Launched in November 2018, the goal of the EBP is to provide a complete DNA sequence catalogue of all 1.8 million known species of plants, animals, and fungi, as well as single-celled eukaryotes.
Earth is forecast to lose 50% of its biodiversity by the end of this century without action to curb climate change and protect the health of global ecosystems. Creating a digital library of DNA sequences for all known eukaryotic life can help generate effective tools for preventing biodiversity loss and pathogen spread, monitoring and protecting ecosystems, and enhancing ecosystem services.
“Many of these large-scale sequencing projects have seen setbacks during the COVID-19 pandemic,” said Peter Harrison, Genome Analysis Team Leader at EMBL-EBI. “It’s fantastic to see the EBP making progress to reach its goal of sequencing all of Earth’s eukaryotic biodiversity. We’ve made huge strides this year within the DToL project and we’re excited to see what the next few years will bring for the project.”
Project goals and new additions
By the end of 2023, the EBP aims to produce reference genomes representing about 9,400 species. So far, affiliated projects have produced around 200 reference genomes, with sequencing, assembly, and annotation of more than 3,000 expected to be completed by the end of 2022 – meaning that the project is on track to reach its target.
“The EBP is just a fantastic project to be a part of,” said Paul Flicek, Associate Director of EMBL-EBI Services. “The project has set some ambitious goals but it’s great to see that we’re on track and researchers everywhere will soon have access to the huge amount of genomic data generated from the project. This is going to be a massive step towards better understanding global biodiversity and ecosystems and helping prevent global biodiversity loss.”
As of December 2021, the project includes 5,000 scientists and technical staff at 44 member institutions. The latest projects to join include the African BioGenome Project (AfricaBP) – a group of Africa-affiliated institutions in more than 22 countries, BIOSCAN, and the Global Virome Project – an effort to discover new viruses that might pose pandemic threats.
“The African BioGenome Project presents not only an opportunity to conserve Africa’s rich biodiversity through genomics but also a unique opportunity for the African people to build genomics and bioinformatics capacities and infrastructures for long-term conservation efforts,” said ThankGod Ebenezer, Bioinformatician at EMBL-EBI and founder of the African BioGenome Project. “Africa has some of the greatest biodiversity on the planet, a good proportion of which are endemic and endangered. We can use the genomic data collected from the project for the conservation of African biodiversity and improvement of agriculture across the continent.”
Sharing global biodiversity data
Major activities of the first three years for the EBP have included developing and evaluating standards and strategies, organising regional, national, and transnational projects, and building the global communities involved.