OVert: Open Exploration of Vertebrate Diversity in 3D
Digitization TCN: oVert: Open Exploration of Vertebrate Diversity in 3D
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Project Summary
The oVert (openVertebrate) Thematic Collection Network (TCN) will generate and serve high-resolution digital three-dimensional data for internal anatomy across vertebrate diversity. At a network of digitization centers across the US, we will CT-scan >20,000 fluid-preserved specimens representing >80% of the living genera of vertebrates. This will provide broad coverage for exploration and research on all major groups of vertebrates. We will also generate contrast-enhanced scans to reveal soft tissues and organs for a majority of the living vertebrate families. This collection of digital imagery and three-dimensional volumes will be open for exploration, download, and use to address questions related to the discovery of new species, documenting patterns of anatomical diversity and growth, and testing hypotheses of function and evolution. These new media will provide unprecedented global access to valuable specimens in US museum collections. Our network of leading US vertebrate collections will develop best practices and guidelines for high-throughput CT-scanning, including efficient workflows, preferred resolutions, and archival formats that optimize the variety of downstream applications. We will train museum specialists on the generation, curation, and distribution of 3D data, researchers in using 3D anatomical data, and high school and undergraduate students in the tools for creating 3D anatomical models. To drive the use of these digital specimens by K12 STEM educators, we will conduct teacher-driven workshops that generate freely available lesson plans focused on specific science standards that are based on digital and printed 3D models of specimens in US museum collections.
Data generated by oVert will serve as a catalyst for diverse research projects focused on understanding the vertebrate morphological diversity and dramatically increase the accessibility of specimens housed in US scientific collections. These anatomical phenotypes represent a common currency that facilitates integration across the fields of taxonomy, evolution, developmental biology, comparative physiology, functional anatomy, paleontology, and ecology. We will use x-ray computed tomography (CT) scanning to generate high-resolution digital anatomical data, represented as both 2D image stacks and 3D volumes and surfaces, which can be distributed globally through the on-line data portal MorphoSource. With these 3D digital specimens, US and international research communities will be able to (1) diagnose, describe, and infer patterns of relationships among both living and extinct vertebrates, (2) test hypotheses of morphological evolution such as patterns of disparity, modularity, and phenotype-environment correlations, (3) develop structure-function models for testing hypotheses about morphological adaptations related to, e.g., feeding and locomotion, and (4) explore relationships between brain and nervous system anatomy and both sensory and musculoskeletal function. We will upgrade the interface and functionality of MorphoSource, an on-line data depository for 3D data of biological specimens, improving its capacity to explore media, capture standardized metadata, ingest legacy data from previous and existing projects, supply media information to data aggregators including iDigBio, and engage educators and students. We will support training workshops both on-site at participating institutions and national society meetings of scientists and educators.
Current Research
Proposed research uses of data generated through oVert project include: 1) diagnose, describe, and infer patterns of relationships among both living and extinct vertebrates 2) test hypotheses of morphological evolution such as patterns of disparity, modularity, and phenotype-environment correlations 3) develop structure-function models for testing hypotheses about morphological adaptations related to, e.g., feeding and locomotion 4) explore intraspecific phenotypic diversity related to spatial variation and ontogenetic transformations 5) explore relationships between brain and nervous system anatomy and both sensory and musculoskeletal function.
Project Websites & Social Media
oVert FAQs: https://www.floridamuseum.ufl.edu/science/overt/
Citizen Science & Outreach Projects
Project Leadership
Project sponsor: University of Florida (NSF Award 1701714)
Principal Investigator (PI): David Blackburn
Project Collaborators
Map of Collaborating Institutions
University of Florida (lead)
University of Florida
David C. Blackburn, lead PI, Florida Museum of Natural History, University of Florida
Jonathan I. Bloch, CoPI, Florida Museum of Natural History, University of Florida
Gavin J.P. Naylor, CoPI, Florida Museum of Natural History , University of Florida
Edward L. Stanley, CoPI, Florida Museum of Natural History, University of Florida
https://www.morphosource.org/Detail/ProjectDetail/Show/project_id/211
Academy of Natural Sciences of Drexel University
Mark H. Sabaj, PI, Ichthyology, Academy of Natural Sciences of Drexel University (NSF Award 1701943)
California Academy of Sciences
Luiz A. Rocha, PI, Department of Ichthyology, California Academy of Sciences (NSF Award 1701870)
John (Jack) P. Dumbacher, CoPI, Department of Ornithology and Mammalogy, California Academy of Sciences
Cornell University
Casey B. Dillman, PI, Cornell University Museum of Vertebrates, Cornell University
David W. Winkler, CoPI, Cornell University Museum of Vertebrates, Cornell University
Amy R. McCune, CoPI, Cornell University Museum of Vertebrates, Cornell University
William E. Bemis, CoPI, Cornell University Museum of Vertebrates, Cornell University
Duke University
Douglas M. Boyer, CoPI on UF subaward, Department of Evolutionary Anthropology, Duke University
Field Museum of Natural History
John M. Bates, PI, Science and Education, Field Museum of Natural History (NSF Award 1702421 )
Alan Resetar, CoPI, Science and Education, Field Museum of Natural History
Ben D. Marks, CoPI, Science and Education, Field Museum of Natural History
Harvard University
James Hanken, PI, Museum of Comparative Zoology, Harvard University (NSF Award 1702263)
Louisiana State University & Agricultural and Mechanical College
Christopher C. Austin, PI, Museum of Natural Science, Louisiana State University & Agricultural and Mechanical College
Jake Esselstyn, CoPI, Museum of Natural Science, Louisiana State University & Agricultural and Mechanical College
Texas A&M University
Kevin W. Conway, PI, Department of Wildlife and Fisheries Science and Biodiversity Research and Teaching Collections, Texas A&M University
Heather L. Prestridge, CoPI, Department of Wildlife and Fisheries Science and Biodiversity Research and Teaching Collections, Texas A&M University
Sarah Potvin, CoPI, University Libraries, Texas A&M University
University of California, Berkeley
Carol L. Spencer, PI, Museum of Vertebrate Zoology, University of California, Berkeley (NSF Award 1701797)
Michelle S. Koo, CoPI, Museum of Vertebrate Zoology, University of California, Berkeley
University of California, San Diego, Scripps Institution of Oceanography
Philip A. Hastings, PI, Marine Vertebrate Collection, Scripps Institution of Oceanography, University of California San Diego (NSF Award 1701737)
Benjamin Frable, CoPI, Marine Vertebrate Collection, Scripps Institution of Oceanography, University of California San Diego
University of Chicago
Zhe-Xi Luo, CoPI, Research Associate in Integrative Research Center, and Department of Organismal Biology and Anatomy, University of Chicago
University of Kansas
Luke J. Welton, PI, Biodiversity Institute, University of Kansas (NSF Award 1701932)
A. Townsend Peterson, Co-PI, Biodiversity Institute, University of Kansas
Robert G. Moyle, CoPI, Biodiversity Institute, University of Kansas
Richard E. Glor, CoPI, Biodiversity Institute, University of Kansas
University of Michigan
Daniel L. Rabosky, PI, UM Museum of Zoology, University of Michigan (NSF Award 1701713)
Priscilla K. Tucker, Co-PI, UM Museum of Zoology (Director), University of Michigan
Alison R. Davis Rabosky, Senior Personnel, UM Museum of Zoology, University of Michigan
Cody W. Thompson, Senior Personnel, UM Museum of Zoology, University of Michigan
University of Texas, Austin
David C. Cannatella, PI, Department of Integrative Biology, University of Texas, Austin (NSF Award 1701516)
Travis J. LaDuc, CoPI, Department of Integrative Biology, University of Texas, Austin
Dean Hendrickson, Senior Personnel, Department of Integrative Biology, University of Texas, Austin
University of Washington
Luke M. Tornabene, PI, Burke Museum of Natural History and Culture, University of Washington (NSF Award 1701665)
Sharlene Santana, CoPI, Burke Museum of Natural History and Culture, University of Washington
Adam P. Summers, CoPI, Friday Harbor Laboratories, University of Washington
Katherine Maslenikov, Senior Personnel, Burke Museum of Natural History and Culture, University of Washington
http://www.morphosource.org/Detail/ProjectDetail/Show/project_id/220
Virginia Institute of Marine Science
Sarah K. Huber, PI, Nunnally Ichthyology Collection, Virginia Institute of Marine Science
Eric J. Hilton, CoPI, Nunnally Ichthyology Collection and Fisheries Science, Virginia Institute of Marine Science
Yale University, Peabody Museum of Natural History
Gregory J. Watkins-Colwell, PI, Peabody Museum of Natural History, Yale University (NSF Award 1701769)
Bhart-Anjan Bhullar, CoPI, Department of Geology & Geophysics, Peabody Museum of Natural History, Yale University
Protocols & Workflows
Publications
Bock, A., Doraiswamy, H., Summers, A., & Silva, C. (2018). Topoangler: Interactive topology-based extraction of fishes. IEEE transactions on visualization and computer graphics, 24(1), 812-821.
Boyer, D.M. & Harrington, A.R. (2018). Scaling of bony canals for encephalic vessels in euarchontans: Implications for the role of the vertebral artery and brain metabolism. Journal of Human Evolution, 114, 85-101.
Hongjamrassilp, W., Summers, A. P., & Hastings, P. A. (2018). Heterochrony in fringeheads (Neoclinus) and amplification of an extraordinary aggressive display in the Sarcastic Fringehead (Teleostei: Blenniiformes). Journal of Morphology.
Kolmann, M. A., Huie, J. M., Evans, K., & Summers, A. P. (2018). Specialized specialists and the narrow niche fallacy: a tale of scale-feeding fishes. Royal Society Open Science, 5(1), 171581.
Lundberg, J.G., Hendrickson, D.A., Luckenbill, K.R. & Arce, M. (2017). Satan's skeleton revealed: a tomographic and comparative osteology of Satan eurystomus, the subterranean Widemouth Blindcat (Siluriformes, Ictaluridae). Proceedings of the Academy of Natural Sciences of Philadelphia, 165(1), 117-173.
Professional Presentations
Blackburn, D.C. 3D Anatomical Data for All: The oVert Thematic Collection Network. Society of Integrative and Comparative Biology, San Francisco, CA. January 2018.