DOCSLIB.ORG

University of Copenhagen, Denmark ([email protected]) Martin J

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
University of Copenhagen, Denmark (Me@Bi.Ku.Dk) Martin J Long-term survival of dinoflagellate cysts in anoxic marine sediments. Ellegaard, Marianne; Lundholm, Nina; Ribeiro, Sofia; Ekelund, Flemming; Andersen, Thorbjørn Joest Publication date: 2008 Document version Publisher's PDF, also known as Version of record Citation for published version (APA): Ellegaard, M., Lundholm, N., Ribeiro, S., Ekelund, F., & Andersen, T. J. (2008). Long-term survival of dinoflagellate cysts in anoxic marine sediments.. Abstract from Eight International Conference on Modern and Fossil Dinoflagellates - Dino8, Montreal, Canada. Download date: 25. sep.. 2021 0 DINO8 Eighth International Conference on Modern and Fossil Dinoflagellates May 4 to May 10, 2008 Université du Québec à Montréal Complexe des Sciences Pierre Dansereau Building SH, 200 Sherbrooke Street West, Montreal, Quebec, Canada Abstracts 1 TABLE OF CONTENTS ABSTRACTS……………………………………………………………………………………...2 LIST OF PARTICIPANTS………………………………………………………………………66 Organizing commitee Organizers : Anne de Vernal GEOTOP-UQAM, Canada ([email protected]) André Rochon ISMER-UQAR, Canada ([email protected]) Scientific committee: Susan Carty, Heidelberg College, Ohio, USA ([email protected]) Lucy Edwards, US Geological Survey ([email protected]) Marianne Ellegaard, University of Copenhagen, Denmark ([email protected]) Martin J. Head, Brock University, Canada ([email protected]) Alexandra Kraberg, Alfred Wegener Institute for Polar and Marine Research, Germany ([email protected] ) Jane Lewis, University of Westminster, UK ([email protected] ) Fabienne Marret, University of Liverpool, UK ([email protected] ) Kazumi Matsuoka, University of Nagasaki, Japan ([email protected] ) Jens Matthiessen, Alfred Wegener Institute for Polar and Marine Research, Germany ([email protected] ) Edwige Masure, Université Pierre et Marie Curie, France ([email protected] ) Marina Montresor, Stazione zoologica "Anton Dohrn" di Napoli, Italy ([email protected] ) Vera Pospelova, University of Victoria, Canada ([email protected] ) Suzanne Roy, ISMER-UQAR, Canada ([email protected]) Karin Zonneveld, University of Bremen, Germany ([email protected]) 2 ABSTRACTS Toxic blooms of Alexandrium fundyense in the Monitoring of the regional abundance of cysts may Gulf of Maine: the role of cysts in population thus hold the key to interannual forecasts of A. dynamics and long-term patterns of shellfish fundyense bloom severity in this region. toxicity This presentation will discuss these interannual changes in the context of the blooms that Don Anderson, Bruce A. Keafer, Kerry Norton, occurred before and after the mapping efforts and the Dennis J. McGillicuddy, Ruoying He, Cynthia H. temporal trends in PSP toxicity in the region over the Pilskaln, Darcie Couture and Jennifer L. Martin. last several decades as well. Evidence will be presented in support of the hypothesis that we have Resting cysts play important roles in bloom entered a “new era” that is likely to have sustained initiation, termination, and species dispersal for and significant blooms in the coming years to several important harmful algal blooms (HAB decades. A cyst seedbed-based conceptual model will species). Several studies have examined linkages be presented that is consistent with observed patterns between dinoflagellate cyst abundance and bloom of interannual to decadal variability in the severity of timing and location, but these efforts have typically blooms and shellfish toxicity in the Gulf of Maine. been over relatively small areas due to the difficulties Cyst-forming dinoflagellates and other and expense of mapping cysts over larger regions. phytoplankton species with resting stages are Here we present the results of five mapping surveys responsible for harmful algal blooms throughout the for living Alexandrium fundyense cysts in the Gulf of world. Our ability to map these stages and utilize Maine, each covering hundreds of km in the those observations to initialize hindcasts and forecasts alongshore direction, and 50 – 100 km in the offshore of bloom incidence is a major advancement in HAB (see Figure 1). The first survey in 1997 (augmented management. with Bay of Fundy data from 1982, 1983 & 1984) revealed a widespread cyst distribution, with two centers of abundance, one in the Bay of Fundy, and a The role of resuspension in the nearshore cyst second offshore of Casco and Penobscot Bays in dynamics of Alexandrium minutum (Dinophyceae) western Maine. The second survey (2004) shows a much larger cyst population, with approximately 10X Sílvia Anglès, Esther Garcés, Antoni Jordi and as many cysts in the western Maine seedbed area. Gotzon Basterretxea This was the cyst distribution that existed prior to, and undoubtedly contributed to, a massive 2005 A. Nearshore dinoflagellate blooms have fundyense bloom (“red tide”) in southern New recurrently occurred along the Mediterranean Sea England. The third survey was conducted after the since first blooms were reported back in the 60’s. It is 2005 bloom, and reveals levels of cysts in western a growing problem often associated to cultural Maine that are ~5X the 1997 levels, but ½ of the 2004 eutrophication that strikes with intensity in harbours, levels. No significant geographic expansion of cysts embayments, and coastal lagoons. Among other into southern waters was seen, as had been feared bloom forming species, Alexandrium minutum based on the high motile cell concentrations that (Dinophyceae) is widely distributed in the occurred in those waters during the 2005 bloom. The Mediterranean Sea and events of paralytic shellfish 2006 cyst map showed similar patterns to other years, poisoning (PSP) have been frequently associated with with approximately 30% fewer cysts than observed in this species. 2005. 2007 cyst abundance is 30% higher than the In the context of Mediterranean coastal historically high levels observed in 2004. The overall blooms, water confinement is known to be a pattern is thus one of large interannual variability, favouring factor from which A. minutum, benefits to with an apparent increase in recent years. produce extraordinary outbreaks with abundances Hindcasting studies using a physical- often exceeding 106 cells l-1 and durations that can biological numerical model demonstrate that a major expand for months. Harbours, ports and other cyst deposition or accumulation event was the protection structures confine coastal areas where dominant factor leading to the large A. fundyense turbulence and advective exchange is artificially bloom in the western GOM and southern New reduced. This is the case of Arenys de Mar harbor England in 2005 and that cyst abundance in Gulf of (NW Mediterranean), where recurrent blooms of A. Maine bottom sediments can be a first-order predictor minutum occurr every year since 1996. This of the magnitude of the resulting regional bloom. 3 recurrence is favoured by the existence of resting season, a dinoflagellate-dominated phytoplankton cysts accumulated in the sediment floor. assemblage was observed with few raphidophytes and During dormant stages, cyst abundances are cyanobacteria. Alexandrium minutum, a toxic determined by sediment conditions and dynamics. For microalgal species was observed during this time. In example, similarly to the planktonic stages, natural August, which is well into the southwest monsoon, mortality and grazing control cyst abundances in the two stations were dinoflagellate dominated while the sediment. Burial, reallocation within the substrate and rest were diatom dominated. These findings will be sedimentary transport also determine cyst analyzed together with environmental factors and the abundances. During the life stage transitions, presence of Alexandrium minutum cysts in these areas evidence shows that burial in anoxic sediments, low that may have contributed to such phytoplankton temperature and presence of sulfides in the sediment succession. can temporarily preclude mature cyst germination thereby controlling the bloom onset. In the open sea maximum accumulation of Taxonomic analysis of littke-known thecate dormant stages are often not right under the bloom planktonic dinoflagellates from the tropical shadow but in deep basins at the continental slope or Mexican Pacific in coastal areas. Conversely, in enclosed sites, relationships between planktonic and benthic stages Sofia Barón-Campis, D. Hernandez-Becerril, C. are more straightforward. In general, accumulation of Ramirez-Camarena, R. Rojas-Crisostomo and H. fine sediments in areas of reduced energy present Ramirez-Garcia higher cyst abundances suggesting that dormant stages behave as passive particles becoming part of Thecate dinoflagellates species of the genera the sediment dynamics. Although some of the aspects Ensiculifera, Fragilidium, Heterocapsa, of the mechanisms that regulate the fate of cysts in Pentapharsodinium and Scripssiella are marine and the sediment can be anticipated based on their free-living, solitary forms, small-sized generally (less morphological characteristics (mainly size and than 35 µm), which may produce calcareous cysts, density) most of the features of cyst dynamics remain some also may produce toxins and that are usually to be elucidated. neglected in routine phytoplankton analysis. From the In this study, we investigate the resting cyst existing species of the five genera (5, 5, 12, 2 and 19, dynamics of A. minutum in the Arenys de Mar harbor respectively, from a marine dinoflagellates’s world related to the seiching motion. Seiches are natural list,
Load more

Recommended publications
  • Cambrian Phytoplankton of the Brunovistulicum – Taxonomy and Biostratigraphy
    MONIKA JACHOWICZ-ZDANOWSKA Cambrian phytoplankton of the Brunovistulicum – taxonomy and biostratigraphy Polish Geological Institute Special Papers,28 WARSZAWA 2013 CONTENTS Introduction...........................................................6 Geological setting and lithostratigraphy.............................................8 Summary of Cambrian chronostratigraphy and acritarch biostratigraphy ...........................13 Review of previous palynological studies ...........................................17 Applied techniques and material studied............................................18 Biostratigraphy ........................................................23 BAMA I – Pulvinosphaeridium antiquum–Pseudotasmanites Assemblage Zone ....................25 BAMA II – Asteridium tornatum–Comasphaeridium velvetum Assemblage Zone ...................27 BAMA III – Ichnosphaera flexuosa–Comasphaeridium molliculum Assemblage Zone – Acme Zone .........30 BAMA IV – Skiagia–Eklundia campanula Assemblage Zone ..............................39 BAMA V – Skiagia–Eklundia varia Assemblage Zone .................................39 BAMA VI – Volkovia dentifera–Liepaina plana Assemblage Zone (Moczyd³owska, 1991) ..............40 BAMA VII – Ammonidium bellulum–Ammonidium notatum Assemblage Zone ....................40 BAMA VIII – Turrisphaeridium semireticulatum Assemblage Zone – Acme Zone...................41 BAMA IX – Adara alea–Multiplicisphaeridium llynense Assemblage Zone – Acme Zone...............42 Regional significance of the biostratigraphic
    [Show full text]
  • Molecular Data and the Evolutionary History of Dinoflagellates by Juan Fernando Saldarriaga Echavarria Diplom, Ruprecht-Karls-Un
    Molecular data and the evolutionary history of dinoflagellates by Juan Fernando Saldarriaga Echavarria Diplom, Ruprecht-Karls-Universitat Heidelberg, 1993 A THESIS SUBMITTED IN PARTIAL FULFILMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY in THE FACULTY OF GRADUATE STUDIES Department of Botany We accept this thesis as conforming to the required standard THE UNIVERSITY OF BRITISH COLUMBIA November 2003 © Juan Fernando Saldarriaga Echavarria, 2003 ABSTRACT New sequences of ribosomal and protein genes were combined with available morphological and paleontological data to produce a phylogenetic framework for dinoflagellates. The evolutionary history of some of the major morphological features of the group was then investigated in the light of that framework. Phylogenetic trees of dinoflagellates based on the small subunit ribosomal RNA gene (SSU) are generally poorly resolved but include many well- supported clades, and while combined analyses of SSU and LSU (large subunit ribosomal RNA) improve the support for several nodes, they are still generally unsatisfactory. Protein-gene based trees lack the degree of species representation necessary for meaningful in-group phylogenetic analyses, but do provide important insights to the phylogenetic position of dinoflagellates as a whole and on the identity of their close relatives. Molecular data agree with paleontology in suggesting an early evolutionary radiation of the group, but whereas paleontological data include only taxa with fossilizable cysts, the new data examined here establish that this radiation event included all dinokaryotic lineages, including athecate forms. Plastids were lost and replaced many times in dinoflagellates, a situation entirely unique for this group. Histones could well have been lost earlier in the lineage than previously assumed.
    [Show full text]
  • Patrons De Biodiversité À L'échelle Globale Chez Les Dinoflagellés
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emerciements* ! Remerciements* A!l'issue!de!ce!travail!de!recherche!et!de!sa!rédaction,!j’ai!la!preuve!que!la!thèse!est!loin!d'être!un!travail! solitaire.! En! effet,! je! n'aurais! jamais! pu! réaliser! ce! travail! doctoral! sans! le! soutien! d'un! grand! nombre! de! personnes!dont!l’amitié,!la!générosité,!la!bonne!humeur%et%l'intérêt%manifestés%à%l'égard%de%ma%recherche%m'ont% permis!de!progresser!dans!cette!phase!délicate!de!«!l'apprentiGchercheur!».!
    [Show full text]
  • FIRST RECORD of Erythropsidinium Agile (GYMNODINIALES: WARNOWIACEAE) in the MEXICAN PACIFIC
    CICIMAR Oceánides 25(2): 137-142 (2010) FIRST RECORD OF Erythropsidinium agile (GYMNODINIALES: WARNOWIACEAE) IN THE MEXICAN PACIFIC Primer registro de Erythropsidinium agile et Swezy, 1921, Proterythropsis Kofoid et Swezy, (Gymnodiniales: Warnowiaceae) en el 1921, Warnowia Lindemann, 1928, Greuetodinium Pacífico Mexicano Loeblich III, 1980, and Erythropsidinium P.C. Silva, 1960. Ten species of Erythropsidinium have been RESUMEN. Se registra por primera vez Erythropsi- described from warm and temperate seas. However, dinium agile, un dinoflagelado de la Familia Warno- a taxonomical study based on the changes in struc- wiaceae para el Pacífico Mexicano, dentro de Bahía ture, position, and coloration of the ocelloid in the de La Paz (Golfo de California). Se observaron 26 course of the cell division or individual development ejemplares de E. agile, principalmente en muestras revealed that some species had different morpho- de fitoplancton de red para el periodo de estudio (Ju- types (Elbrächter, 1979). At present the valid species nio, 2006 a Junio, 2010). En muestras de botella se currently considered to belong to this genus are: estimaron densidades entre 80 y 1000 cél. L–1. Los ejemplares de E. agile mostraron gran variación en E. agile (Hertwig, 1884) P.C. Silva, 1960, E. cochlea forma, tamaño y coloración; se presentaron princi- (Schütt, 1895) P.C. Silva, 1960, E. extrudens (Ko- palmente en el período invierno-primavera, cuando foid et Swezy, 1921) P.C. Silva, 1960, and E. minus la columna del agua está homogénea, a temperatu- (Kofoid et Swezy, 1921) P.C. Silva, 1960. For the ras entre 19 y 22 °C y rica en nutrientes.
    [Show full text]
  • The Plankton Lifeform Extraction Tool: a Digital Tool to Increase The
    Discussions https://doi.org/10.5194/essd-2021-171 Earth System Preprint. Discussion started: 21 July 2021 Science c Author(s) 2021. CC BY 4.0 License. Open Access Open Data The Plankton Lifeform Extraction Tool: A digital tool to increase the discoverability and usability of plankton time-series data Clare Ostle1*, Kevin Paxman1, Carolyn A. Graves2, Mathew Arnold1, Felipe Artigas3, Angus Atkinson4, Anaïs Aubert5, Malcolm Baptie6, Beth Bear7, Jacob Bedford8, Michael Best9, Eileen 5 Bresnan10, Rachel Brittain1, Derek Broughton1, Alexandre Budria5,11, Kathryn Cook12, Michelle Devlin7, George Graham1, Nick Halliday1, Pierre Hélaouët1, Marie Johansen13, David G. Johns1, Dan Lear1, Margarita Machairopoulou10, April McKinney14, Adam Mellor14, Alex Milligan7, Sophie Pitois7, Isabelle Rombouts5, Cordula Scherer15, Paul Tett16, Claire Widdicombe4, and Abigail McQuatters-Gollop8 1 10 The Marine Biological Association (MBA), The Laboratory, Citadel Hill, Plymouth, PL1 2PB, UK. 2 Centre for Environment Fisheries and Aquacu∑lture Science (Cefas), Weymouth, UK. 3 Université du Littoral Côte d’Opale, Université de Lille, CNRS UMR 8187 LOG, Laboratoire d’Océanologie et de Géosciences, Wimereux, France. 4 Plymouth Marine Laboratory, Prospect Place, Plymouth, PL1 3DH, UK. 5 15 Muséum National d’Histoire Naturelle (MNHN), CRESCO, 38 UMS Patrinat, Dinard, France. 6 Scottish Environment Protection Agency, Angus Smith Building, Maxim 6, Parklands Avenue, Eurocentral, Holytown, North Lanarkshire ML1 4WQ, UK. 7 Centre for Environment Fisheries and Aquaculture Science (Cefas), Lowestoft, UK. 8 Marine Conservation Research Group, University of Plymouth, Drake Circus, Plymouth, PL4 8AA, UK. 9 20 The Environment Agency, Kingfisher House, Goldhay Way, Peterborough, PE4 6HL, UK. 10 Marine Scotland Science, Marine Laboratory, 375 Victoria Road, Aberdeen, AB11 9DB, UK.
    [Show full text]
  • C IESM Workshop Monographs the Messinian Salinity
    C IESM Workshop Monographs The Messinian Salinity Crisis from mega-deposits to microbiology - A consensus report Almeria, 7-10 November 2007 CIESM Workshop Monographs ◊ 33. To be cited as: CIESM, 2008. The Messinian Salinity Crisis from mega-deposits to microbiology - A consensus report. N° 33 in CIESM Workshop Monographs [F. Briand, Ed.], 168 pages, Monaco. This collection offers a broad range of titles in the marine sciences, with a particular focus on emerging issues. The Monographs do not aim to present state-of-the-art reviews; they reflect the latest thinking of researchers gathered at CIESM invitation to assess existing knowledge, confront their hypotheses and perspectives, and to identify the most interesting paths for future action. A collection founded and edited by Frédéric Briand. Publisher : CIESM, 16 bd de Suisse, MC-98000, Monaco. THE MESSINIAN SALINITY CRISIS FROM MEGA-DEPOSITS TO MICROBIOLOGY - A CONSENSUS REPORT – Almeria, 7-10 November 2007 CONTENTS I – EXECUTIVE SUMMARY . 7 1. Introduction 1.1 The controversy 1.2 The Messinian Salinity Crisis of the Mediterranean area: unravelling the mechanisms of environmental changes 1.3 MSC implications 1.4 MSC and the biology of extreme environments 2. Past research 2.1 Evaporite facies and MSC scenarios 2.2 An astrochronology for the Messinian Salinity Crisis 2.3 Correlation with oxygen isotope records 2.4 Stepwise restriction of the Mediterranean 2.5 Outcrop and offshore perspectives 2.6 Mediterranean hydrologic budget and MSC modelling 2.7 Salt tectonics 2.8 Indirect observations for deep-basin underlying evaporites 2.9 Deep and shallow salt biosphere 3. Discussing a new MSC scenario 3.1 A possible chronology 3.1.1 Step 1: 5.96 – 5.6 Ma - MSC onset and first evaporitic stage 3.1.2 Step 2 • Stage 2.1: 5.6 – 5.55 Ma - MSC acme • Stage 2.2: 5.55 – 5.33 Ma - Upper Evaporites and Lago Mare event(s) 3.2 MSC in the Paratethys 3.3 The microbial perspective of MSC 4.
    [Show full text]
  • Ecosystems Mario V
    Ecosystems Mario V. Balzan, Abed El Rahman Hassoun, Najet Aroua, Virginie Baldy, Magda Bou Dagher, Cristina Branquinho, Jean-Claude Dutay, Monia El Bour, Frédéric Médail, Meryem Mojtahid, et al. To cite this version: Mario V. Balzan, Abed El Rahman Hassoun, Najet Aroua, Virginie Baldy, Magda Bou Dagher, et al.. Ecosystems. Cramer W, Guiot J, Marini K. Climate and Environmental Change in the Mediterranean Basin -Current Situation and Risks for the Future, Union for the Mediterranean, Plan Bleu, UNEP/MAP, Marseille, France, pp.323-468, 2021, ISBN: 978-2-9577416-0-1. hal-03210122 HAL Id: hal-03210122 https://hal-amu.archives-ouvertes.fr/hal-03210122 Submitted on 28 Apr 2021 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Climate and Environmental Change in the Mediterranean Basin – Current Situation and Risks for the Future First Mediterranean Assessment Report (MAR1) Chapter 4 Ecosystems Coordinating Lead Authors: Mario V. Balzan (Malta), Abed El Rahman Hassoun (Lebanon) Lead Authors: Najet Aroua (Algeria), Virginie Baldy (France), Magda Bou Dagher (Lebanon), Cristina Branquinho (Portugal), Jean-Claude Dutay (France), Monia El Bour (Tunisia), Frédéric Médail (France), Meryem Mojtahid (Morocco/France), Alejandra Morán-Ordóñez (Spain), Pier Paolo Roggero (Italy), Sergio Rossi Heras (Italy), Bertrand Schatz (France), Ioannis N.
    [Show full text]
  • Distribution of Marine Palynomorphs in Surface Sediments, Prydz Bay, Antarctica
    DISTRIBUTION OF MARINE PALYNOMORPHS IN SURFACE SEDIMENTS, PRYDZ BAY, ANTARCTICA Claire Andrea Storkey A thesis submitted to Victoria University of Wellington in fulfilment of the requirements for the degree Masters of Science in geology School of Earth Sciences Victoria University of Wellington April 2006 ABSTRACT Prydz Bay Antarctica is an embayment situated at the ocean-ward end of the Lambert Glacier/Amery Ice Shelf complex East Antarctica. This study aims to document the palynological assemblages of 58 surface sediment samples from Prydz Bay, and to compare these assemblages with ancient palynomorph assemblages recovered from strata sampled by drilling projects in and around the bay. Since the early Oligocene, terrestrial and marine sediments from the Lambert Graben and the inner shelf areas in Prydz Bay have been the target of significant glacial erosion. Repeated ice shelf advances towards the edge of the continental shelf redistributed these sediments, reworking them into the outer shelf and Prydz Channel Fan. These areas consist mostly of reworked sediments, and grain size analysis shows that finer sediments are found in the deeper parts of the inner shelf and the deepest areas on the Prydz Channel Fan. Circulation within Prydz Bay is dominated by a clockwise rotating gyre which, together with coastal currents and ice berg ploughing modifies the sediments of the bay, resulting in the winnowing out of the finer component of the sediment. Glacial erosion and reworking of sediments has created four differing environments (Prydz Channel Fan, North Shelf, Mid Shelf and Coastal areas) in Prydz Bay which is reflected in the palynomorph distribution. Assemblages consist of Holocene palynomorphs recovered mostly from the Mid Shelf and Coastal areas and reworked palynomorphs recovered mostly from the North Shelf and Prydz Channel Fan.
    [Show full text]
  • Sponges Cnidarians Chordates Brachiopods Annelids Molluscs Ediacaran Arthropods 635 Cambrian PALEOZOIC PROTEROZOIC 605 Time (Mil
    © 2014 Pearson Education, Inc. 1 Sponges Cnidarians Echinoderms Chordates Brachiopods Annelids Molluscs Arthropods PROTEROZOIC PALEOZOIC Ediacaran Cambrian 635 605 575 545 515 485 0 Time (millions of years age) © 2014 Pearson Education, Inc. 2 Food particles in mucus Choanocyte Collar Flagellum Choanocyte Phagocytosis of Amoebocyte food particles Pores Spicules Water flow Amoebocytes Azure vase sponge (Callyspongia plicifera) © 2014 Pearson Education, Inc. 3 (a) Hydrozoa (b) Scyphozoa (c) Anthozoa © 2014 Pearson Education, Inc. 4 15 µm 75 µm (a) Valeria (800 mya): (b) Spiny acritarch roughly spherical, no (575 mya): about five structural defenses, times larger than soft-bodied Valeria and covered in hard spines © 2014 Pearson Education, Inc. 5 (a) Radial symmetry (b) Bilateral symmetry © 2014 Pearson Education, Inc. 6 Body cavity Body covering (from ectoderm) Tissue layer lining body cavity and suspending Digestive tract internal organs (from endoderm) (from mesoderm) © 2014 Pearson Education, Inc. 7 Porifera Metazoa Ctenophora ANCESTRAL Eumetazoa PROTIST Cnidaria Deuterostomia Hemichordata 770 million Echinodermata years ago 680 million Chordata years ago Lophotrochozoa Lophotrochozoa Platyhelminthes Bilateria Rotifera Ectoprocta Brachiopoda 670 million years ago Mollusca Ecdysozoa Annelida Nematoda Arthropoda © 2014 Pearson Education, Inc. 8 © 2014 Pearson Education, Inc. 9 Notochord Dorsal, hollow nerve cord Muscle segments Mouth Anus Post-anal tail Pharyngeal slits or clefts © 2014 Pearson Education, Inc. 10 (a) Lancelet (b) Tunicate
    [Show full text]
  • Characterising Planktonic Dinoflagellate Diversity in Singapore Using DNA Metabarcoding
    Metabarcoding and Metagenomics 2: 1–14 DOI 10.3897/mbmg.2.25136 Research Article Characterising planktonic dinoflagellate diversity in Singapore using DNA metabarcoding Yue Sze1, Lilibeth N. Miranda2, Tsai Min Sin2,†, Danwei Huang1,2 1 Department of Biological Sciences, National University of Singapore, Singapore 117558, Singapore. 2 Tropical Marine Science Institute, National University of Singapore, Singapore 119227, Singapore. † Deceased. Corresponding author: Danwei Huang ([email protected]) Academic editor: Thorsten Stoeck | Received 19 March 2018 | Accepted 24 April 2018 | Published 17 May 2018 Abstract Dinoflagellates are traditionally identified morphologically using microscopy, which is a time-consuming and labour-intensive process. Hence, we explored DNA metabarcoding using high-throughput sequencing as a more efficient way to study planktonic dinoflagellate diversity in Singapore’s waters. From 29 minimally pre-sorted water samples collected at four locations in western Singapore, DNA was extracted, amplified and sequenced for a 313-bp fragment of the V4–V5 region in the 18S ribosomal RNA gene. Two sequencing runs generated 2,847,170 assembled paired-end reads, corresponding to 573,176 unique sequences. Sequenc- es were clustered at 97% similarity and analysed with stringent thresholds (≥150 bp, ≥20 reads, ≥95% match to dinoflagellates), recovering 28 dinoflagellate taxa. Dinoflagellate diversity captured includes parasitic and symbiotic groups which are difficult to identify morphologically. Richness is similar between the inner and outer West Johor Strait, but variations in community structure are apparent, likely driven by environmental differences. None of the taxa detected in a recent phytoplankton bloom along the West Johor Strait have been recovered in our samples, suggesting that background communities are distinct from bloom communities.
    [Show full text]
  • New Dinoflagellate Cyst and Acritarch Taxa from the Pliocene and Pleistocene of the Eastern North Atlantic (DSDP Site 610)
    Journal of Systematic Palaeontology 6 (1): 101–117 Issued 22 February 2008 doi:10.1017/S1477201907002167 Printed in the United Kingdom C The Natural History Museum New dinoflagellate cyst and acritarch taxa from the Pliocene and Pleistocene of the eastern North Atlantic (DSDP Site 610) Stijn De Schepper∗ Cambridge Quaternary, Department of Geography, University of Cambridge, Downing Place, Cambridge CB2 3EN, United Kingdom Martin J. Head† Department of Earth Sciences, Brock University, 500 Glenridge Avenue, St. Catharines, Ontario L2S 3A1, Canada SYNOPSIS A palynological study of Pliocene and Pleistocene deposits from DSDP Hole 610A in the eastern North Atlantic has revealed the presence of several new organic-walled dinoflagellate cyst taxa. Impagidinium cantabrigiense sp. nov. first appeared in the latest Pliocene, within an inter- val characterised by a paucity of new dinoflagellate cyst species. Operculodinium? eirikianum var. crebrum var. nov. is mostly restricted to a narrow interval near the Mammoth Subchron within the Plio- cene (Piacenzian Stage) and may be a morphological adaptation to the changing climate at that time. An unusual morphotype of Melitasphaeridium choanophorum (Deflandre & Cookson, 1955) Harland & Hill, 1979 characterised by a perforated cyst wall is also documented. In addition, the stratigraphic utility of small acritarchs in the late Cenozoic of the northern North Atlantic region is emphasised and three stratigraphically restricted acritarchs Cymatiosphaera latisepta sp. nov., Lavradosphaera crista gen. et sp. nov.
    [Show full text]
  • Eighth International Conference on Modern and Fossil Dinoflagellates
    0 DINO8 Eighth International Conference on Modern and Fossil Dinoflagellates May 4 to May 10, 2008 Université du Québec à Montréal Complexe des Sciences Pierre Dansereau Building SH, 200 Sherbrooke Street West, Montreal, Quebec, Canada Abstracts 1 TABLE OF CONTENTS ABSTRACTS……………………………………………………………………………………...2 LIST OF PARTICIPANTS………………………………………………………………………66 Organizing commitee Organizers : Anne de Vernal GEOTOP-UQAM, Canada ([email protected]) André Rochon ISMER-UQAR, Canada ([email protected]) Scientific committee: Susan Carty, Heidelberg College, Ohio, USA ([email protected]) Lucy Edwards, US Geological Survey ([email protected]) Marianne Ellegaard, University of Copenhagen, Denmark ([email protected]) Martin J. Head, Brock University, Canada ([email protected]) Alexandra Kraberg, Alfred Wegener Institute for Polar and Marine Research, Germany ([email protected] ) Jane Lewis, University of Westminster, UK ([email protected] ) Fabienne Marret, University of Liverpool, UK ([email protected] ) Kazumi Matsuoka, University of Nagasaki, Japan ([email protected] ) Jens Matthiessen, Alfred Wegener Institute for Polar and Marine Research, Germany ([email protected] ) Edwige Masure, Université Pierre et Marie Curie, France ([email protected] ) Marina Montresor, Stazione zoologica "Anton Dohrn" di Napoli, Italy ([email protected] ) Vera Pospelova, University of Victoria, Canada ([email protected] ) Suzanne Roy, ISMER-UQAR, Canada ([email protected]) Karin Zonneveld, University of Bremen, Germany ([email protected]) 2 ABSTRACTS Toxic blooms of Alexandrium fundyense in the Monitoring of the regional abundance of cysts may Gulf of Maine: the role of cysts in population thus hold the key to interannual forecasts of A. dynamics and long-term patterns of shellfish fundyense bloom severity in this region.
    [Show full text]