Microbial diversity and activity in Southern California salterns and bitterns: analogues for remnant ocean worlds
Open Access
- 1 July 2021
- journal article
- research article
- Published by Wiley in Environmental Microbiology
- Vol. 23 (7), 3825-3839
- https://doi.org/10.1111/1462-2920.15440
Abstract
Concurrent osmotic and chaotropic stress make MgCl2-rich brines extremely inhospitable environments. Understanding the limits of life in these brines is essential to the search for extraterrestrial life on contemporary and relict ocean worlds, like Mars, which could host similar environments. We sequenced environmental 16S rRNA genes and quantified microbial activity across a broad range of salinity and chaotropicity at a Mars-analogue salt harvesting facility in Southern California, where seawater is evaporated in a series of ponds ranging from kosmotropic NaCl brines to highly chaotropic MgCl2 brines. Within NaCl brines, we observed a proliferation of specialized halophilic Euryarchaeota, which corresponded closely with the dominant taxa found in salterns around the world. These communities were characterized by very slow growth rates and high biomass accumulation. As salinity and chaotropicity increased, we found that the MgCl2-rich brines eventually exceeded the limits of microbial activity. We found evidence that exogenous genetic material is preserved in these chaotropic brines, producing an unexpected increase in diversity in the presumably sterile MgCl2-saturated brines. Because of their high potential for biomarker preservation, chaotropic brines could therefore serve as repositories of genetic biomarkers from nearby environments (both on Earth and beyond) making them prime targets for future life-detection missions.Funding Information
- National Science Foundation (ECCS‐1542152)
- National Aeronautics and Space Administration (80NSSC18K1301)
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