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Bruno A. S. de Medeiros, Ph.D. Dept. of Organismic & Evolutionary Biology Harvard University 26 Oxford St, Museum of Comparative Zoology, Cambridge – MA 02138 [email protected]; www.brunodemedeiros.me RESEARCH & TEACHING INTERESTS I am an evolutionary biologist interested in understanding how species interactions create and maintain diversity. My main study organisms are insects and palm trees. Most of my research involves fieldwork, the documentation of species and their natural history, ecology, and evolutionary genomics. RESEARCH EXPERIENCE 2018- Postdoctoral Fellow, Dept. of Organismic & Evolutionary Biology Harvard University, Cambridge, MA, USA Faculty Advisor: Brian D. Farrell Project: Population genomics of Atlantic Forest mosquitoes that vector bird malaria Funding: Climate Change Solutions Fund, Harvard University EDUCATION 2018 Ph.D. in Organismic & Evolutionary Biology, Harvard University. Thesis: The Evolution of Syagrus palms and their insect pollinators Faculty Advisor: Brian D. Farrell 2011 M.Sc. in Zoology, University of São Paulo, São Paulo, Brazil. Thesis: Phylogenetic analysis and systematic revision of the genus Anchylorhynchus Schoenherr, 1836 (Curculionidae: Derelomini), using discrete and continuous morphological characters Faculty Advisor: Sergio A. Vanin 2008 B.Sc. in Biological Sciences, University of São Paulo Thesis: Insect attraction to artificial lighting, focusing on Coleoptera Faculty Advisor: Sergio A. Vanin PUBLICATIONS Preprints and Manuscripts under Review 1. de Medeiros BAS, Núñez-Avellaneda LA, Hernandez AM, Farrell BD. Flowers visitors of the licuri palm (Syagrus coronata): brood pollinators coexist with a diverse community of antagonists and mutualists. Biological Journal of the Linnean Society 2. Church SH, Donoughe S, de Medeiros BAS, Extavour CG. 2018. Insect egg size and shape evolve with ecology, not developmental rate. bioRxiv: 471946. (in review) 3. Church SH, Donoughe S, de Medeiros BAS, Extavour CG. 2018. A database of egg size and shape from more than 6,700 insect species. bioRxiv: 471953. (accepted, Scientific Data) Published Research 4. de Medeiros BAS, Farrell BD. 2018. Whole-genome amplification in double-digest RADseq results in adequate libraries but fewer sequenced loci. PeerJ 6:e5089. DOI: 10.7717/peerj.5089. 5. McKenna DD, Clarke DJ, Anderson R, Astrin JJ, Brown S, Chamorro L, Davis SR, de Medeiros BAS, et al. 2018. Morphological and molecular perspectives on the phylogeny, evolution, and classification of weevils (Coleoptera: Curculionoidea): Proceedings from the 2016 International Weevil Meeting. Diversity 10:64. 6. Kim S, de Medeiros BAS, Byun BK, Lee S, Kang JH, Lee B, Farrell BD. 2018. West meets East: How do rainforest beetles become circum-Pacific? Evolutionary origin of Callipogon relictus and allied species (Cerambycidae: Prioninae) in the New and Old Worlds. Molecular Phylogenetics and Evolution 125:163–176. DOI: 10.1016/j.ympev.2018.02.019. 7. de Medeiros BAS, Barghini A, Vanin SA. 2017. Streetlights attract a broad array of beetle species. Revista Brasileira de Entomologia 61:74–79. DOI: 10.1016/j.rbe.2016.11.004. 8. de Medeiros BAS, Bená DC, Vanin SA. 2014. Curculio Curculis lupus: biology, behavior and morphology of immatures of the cannibal weevil Anchylorhynchus eriospathae G. G. Bondar, 1943. PeerJ 2: e502. 9. Vanin SA & de Medeiros BAS. 2013. A new species of Sicoderus Vanin from Bolivia (Coleoptera: Curculionidae: Curculioninae: Otidocephalini). Zootaxa 3734: 81–85. 10. Valente RM, de Medeiros BAS. 2013. A new species of Anchylorhynchus Schoenherr (Coleoptera: Curculionidae) from the Amazon, with a record of a new host palm for the genus. Zootaxa, 3709(4), 394–400. doi:10.11646/zootaxa.3709.4.6 11. de Medeiros BAS, Núñez-avellaneda LA. 2013. Three new species of Anchylorhynchus Schoenherr, 1836 from Colombia (Coleoptera: Curculionidae; Curculioninae; Acalyptini). Zootaxa, 3636(2), 394–400. doi:10.11646/zootaxa.3636.2.10 12. Barghini A, de Medeiros BAS. 2012. UV radiation as an attractor for insects. Leukos 9(1):47-56. doi:10.1582/LEUKOS.2012.09.01.003 13. Barghini A, de Medeiros BAS. 2010. Artificial lighting as a vector attractant and cause of disease diffusion. Environmental Health Perspectives 118(11):1503-1506. doi:10.1289/ehp.1002115 PRESENTATIONS Conference Talks 2017 Population divergences of palm flower weevils: Differences between mutualists and antagonists Conference: Entomology 2017, Denver, CO 2016 Effects of insect-host interactions on the diversification of palm weevils Conference: XXV International Congress of Entomology, Orlando, USA 2016 Genomics and natural history in weevil evolution: a case study with palm weevils Conference: 2016 International Weevil Meeting, Orlando, USA 2015 Effects of insect-host interaction on population genetic divergences in a community of palm weevils Conference: Evolution 2015, Guarujá, Brazil Posters 2 2011 An evaluation of methods of phylogeny reconstruction based on quantitative morphological characters Conference: 1st Joint Congress on Evolutionary Biology, Ottawa, Canada TEACHING & ADVISING EXPERIENCE Teaching Assistant for Term-Time Courses Responsibilities included developing new class materials, leading class discussions, supervising labs, grading all assignments, and meeting with students individually. • Biogeography OEB141 2015, Harvard University. 10 students. • Foundations of Biological Diversity OEB10 2012, Harvard University. 50 students. • Impacts of Artificial Lighting on the Environment 2010, online, University of São Paulo. 10 students • Evolutionary Biology 2010, University of São Paulo. 60 students • Invertebrates 2007, University of São Paulo. 120 students • Evolutionary Processes 2006, University of São Paulo. 120 students • Principles of Systematics & Biogeography 2004, University of São Paulo. 120 students Workshop Instructor Gorongosa Phylogenetics Workshop 2016, Gorongosa National Park, Mozambique. 6 students. I was the sole instructor of this one-week long workshop, invited by the Gorongosa National Park. My responsibilities included designing the whole course, including lectures and computer labs. Pedagogical Training 2015 Mentoring Workshop, Life Sciences Education Office, Harvard University. 2012 Derek Bok Center Fall Teaching Conference, Harvard Univerisity. 2009 Teacher Licensure in Biological Sciences, University of São Paulo. Advising Experience 4 undergraduate students as lab assistants at Harvard University (2013-), currently advising one of them in a Senior thesis. FELLOWSHIPS & AWARDS Fellowships 2016-2017 Jorge Paulo Lemann Fellowship for Research in Brazil, Harvard University 2009-2011 M.Sc. Fellowship, São Paulo Research Foundation, Brazil 2007-2008 Scientific Initiation Fellowship, São Paulo Research Foundation, Brazil 2007 Santander Scholarship for exchange study in Latin American and Iberian countries, Bank Santander, Brazil 2005-2006 Scientific Initiation Fellowship, National Research Council, Brazil Research Grants 2017- Climate Change Solutions Fund, Harvard University (co-written with advisor Brian D. Farrell, $150,000) 2016-2018 National Science Foundation Doctoral Dissertation Improvement Grant ($21,970) 2013-2015 William F. Milton Fund, Harvard University (co-written with advisor Brian D. Farrell, $36,000) 3 Travel awards 2013-2014 Putnam Expedition Grant, Harvard University ($10,000) 2012-2016 Travel Grants, David Rockefeller Center for Latin American Studies, Harvard University ($6,000 total) Other awards 2016-2018 Graduate Student Associate, David Rockefeller Center for Latin American Studies, Harvard University 2015 Certificate of Distinction in Teaching, Harvard University PROFESSIONAL SERVICE Field Surveys 2013 1st Biological Survey of the Gorongosa National Park I participated in the first biological survey of the Gorongosa National Park, documented in the PBS series “Gorongosa, Rebirth of a Paradise” Conference Organization 2018 Amazonia and our Planetary Futures: a Conference on Climate Change This conference will take place on May 7-8, 2019 at Harvard University. Sponsored by the David Rockefeller Center for Latin American Studies, we aim for this to be a highly-visible gathering, leading to action. We will convene a select group of specialists and leaders from across the Americas to discuss the Amazon, its interactions with climate, public perceptions about conservation and climate change, and sustainable models in the region. Organizers: de Medeiros BAS, Carvalho BM, Farrell BD 2018 Brazil Conference The Brazil Conference is organized by Brazilian students at Harvard and MIT, bringing together leaders in politics, companies, nonprofits and academia to discuss ongoing issues in Brazil. I participated in the Content team for the 2018 edition. Outreach Cambridge Entomological Club, 2012-2017. I was member of the Executive Committee for 2 years, vice-president for one year (2012-2013) and president for another year (2014-2015). Professional memberships Entomological Society of America 2016- Coleopterists Society 2018- American Society of Naturalists 2017- 4 .
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    Zootaxa 3636 (2): 394–400 ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Article ZOOTAXA Copyright © 2013 Magnolia Press ISSN 1175-5334 (online edition) http://dx.doi.org/10.11646/zootaxa.3636.2.10 http://zoobank.org/urn:lsid:zoobank.org:pub:DAF9C653-02EF-42BB-A60B-B7418F3F26A1 Three new species of Anchylorhynchus Schoenherr, 1836 from Colombia (Coleoptera: Curculionidae; Curculioninae; Acalyptini) BRUNO A. S. DE MEDEIROS1 & LUIS A. NÚÑEZ-AVELLANEDA2 1Museum of Comparative Zoology, Department of Organismic and Evolutionary Biology, Harvard University. E-mail: [email protected] 2Grupo de Investigación de Palmas Silvestres Neotropicales. Universidad Nacional de Colombia, Ciudadela Universitaria Bogotá. E-mail:[email protected] Abstract Three new species of the genus Anchylorhynchus from Colombia, are described: Anchylorhynchus pinocchio sp. nov., A. centrosquamatus sp. nov. and A. luteobrunneus sp. nov.. A morphological description, including the male genitalia, is pro- vided for each species as well as a comparison with similar species within the genus. All three species are found in inflo- rescences of species of Syagrus Mart. (Arecaceae). The adults are pollinators and the larvae develop inside fruits and feed on the endosperm, interrupting seed formation and causing fruit abortion. Key words: palm, inflorescence, Arecaceae, Derelomina, biodiversity Introduction Anchylorhynchus Schoenherr, 1836 is a Neotropical genus distributed from Panama to Argentina. Among its 19 recognized species (O’Brien & Wibmer, 1982; Wibmer & O’Brien, 1986; Vanin, 1995), only four are found in the Amazon region (Anchylorhynchus amazonicus Voss, 1943; A. bicarinatus O’Brien, 1981; A. gottsbergerorum Vanin, 1995 and A. tricarinatus Vaurie, 1954), two of them (A. tricarinatus and A.
  • Supporting Information

    Supporting Information

    Supporting Information McKenna et al. 10.1073/pnas.0810618106 SI Materials and Methods alX 1.831 (4) using the default settings. The resulting alignment Taxon Sampling. We analyzed up to 8 kb of DNA sequence data for each gene was adjusted ‘‘by eye’’ in the program MacClade from a worldwide sample of 135 weevil genera representing all 4.06 (5). Regions of ambiguous alignment in 16S, 18S, and 28S, 7 weevil families, all 26 weevil subfamilies, and 97 genera and introns in EF 1-␣ and AK were removed. The individual representing most major tribes in the extraordinarily diverse alignments for each gene were then concatenated in MacClade, family Curculionidae (supporting information (SI) Table S1 and and the resulting aligned matrix (6 genes, Ϸ8 kb) used in Table S3). Outgroups included 7 subfamilies of basal Chry- subsequent analyses. someloidea and Ericmodes sylvaticus (Protocucujidae), a mem- ber of the closely related superfamily Cucujoidea. Six genes (2 Phylogenetic Analyses. Phylogenetic analyses were conducted on mitochondrial and 4 nuclear) were used in this study: cytochrome the 8-kb molecular supermatrix using Bayesian and ML infer- oxidase I, 18S rDNA, 28S rDNA, 16S rDNA, Elongation Factor-1a, ence. A partitioned ML BS analysis (1,000 inferences, 12 parti- and Arginine Kinase (AK). All 16S rDNA (1), and select other tions, CAT substitution model, individual per partition branch- sequences, were obtained from GenBank. For some genera, length optimization) was implemented in the program RAxML chimeras were constructed from sequences for different species version 7.04 (6) using the CIPRES cluster at the San Diego to reduce the amount of missing data.
  • Bruno A. S. De Medeiros, Ph.D. Smithsonian Tropical Research Institute Panama City, Panama Demedeirosb@Si.Edu

    Bruno A. S. De Medeiros, Ph.D. Smithsonian Tropical Research Institute Panama City, Panama [email protected]

    Bruno A. S. de Medeiros, Ph.D. Smithsonian Tropical Research Institute Panama City, Panama [email protected] www.brunodemedeiros.me RESEARCH INTERESTS I am an evolutionary biologist interested in the role of species interactions in creating and maintaining diversity, using plants and their insect flower visitors as model systems. My research involves fieldwork, systematics, natural history, and evolutionary genomics. EDUCATION AND APPOINTMENTS 2020- Postdoctoral Fellow, Smithsonian Tropical Research Institute, Panama Main supervisor: E. Allen Herre Project: Why do generalist palms have specialized brood pollinators? 2020- Research Associate, Museum of Comparative Zoology, Harvard University 2018-2019 Postdoctoral Fellow, Dept. of Organismic & Evolutionary Biology, Harvard University Supervisors: Brian Farrell and Gonzalo Giribet Projects: Insect population genomics, Phylogenomics of Ecdysozoa 2018 Ph.D. in Organismic & Evolutionary Biology, Harvard University Thesis: The Evolution of Syagrus palms and their insect pollinators Faculty Advisor: Brian D. Farrell 2011 M.Sc. in Zoology, University of São Paulo, São Paulo, Brazil Thesis: Phylogenetic analysis and systematic revision of the genus Anchylorhynchus Schoenherr, 1836 (Curculionidae: Derelomini), using discrete and continuous morphological characters Faculty Advisor: Sergio A. Vanin 2008 B.Sc. in Biological Sciences, University of São Paulo Thesis: Insect attraction to artificial lighting, focusing on Coleoptera Faculty Advisor: Sergio A. Vanin PUBLICATIONS Preprints and in review 1. Church SH, de Medeiros BAS, Donoughe S, Reyes NLM, Extavour CG. 2020. Repeated loss of variation in insect ovary morphology highlights the role of developmental constraint in life-history evolution. bioRxiv. DOI: 10.1101/2020.07.07.191940 Peer-reviewed 1. Chamorro L, de Medeiros BAS, Farrell BD. 2021. First phylogenetic analysis of Dryophthorinae (Coleoptera, Curculionidae) based on structural alignment of ribosomal DNA reveals Cenozoic diversification.
  • Annotated Checklist of the Weevils (Curculionidae Sensu Lato ) of North America, Central America, and the West Indies (Coleoptera: Curculionoidea)

    Annotated Checklist of the Weevils (Curculionidae Sensu Lato ) of North America, Central America, and the West Indies (Coleoptera: Curculionoidea)

    Annotated checklist of the weevils (Curculionidae sensu lato ) of North America, Central America, and the West Indies (Coleoptera: Curculionoidea) Charles W. O'Brien and Guillermo J. Wibmer INTRODUCTION This checklist treats the names of the 843 genera and 7,068 species (as well as their synonyms) currently recognized as valid that are found in the New World north of South America (except for those from Trinidad and Tobago which will be considered in a subsequent publication on South American Curculionidae sensu lato). The idea for a weevil checklist originated with Ross Arnett, Jr. as part of the North American Beetle Fauna Project. When this project was terminated in 1980, we decided to expand the scope of the checklist and publish it in an annotated form. While it owes its origin to the NABFP it is published independently of that organization. The checklists of the weevils of North America (Leng 1920, Leng and Mutchler 1927 and 1933, Blackwelder 1939, and Blackwelder and Blackwelder 1948), and of Mexico, Central America, the West Indies and South America (Blackwelder 1947) have become increasingly outdated because of numerous revisions and descriptions of new taxa. In this list we have added many new distribution records as well. We have attempted to follow the current classifications of most specialists, as published. For this reason the classification used here is not identical with that of the Coleopterorum Catalogus, the two checklists mentioned above, nor that used by Kissinger (1964). We have tried to verify all citations by checking original references and those "Not seen" are so marked in the bibliography.