Barcoding the Birds of North America

Slides:

Advertisements

Similar presentations

Admixture in Horse Breeds Illustrated from Single Nucleotide Polymorphism Data César Torres, Yaniv Brandvain University of Minnesota, Department of Plant.

Advertisements

DNA and tissue issues – databasing genetic resources at Museum Victoria Dianne Bray & Joanna Sumner Sciences, Museum Victoria 2014 Global EMu User Conference.

Success of DNA barcoding in distinguishing sister species of diverse clades of birds Allan Baker, Erika Tavares, Rebecca Elbourne Department of Natural.

Natalia V. Ivanova Paul D.N. Hebert EXPRESS BARCODES: Racing from Bugs to Identifications.

Developing Genetic Barcoding for use in Water Quality Studies Charles S. Spooner U.S. Environmental Protection Agency National Water Quality Monitoring.

NYBG + KE EMu The New York Botanical Garden + KE EMu Melissa Tulig Botanical Information Management.

BARCODING LIFE, ILLUSTRATED Goals, Rationale, Results ppt v1

Robert Hanner, PhD Database Working Group Chair, CBOL Global Campaign Coordinator, FISH-BOL Associate Director, Canadian Barcode of Life Network Biodiversity.

Wood frog adaptations to overwintering in Alaska: New limits to freezing tolerance DJ Larson, L Middle, and BM Barnes University of Alaska Fairbanks.

Diets of two human-subsidized predators, common raven and glaucous gull, on Alaska’s Coastal Plain Abby N. Powell, U.S. Geological Survey, Alaska Cooperative.

Individual variation in  D within a breeding population of American redstarts Kathryn M. Langin 1 *, Matthew W. Reudink 1 *, T. Kurt Kyser 2, D. Ryan.

Anopheles gambiae PopGenBase Groundwork for a vector population genetics database UC Davis - UCLA.

Bee Barcoding (Bee-BOL) Campaign J. Gibbs, L. Packer, C. Sheffield York University.

All Birds Barcoding Initiative (ABBI) goal: create DNA barcode library for world birds.

Ten species in one: DNA barcoding reveals cryptic species in the neotropical skipper butterfly Astraptes Fulgerator Paul Hebert, Erin Penton, John Burns,

Jonathan B. Puritz, Christopher M. Hollenbeck, and John R. Gold Fishing for selection, but only catching bias: library effects in double-digest RAD data.

Ferris et al PNAS 1981 Evolutionary tree of apes and humans based on cleavage maps of mtDNA Figure compares restriction fragments in humans and gorillas.

DIFFERENTIATION AND SYSTEMATICS IN THE LONG-TAILED GROUND SQUIRREL, SPERMOPHILUS UNDULATUS (SCIURIDAE, RODENTIA) Marina V. Tsvirka, Vladimir P. Korablev,

- Delphine MUTHS & Jérôme BOURJEA - Connectivity of Marine Protected Areas in South-Western Indian Ocean: Using population genetics of reef fish to contribute.

DNA BARCODING CHILLIES BIO-NERDS : Say Wah Yugraj Singh Tanja Obradovic Jenny Pham Lovita Bharossa Buai Chuol Diana Corzo.

Dan Masiga Molecular Biology and Biotechnology Department International Centre of Insect Physiology and Ecology, Nairobi, Kenya BARCODE Data Standard The.

Barcoding the Birds of Argentina Darío A. Lijtmaer 1 and Kevin C. R. Kerr 2 1 Museo Argentino de Ciencias Naturales “B. Rivadavia”, Argentina 2 University.

Barcoding the Fishes of North America Philip A. Hastings Scripps Institution of Oceanography University of California San Diego.

Ann Bucklin 1, Robert M. Jennings 1, Brian D. Ortman 1, Lisa Nigro 1, C.J. Sweetman 1, Nancy J. Copley 2, and Peter H. Wiebe 2 1 Department of Marine Sciences,

The Ocean Genome Legacy Daniel L. Distel, Ph.D., Executive Director, Ocean Genome Legacy Foundation.

Molecular Microbial Ecology

DNA Barcoding Amy Driskell Laboratories of Analytical Biology

Census of Marine Life, Amsterdam – 16 May 2006 The Protocol Chain for DNA Barcoding Projects.

Background  The soft shell clam, Mya arenaria, currently occupies a large geographical range in the northern hemisphere.  Soft shell clams are found.

Howard Hughes Medical Institute-NMSU Research Scholar

Robert Hanner, PhD Database Working Group Chair, CBOL Global Campaign Coordinator, FISH-BOL Associate Director, Canadian Barcode of Life Network Biodiversity.

Barcoding the Birds of the Palearctic Kevin C.R. Kerr University of Guelph Biodiversity Institute of Ontario Canada Collaborators: S. Birks, S. Rohwer,

BARCODE OF LIFE DATA SYSTEMS (BOLD) Riadul Mannan Biodiversity Institute of Ontario.

ABBI/FISH-BOL Neotropical Working Group Meeting 14 March 2007

Freek T. Bakker Nationaal Herbarium Nederland Wageningen University branch DNA barcoding: the CBOL perspective.

Progress since the February 2005 London DNA Barcode of Life Conference Scott Miller, Chair Consortium for the Barcode of Life Smithsonian Institution.

Aspects for Improving the ABBI Patricia Escalante Instituto de Biología UNAM AOU-Collections Committee member.

FISH SPECIES IDENTIFICATION AND BIODIVERSIFICATION IN ENUGU METROPOLIS RIVER BY DNA BACODING PRESENTED BY Chioma Nwakanma (PhD) Michael Okpara University.

PHYLOGEOGRAPHY OF THE BOBWHITES Damon Williford, Randy W. DeYoung, Leonard A. Brennan, Fidel Hernández Caesar Kleberg Wildlife Research Institute Texas.

Species boundaries, phylogeography and conservation genetics of the red- legged frog (Rana aurora/drytonii) complex Presented by: Chris Burton & Matt Meyer.

BioCASE – A Biological Collection Access Service for Europe BioCASE programme – questionnaires and user requirements The Irish National Node Workshop:

ISCC-meeting July 5, Current Status Coordinator from Nov. 2011: NTNU University Museum Memorandum of Understanding with 16 institutions in Norway.

Scratchpads and the new Biodiversity Data Journal Biodiversity Data Publishing made… easier Dimitris Koureas Natural History Museum London.

BARCODE Quality Assessment: Frequency Matrix Approach Mark Y Stoeckle, Rockefeller University Kevin C R Kerr, Royal Ontario Museum PLoS ONE August 2012.

The BARCODE Data Standard: CBOL’s Partnership with the International Nucleotide Sequence Database Collaboration (INSDC) David E. Schindel, Executive Secretary.

Marbank Marbank -a marine biobank located in Tromsø, Norway Kjersti Lie Gabrielsen.

Phylogeography of Leucetta chagosensis (Porifera, Calcarea) Christoph Flucke, Jens Kurz, Rasmus Liedigk, Zdenka Valenzova Fig.4: RAxML Phylogram Fig.5:

Characterization of a Local Population of Black-capped Chickadees (P. carolinensis), Carolina Chickadees (P. atricapillus), and their hybrids – a preliminary.

Fish -Nearly half of all vertebrates species : marine, freshwater species (Fish base) FISH-BOL(Fish Barcode of Life Initiative) -Establish.

The Smithsonian Bird Collection has more than 600,000 specimens representing 85% of known bird species and serves as the world’s best resource for birdstrike.

Cox1 Barcoding of Penicillium and Fusarium Keith A. Seifert, Scott Gilmore and Karol Rivera Biodiversity, Agriculture & Agri-Food Canada, Ottawa, Ontario,

Biomonitoring, but not as we know it: meeting the challenge of DNA-based observation in bioassessment Donald Baird Environment & Climate Change Canada.

Introduction Biodiversity is important in an ecosystem because it allows the species living in that ecosystem to adapt to changes made in the environment.

Introduction Biodiversity, in the simplest terms, means variation in living systems and that is extremely important to any habitat that wants to continue.

Using DNA Barcode to Identify Endangered Species Manhattan Center for Science and Mathematics 1, Hostos Lincoln Academy of Science 2, American Museum of.

DNA Barcoding: Analytical Capacity and Approaches Lee Weigt, Smithsonian Institution, LAB Introduction SI’s LAB & barcoding efforts Portion of the workflow.

PRELIMINARY CONCLUSIONS

Number of Sample Sequenced and analyzed

Evolutionary history of gorillas inferred from complete mitochondrial DNA sequences Das R1, Hergenrother SD1, Lurie-Marino M1, Soto-Calderón ID2,3, Anthony.

Introduction Conclusion References Aim of the work

Sayde Ridling University of Alaska Museum / Alaska EPSCoR

Taxonomic Placement of the Nidulariaceae of Nebraska and Iowa Based on Molecular and Morphological Data Goodmond H. Danielsen, Mark A. Schoenbeck, P. Roxanne.

Gene-sequence analysis reveals at least three species hidden in Zausodes arenicolus Erin Easton November 13, 2008.

Rachel Bautzmann, Mentor: Dr

Track the Split of Crocodile Sub Populations

Barcoding the Fishes of North America

Population Delineation and Sea Ducks presented to SDJV Continental Technical Team at November 2015 meeting John Pearce, USGS Alaska Science Center.

VIETNAM ACADEMY OF SCIENCE AND TECHNOLOGY

Joshua Antony1, Elizabeth Argiro2, and Benjamin tenOever3

DNA Barcoding of Ground Plants in Prospect Park

Presentation transcript:

Barcoding the Birds of North America Kevin C.R. Kerr University of Guelph Biodiversity Institute of Ontario Canada Collaborators: M.Y. Stoeckle, L.A. Weigt, C.J. Dove, C.M. Francis, P.D.N. Hebert

Introduction Preliminary birds study (Hebert et al. 2004) Specimens obtained from the Royal Ontario Museum: 260 species 130 with >2 replicates 437 sequences in total

Introduction The next steps are straightforward: Increase taxon density Increase replicates per species Illustrations © I. Lewington Map courtesy of “Birds of North American Online”

Analytical Chain Specimen Collection data Sample Photographs Extract Amplify Sequence Online barcode library

DNA sources Feathers were collected from banding stations across the country Tissues samples were loaned from museums; 96 well format matrix boxes facilitate the movement of tissue specimens

DNA sources Contributing Institutions: Royal Ontario Museum Burke Museum Canadian Wildlife Service Academy of Natural Sciences, Philadelphia American Museum of Natural History Field Museum Museum of Comparative Zoology Museum of Southwestern Biology Museum of Vertebrate Zoology National Museum of Natural History University of Alaska – Fairbanks University of Kansas

Methods The GenElute™ Mammalian Genomic DNA Purification Kit (Sigma-Aldrich) Silica-based membrane Individual tube format (2 ml tubes) Spin down on bench top centrifuge (allows 24 samples at a time)

Methods NucleoSpin® 96 Tissue (Machery-Nagel) Silica-based membrane 96-well plate format Requires larger high-speed centrifuge (2 plates at a time facilitates balancing) Supplemented in our lab with “Glass-Fibre” protocol (MUCH lower cost!)

Methods Biomek® NX automated workstation (Beckman Coulter)

Methods Our study provides evidence of the presence of pseudogenes in a few species (100-200bp) Not a problem with bidirectional sequencing Reverse Forward Contig Numt Numt 5’ 3’

Results Summary: 643 species (~93% coverage) 2,590 sequences 1-125 replicates per species Mean intraspecific distance = 0.23% (versus 0.27% from PLoS paper) Mean congeneric distance = 5.91% (versus 7.93% from PLoS paper) n = 24 n = 125

Species identification Example: Somateria complex Similar mtDNA sequences Barcodes are shared Horizontal transfer?

Species identification Pairs (14) = Species with unique barcodes Species with shared or overlapping barcodes = 6.4% Triplets (2) 93.6% White-headed gulls

Species “discovery” Example: Troglodytes troglodytes Of 405 new North American species inspected, 11 species harbour splits: Fulmarus glacialis Megascops kennicotti Toxostoma curvirostre* Psaltriparus minimus Poecile gambeli* Aphelocoma californica* Aphelocoma ultramarina Corvus corax* Troglodytes troglodytes* Thryomanes bewickii Catharus guttatus Eastern Western Outgroup 2% Divergence Western Eastern

Publication These findings were published last month in Molecular Ecology Notes (Kerr et al. 2007)

New results Summary: 654 species (up from 643) 3,412 sequences (up from 2,590) (plus impending sequences from collaborative projects on arctic geese and ptarmigan) n = 144 n > 300

Continued sampling Adequate geographical coverage is essential for uncovering deep genetic splits Range map of D. townsendi Range map of G. trichas Range map of C. americana

Continued sampling NJ tree for Certhia americana (eastern and western forms are 3.2% divergent)

Practical applications Unidentified hummingbird overwintering in Ontario Belongs to a complex of species difficult to identify DNA barcode was obtained from a single breast feather found in the snow, identifying this Rufous Hummingbird

Practical applications Barrow’s Goldeneye (B. islandica) is a rare species in eastern Canada DNA barcoding has been used to distinguish nest sites from its common cousin Bucephala islandica Bucephala clangula Barcodes are obtained from feathers used for nest lining © B. Gress

Future directions Number of Replicates per Species

Future directions Proportion of NA birds barcoded: 7% Remaining 93% Completed Map courtesy of “Birds of North American Online”, Image: © M. Danzenbaker

Acknowledgements Laboratory Collections Database Funding & Support The Hebert Lab Royal Ontario Museum Smithsonian Institution Burke Museum Smithsonian Institution Database Museum of Vertebrate Zoology BOLD Philadelphia Academy of Sciences Museum of Southwestern Biology American Museum of Natural History Funding & Support Louisiana State University Museum of Comparative Zoology The Moore Foundation Field Museum of Natural History Canadian Wildlife Service University of Kansas Federal Aviation Administration Bird banding stations