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Mechanism of water extraction from gypsum rock by desert colonizing microorganisms

Wei Huang, Emine Ertekin, Taifeng Wang, Luz Cruz, Micah Dailey, Jocelyne DiRuggiero, David Kisailus

2020Proceedings of the National Academy of Sciences84 citationsDOIOpen Access PDF

Abstract

). To investigate and validate the water extraction and phase transformation mechanisms found in the natural geological environment, we cultivated a cyanobacterium isolate on gypsum rock samples under controlled conditions. We found that the cyanobacteria attached onto high surface energy crystal planes ({011}) of gypsum samples generate a thin biofilm that induced mineral dissolution accompanied by water extraction. This process led to a phase transformation to an anhydrous calcium sulfate, anhydrite, which was formed via reprecipitation and subsequent attachment and alignment of nanocrystals. Results in this work not only shed light on how microorganisms can obtain water under severe xeric conditions but also provide insights into potential life in even more extreme environments, such as Mars, as well as offering strategies for advanced water storage methods.

Topics & Concepts

GypsumMicroorganismDesert (philosophy)Extraction (chemistry)Environmental chemistryMechanism (biology)Environmental scienceWater extractionGeologyChemistryBacteriaChromatographyPaleontologyPhilosophyEpistemologyBiocrusts and Microbial EcologyBuilding materials and conservationPlanetary Science and Exploration
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