Bourquin, MassimoBusi, Susheel BhanuFodelianakis, StilianosPeter, HannesWashburne, AlexKohler, Tyler J.Ezzat, LeilaMichoud, GregoireWilmes, PaulBattin, Tom J.2022-06-202022-06-202022-06-202022-06-0210.1038/s41467-022-30816-4https://infoscience.epfl.ch/handle/20.500.14299/188597WOS:000805202900017The cryosphere includes those parts of Earth where water or soil is frozen, such as snow, ice, glaciers and permafrost soils. Here, the authors present a global inventory of cryospheric microbial communities and their genetic repertoires.The melting of the cryosphere is among the most conspicuous consequences of climate change, with impacts on microbial life and related biogeochemistry. However, we are missing a systematic understanding of microbiome structure and function across cryospheric ecosystems. Here, we present a global inventory of the microbiome from snow, ice, permafrost soils, and both coastal and freshwater ecosystems under glacier influence. Combining phylogenetic and taxonomic approaches, we find that these cryospheric ecosystems, despite their particularities, share a microbiome with representatives across the bacterial tree of life and apparent signatures of early and constrained radiation. In addition, we use metagenomic analyses to define the genetic repertoire of cryospheric bacteria. Our work provides a reference resource for future studies on climate change microbiology.Multidisciplinary SciencesScience & Technology - Other Topicssea-icevisualizationbacteriadatabaseecologytext::journal::journal article::research article