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Poor data stewardship will hinder global genetic diversity surveillance

Rachel H. Toczydlowski, Libby Liggins, Michelle R. Gaither, Tanner J. Anderson, Randi L. Barton, Justin T. Berg, Sofia G. Beskid, Beth Davis, Alonso Delgado, Emily Farrell, Maryam Ghoojaei, Nan Himmelsbach, Ann E. Holmes, Samantha R. Queeno, Thienthanh Trinh, Courtney A. Weyand, Gideon S. Bradburd, Cynthia Riginos, Robert J. Toonen, Eric D. Crandall

2021Proceedings of the National Academy of Sciences73 citationsDOIOpen Access PDF

Abstract

Genomic data are being produced and archived at a prodigious rate, and current studies could become historical baselines for future global genetic diversity analyses and monitoring programs. However, when we evaluated the potential utility of genomic data from wild and domesticated eukaryote species in the world's largest genomic data repository, we found that most archived genomic datasets (86%) lacked the spatiotemporal metadata necessary for genetic biodiversity surveillance. Labor-intensive scouring of a subset of published papers yielded geospatial coordinates and collection years for only 33% (39% if place names were considered) of these genomic datasets. Streamlined data input processes, updated metadata deposition policies, and enhanced scientific community awareness are urgently needed to preserve these irreplaceable records of today's genetic biodiversity and to plug the growing metadata gap.

Topics & Concepts

MetadataData scienceBiodiversityStewardship (theology)Geospatial analysisGeospatial metadataGenomicsWorkflowGeographyEnvironmental resource managementBiologyWorld Wide WebComputer sciencePolitical scienceData elementDatabaseGenomeEcologyMeta Data ServicesCartographyGeneticsLawEnvironmental scienceGenePoliticsEnvironmental DNA in Biodiversity StudiesSpecies Distribution and Climate ChangeGenetic diversity and population structure
Poor data stewardship will hinder global genetic diversity surveillance | Litcius