Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity

Justin P. Shaffer(University of California San Diego), Louis‐Félix Nothias(University of California San Diego), Luke Thompson(National Oceanic and Atmospheric Administration), Jon G. Sanders(Cornell University), Rodolfo A. Salido(University of California San Diego), Sneha Couvillion(Pacific Northwest National Laboratory), Asker Brejnrod(University of California San Diego), Franck Lejzerowicz(University of California San Diego), Niina Haiminen(IBM Research - Thomas J. Watson Research Center), Shi Huang(University of California San Diego), Holly L. Lutz(Scripps Institution of Oceanography), Qiyun Zhu(Arizona State University), Cameron Martino(University of California San Diego), James T. Morton(Simons Foundation), Smruthi Karthikeyan(University of California San Diego), Mélissa Nothias-Esposito(University of California San Diego), Kai Dührkop(Friedrich Schiller University Jena), Sebastian Böcker(Friedrich Schiller University Jena), Hyun Woo Kim(Dongguk University), Alexander A. Aksenov(University of Connecticut), Wout Bittremieux(University of Antwerp), Jeremiah J. Minich(Scripps Institution of Oceanography), Clarisse Marotz(University of California San Diego), MacKenzie Bryant(University of California San Diego), Karenina Sanders(University of California San Diego), Tara Schwartz(University of California San Diego), Greg Humphrey(University of California San Diego), Yoshiki Vásquez-Baeza(University of California San Diego), Anupriya Tripathi(University of California San Diego), Laxmi Parida(IBM Research - Thomas J. Watson Research Center), Anna Paola Carrieri(Sci-Tech Daresbury), Kristen L. Beck(IBM Research - Almaden), Promi Das(Scripps Institution of Oceanography), Antonio González(University of California San Diego), Daniel McDonald(University of California San Diego), Joshua Ladau(Lawrence Berkeley National Laboratory), Søren Michael Karst(Statens Serum Institut), Mads Albertsen(Aalborg University), Gail Ackermann(University of California San Diego), Jeff DeReus(University of California San Diego), Torsten Thomas(UNSW Sydney), Daniel Petras(Scripps Institution of Oceanography), Ashley Shade(Michigan State University), James Stegen(Pacific Northwest National Laboratory), Se Jin Song(University of California San Diego), Thomas Metz(Pacific Northwest National Laboratory), Austin D. Swafford(University of California San Diego), Pieter C. Dorrestein(University of California San Diego), Janet Jansson(Pacific Northwest National Laboratory), Jack A. Gilbert(Scripps Institution of Oceanography), Rob Knight(University of California San Diego), Lars T. Angenant(University of Tübingen), Alison M. Berry(University of California, Davis), Leonora Bittleston(Boise State University), Jennifer L. Bowen(Northeastern University), Max Chavarría(Universidad de Costa Rica), Don A. Cowan(University of Pretoria), Daniel L. Distel(Northeastern University), Peter R. Girguis(Harvard University Press), Jaime Huerta‐Cepas(Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria), Paul R. Jensen(University of California San Diego), Lingjing Jiang(Janssen (United States)), Gary M. King(Louisiana State University), Anton Lavrinienko(University of Jyväskylä), Aurora MacRae-Crerar(University of Pennsylvania), Thulani P. Makhalanyane(University of Pretoria), Tapio Mappes(University of Jyväskylä), Ezequiel M. Marzinelli(The University of Sydney), Gregory D. Mayer(Texas Tech University), Katherine D. McMahon(University of Wisconsin–Madison), Jessica L. Metcalf(Colorado State University), Sou Miyake(Temasek Life Sciences Laboratory), Timothy A. Mousseau(University of Jyväskylä), Catalina Murillo‐Cruz(Universidad de Costa Rica), David D. Myrold(Oregon State University), Brian Palenik(University of California San Diego), Adrian A. Pinto‐Tomás(Universidad de Costa Rica), Dorota L. Porazinska(University of Florida), Jean‐Baptiste Ramond(University of Pretoria), Forest Rowher(San Diego State University), Taniya Roy Chowdhury(Pacific Northwest National Laboratory), Stuart A. Sandin(University of California San Diego), Steven K. Schmidt(University of Colorado Boulder), Henning Seedorf(Temasek Life Sciences Laboratory), Ashley Shade(Michigan State University), J. Reuben Shipway(University of Massachusetts Amherst), Jennifer E. Smith(University of California San Diego), James Stegen(Pacific Northwest National Laboratory), Frank J. Stewart(Montana State University), Karen Tait(Plymouth Marine Laboratory), Torsten Thomas(UNSW Sydney), Yael Tarlovsky Tucker(National Energy Technology Laboratory), Jana M. U’Ren(University of Arizona), Phillip C. Watts(University of Jyväskylä), Nicole S. Webster(Australian Institute of Marine Science), Jesse Zaneveld(University of Washington Bothell), Shan Zhang(UNSW Sydney)
Nature Microbiology
November 28, 2022
10.1038/s41564-022-01266-x
Cited by 181Open Access
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Abstract

Despite advances in sequencing, lack of standardization makes comparisons across studies challenging and hampers insights into the structure and function of microbial communities across multiple habitats on a planetary scale. Here we present a multi-omics analysis of a diverse set of 880 microbial community samples collected for the Earth Microbiome Project. We include amplicon (16S, 18S, ITS) and shotgun metagenomic sequence data, and untargeted metabolomics data (liquid chromatography-tandem mass spectrometry and gas chromatography mass spectrometry). We used standardized protocols and analytical methods to characterize microbial communities, focusing on relationships and co-occurrences of microbially related metabolites and microbial taxa across environments, thus allowing us to explore diversity at extraordinary scale. In addition to a reference database for metagenomic and metabolomic data, we provide a framework for incorporating additional studies, enabling the expansion of existing knowledge in the form of an evolving community resource. We demonstrate the utility of this database by testing the hypothesis that every microbe and metabolite is everywhere but the environment selects. Our results show that metabolite diversity exhibits turnover and nestedness related to both microbial communities and the environment, whereas the relative abundances of microbially related metabolites vary and co-occur with specific microbial consortia in a habitat-specific manner. We additionally show the power of certain chemistry, in particular terpenoids, in distinguishing Earth's environments (for example, terrestrial plant surfaces and soils, freshwater and marine animal stool), as well as that of certain microbes including Conexibacter woesei (terrestrial soils), Haloquadratum walsbyi (marine deposits) and Pantoea dispersa (terrestrial plant detritus). This Resource provides insight into the taxa and metabolites within microbial communities from diverse habitats across Earth, informing both microbial and chemical ecology, and provides a foundation and methods for multi-omics microbiome studies of hosts and the environment.

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