Earth BioGenome Project: Sequencing life for the future of life

Harris A. Lewin; Gene E. Robinson; W. John Kress; William J. Baker; Jonathan A. Coddington; Keith A. Crandall; Richard Durbin; Scott V. Edwards; Félix Forest; M. Thomas P. Gilbert; Melissa M. Goldstein; Igor V. Grigoriev; Kevin J. Hackett; David Haussler; Erich D. Jarvis; Warren E. Johnson; A.A.N. Patrinos; Stephen Richards; Juan Carlos Castilla-Rubio; Marie‐Anne Van Sluys; Pamela S. Soltis; Xun Xu; Huanming Yang; Guojie Zhang

doi:10.1073/pnas.1720115115

Earth BioGenome Project: Sequencing life for the future of life

Harris A. Lewin(John Muir Health), Gene E. Robinson(University of Illinois Urbana-Champaign), W. John Kress(Smithsonian Institution), William J. Baker(Royal Botanic Gardens, Kew), Jonathan A. Coddington(Smithsonian Institution), Keith A. Crandall(Milken Institute), Richard Durbin(University of Cambridge), Scott V. Edwards(Harvard University), Félix Forest(Royal Botanic Gardens, Kew), M. Thomas P. Gilbert(University of Copenhagen), Melissa M. Goldstein(Milken Institute), Igor V. Grigoriev(Joint Genome Institute), Kevin J. Hackett(Beltsville Agricultural Research Center), David Haussler(Howard Hughes Medical Institute), Erich D. Jarvis(Rockefeller University), Warren E. Johnson(Smithsonian Institution), A.A.N. Patrinos(University of California, Santa Barbara), Stephen Richards(Baylor College of Medicine), Juan Carlos Castilla-Rubio(World Economic Forum), Marie‐Anne Van Sluys(Universidade de São Paulo), Pamela S. Soltis(Florida Museum of Natural History), Xun Xu(China National GeneBank), Huanming Yang(BGI Group (China)), Guojie Zhang(University of Copenhagen)

Proceedings of the National Academy of Sciences

April 23, 2018

10.1073/pnas.1720115115

Cited by 1,073Open Access

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Abstract

Increasing our understanding of Earth's biodiversity and responsibly stewarding its resources are among the most crucial scientific and social challenges of the new millennium. These challenges require fundamental new knowledge of the organization, evolution, functions, and interactions among millions of the planet's organisms. Herein, we present a perspective on the Earth BioGenome Project (EBP), a moonshot for biology that aims to sequence, catalog, and characterize the genomes of all of Earth's eukaryotic biodiversity over a period of 10 years. The outcomes of the EBP will inform a broad range of major issues facing humanity, such as the impact of climate change on biodiversity, the conservation of endangered species and ecosystems, and the preservation and enhancement of ecosystem services. We describe hurdles that the project faces, including data-sharing policies that ensure a permanent, freely available resource for future scientific discovery while respecting access and benefit sharing guidelines of the Nagoya Protocol. We also describe scientific and organizational challenges in executing such an ambitious project, and the structure proposed to achieve the project's goals. The far-reaching potential benefits of creating an open digital repository of genomic information for life on Earth can be realized only by a coordinated international effort.

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