53 86 [email protected]
SETAC North America Office Environmental Quality 229 South Baylen Street, 2nd Floor Through Science® Pensacola, Florida, 32502, USA T +1 850 469 1500 F +1 850 469 9778 [email protected]
setac.org