TY - JOUR
T1 - Heterotrophic Growth Dominates in the Most Extremotolerant Extremophile Cultures
AU - Matthews, Adrianna
AU - Lima-Zaloumis, Jonathan
AU - Debes, R. Vincent
AU - Boyer, Grayson
AU - Trembath-Reichert, Elizabeth
N1 - Funding Information: A.M. was supported through a NASA grant awarded to the Arizona/NASA Space Grant Consortium. E.T.R. was supported by a NASA Exobiology Award NNH20ZDA001N-EXO. G.B. acknowledges that this work used the Water-Organic-Rock-Microbe (WORM) Portal, which is supported by the National Science Foundation grant EAR-1949030. Publisher Copyright: Copyright © 2023, Mary Ann Liebert, Inc.
PY - 2023/4/1
Y1 - 2023/4/1
N2 - Due to their ability to withstand "extreme"conditions, Earth's extremophilic organisms can constrain habitability windows for other planetary systems. However, there are many other considerations to microbial growth requirements beyond environmental extremes, such as nutrient availability. Here, we conduct a literature review of the most extremotolerant extremophiles in culture, since working with cultured organisms allows environmental and nutrient variables to be constrained with a high level of specificity. We generated a database that includes the isolation environment, carbon source(s) used, and growth preferences across temperature, pressure, salinity, and pH extremes. We found that the "most extreme"conditions were primarily sustained by heterotrophs, except for hyperthermophiles. These results highlight the importance of considering organic carbon availability when using extremophiles for habitability constraints. We also interrogated polyextreme potential across temperature, pressure, salinity, and pH conditions. Our findings suggest that the investigation of growth tolerance rather than growth optimum may reveal wider habitability parameters. Overall, these results highlight the potential polyextremes, environments, nutrient requirements, and additional analyses that could improve the application of cultured investigations to astrobiology questions.
AB - Due to their ability to withstand "extreme"conditions, Earth's extremophilic organisms can constrain habitability windows for other planetary systems. However, there are many other considerations to microbial growth requirements beyond environmental extremes, such as nutrient availability. Here, we conduct a literature review of the most extremotolerant extremophiles in culture, since working with cultured organisms allows environmental and nutrient variables to be constrained with a high level of specificity. We generated a database that includes the isolation environment, carbon source(s) used, and growth preferences across temperature, pressure, salinity, and pH extremes. We found that the "most extreme"conditions were primarily sustained by heterotrophs, except for hyperthermophiles. These results highlight the importance of considering organic carbon availability when using extremophiles for habitability constraints. We also interrogated polyextreme potential across temperature, pressure, salinity, and pH conditions. Our findings suggest that the investigation of growth tolerance rather than growth optimum may reveal wider habitability parameters. Overall, these results highlight the potential polyextremes, environments, nutrient requirements, and additional analyses that could improve the application of cultured investigations to astrobiology questions.
KW - Autotroph
KW - Extremophile
KW - Extremotolerant
KW - Habitability
KW - Heterotroph
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U2 - 10.1089/ast.2022.0100
DO - 10.1089/ast.2022.0100
M3 - Review article
C2 - 36723486
SN - 1531-1074
VL - 23
SP - 446
EP - 459
JO - Astrobiology
JF - Astrobiology
IS - 4
ER -