The Earth BioGenome Project (EBP) is a confederated network of partner organizations and affiliated projects that have a common goal of sequencing and annotating the genomes of all 1.5 million known species of eukaryotes on the planet in 10 years. The EBP aims to create a digital backbone of sequences from the tree of life that will serve as critical infrastructure for biology, conservation, agriculture, medicine, and the growing global bioeconomy.
The UC Davis Genome Center is the administrative home for the Earth BioGenome Project. Harris Lewin, a distinguished professor of evolution and ecology at UC Davis, is chair of the project.
During its inaugural year, the EBP has established a foundation that will carry it toward completion of Phase I of the project – the sequencing of a representative species of each of the approximately 9,300 known eukaryotic taxonomic families of plants, animals, protozoa, fungi, and other microbes in the next three years.
Highlights of progress reported at a meeting of the EBP partner institutions and affiliated projects held August 27-30 at Rockefeller University in New York City include the initiation of the Darwin Tree of Life program at the Wellcome Sanger Institute (Hinxton, UK) with £8 million ($10 million USD) over the next two years to establish the program ($10 million USD) and the hiring of Professor Mark Blaxter as program lead; a $10 million grant from the State of California to support the California Conservation Genomics Project, which has as its primary mission the conservation of California’s threatened and endangered species; a commitment by Illumina Inc. to generate 100 annotated reference-quality genomes for basic and conservation science; the Vertebrate Genomes Project (VGP) and collaborators will release 101 reference genomes, the first demonstration that high-quality genomes can be produced at scale; increased institutional membership by 53 percent to 26 since EBP launched in November 2018, and increased Affiliated Projects by 40 percent to 21.
Affiliated Projects encompass scientific communities, national, and regional projects that include experts performing taxon-based biodiversity genome sequencing.
The Benefits of Building a Foundation
Growth in membership broadens the reach of the EBP by including organizations of varied size, composition, focus and location. Engaging a network-of-networks approach enlists a collective for solving many of the world’s problems, such as conserving and responsibly stewarding its resources.
Creating and sharing EBP standards with the international genomics community encourages individual countries and groups to form their own projects that mirror and support EBP goals, and offers guidance to existing large-scale genome projects that have already joined the EBP.
“It has been a tremendous year of progress for the EBP, with broadened interest and support from the scientific community, funding agencies, philanthropies and the general public,” said EBP Chair Harris Lewin. “The EBP members and affiliated projects have led the way in developing standards and delivering high-quality reference genomes at scale and under projected costs. A solid foundation is in place for determinedly moving toward achieving the EBP Phase I goal of sequencing one species from each of approximately 9,300 taxonomic families in three years.”
Funding Support Provides International Platforms for Affiliated Projects
Several key grant awards will continue the momentum and assist in the completion of EBP Phase I goals. The Darwin Tree of Life project at the Wellcome Sanger Institute is aiming to sequence the genetic code of 60,000 UK species. This EBP Affiliated Project will contribute high-quality reference genomes for all three phases of the EBP.
The California Conservation Genomics Project, led by Professor Brad Shaffer at the University of California, Los Angeles, was awarded $10 million by the State of California to provide state and federal agencies with genomic data that informs decision-makers about conserving and managing the state’s species and their habitats. The program’s overarching goal is to utilize the genomic expertise across the 10-campus University of California system to better protect natural resources and to create strategic plans to ensure that California’s plants, animals, and their habitats are more resilient to climate and other human-mediated changes now and in the future.
Illumina’s in-kind contribution of 100 reference-quality genomes, and participation in technology development for the sequencing of genomes from single-cell and small multicellular organisms, gives a major boost to the EBP and its affiliated projects.
Together these foundational projects set the stage for future technical achievements and growth in funding from other governmental organizations, philanthropic entities and the private sector.
‘The Earth Biogenome Project is of momentous importance for all our futures. I am extremely excited to see it gathering momentum in this way and am looking forward with great anticipation to the wealth of scientific insight that it will deliver over the next decade” said Sir Mike Stratton, Director of the Wellcome Sanger Institute in the United Kingdom.
The coming year of EBP will emphasize the collection and vouchering of samples for completing EBP Phase I objectives, the adoption of standards for sample acquisition, processing, sample metadata, DNA sequencing, and genome annotation across all taxa, and the production of 1,000 reference quality genomes by Member organizations and Affiliates.
- Harris A. Lewin, Chair, EBP Working Group, University of California, Davis
- John Kress, c0-chair, EBP Working Group, Smithsonian Institution
- Gene E. Robinson, co-Chair, EBP Working Group, University of Illinois at Urbana-Champaign
Current institutional partners (26)
Australian Museum, Baylor College of Medicine, Beijing Genomics Institute at Shenzhen, BioPlatforms Australia, British Columbia Cancer Research Center, Dalhousie University, Earlham Insitute, UK, Sao Paulo Research Foundation (FAPESP), George Washington University, King Abdulazziz University, Korea Polar Research Institute, Max-Planck Institute of Molecular Cell Biology and Genetics, Germany, Natural History Museum of Denmark, Novim Group, Royal Botanic Gardens at Kew, SpaceTime Ventures, Universitat Pompeu Fabra, University of Chile, University of California, Davis, University of California, Santa Cruz, Universidad de los Andes (Colombia), University of Florida, University of Illinois at Urbana-Champaign, University of Oslo, University of Sydney, Wellcome Sanger Institute.
Affiliated communities, regional, and national projects (21)
G10K Vertebrate Genomes Project (VGP), 1000 Fungal Genomes Project (1KFG), Global Invertebrate Genomics Alliance (GIGA), Global Ant Genomics Alliance (GAGA), 5,000 Insect Genome Project (i5K), Ag100 Pests, 10,000 Plant Genomes Project (10KP), 10,000 Bird Genomes (B10K), 200 Mammals Project, DNA Zoo, Australian Mammals Genome Project (OMG), Darwin Tree of Life, LOEWE-Centre for Translational Biodiversity Genomics, The California Conservation Genomics Project, 1000 Chilean Genomes Project, Taiwan BioGenome Project, Smithsonian Global Genome Initiative (GGI), Global Genome Biodiversity Network (GGBN), Colombia EBP, Diversity Initiative for the Southern California Ocean, Open Green Genomes.
- Nicolette Caperello, Executive Manager, Earth BioGenome Project, email@example.com
- UC Davis Genome Center
- EarthBioGenome Project
- Earth BioGenome Project Aims to Sequence DNA From All Complex Life