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The International Space Station has a unique and extreme microbial and chemical environment driven by use patterns

Rodolfo A. Salido, Haoqi Nina Zhao, Daniel McDonald, Helena Mannochio-Russo, Simone Zuffa, Renee Oles, Allegra T. Aron, Yasin El Abiead, Sawyer Farmer, Antonio G. González, Cameron Martino, Ipsita Mohanty, Ceth W. Parker, Lucas Patel, Paulo Wender Portal Gomes, Robin Schmid, Tara Schwartz, Jennifer Zhu, Michael R. Barratt, Kathleen Rubins, Hiutung Chu, Fathi Karouia, Kasthuri Venkateswaran, Pieter C. Dorrestein, Robert J. Knight

2025Cell19 citationsDOIOpen Access PDF

Abstract

Space habitation provides unique challenges in built environments isolated from Earth. We produced a 3D map of the microbes and metabolites throughout the United States Orbital Segment (USOS) of the International Space Station (ISS) with 803 samples collected during space flight, including controls. We find that the use of each of the nine sampled modules within the ISS strongly drives the microbiology and chemistry of the habitat. Relating the microbiology to other Earth habitats, we find that, as with human microbiota, built environment microbiota also align naturally along an axis of industrialization, with the ISS providing an extreme example of an industrialized environment. We demonstrate the utility of culture-independent sequencing for microbial risk monitoring, especially as the location of sequencing moves to space. The resulting resource of chemistry and microbiology in the space-built environment will guide long-term efforts to maintain human health in space for longer durations.

Topics & Concepts

BiologyExtreme environmentSpace (punctuation)Computational biologyEvolutionary biologyGeneticsBacteriaComputer scienceOperating systemSpaceflight effects on biologyMicrobial Community Ecology and Physiology