Specific adaptations are selected in opposite sun exposed Antarctic cryptoendolithic communities as revealed by untargeted metabolomics

Antarctic cryptoendolithic communities are self-supporting borderline ecosystems spreading across the extreme conditions of the Antarctic desert and represent the predominant life-form in the ice-free areas of McMurdo Dry Valleys, accounted as the closest terrestrial Martian analogue. Components of...

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Bibliographic Details
Published in:PloS one 2020-05, Vol.15 (5), p.e0233805-e0233805
Main Authors: Coleine, Claudia, Gevi, Federica, Fanelli, Giuseppina, Onofri, Silvano, Timperio, Anna Maria, Selbmann, Laura
Format: Article
Language:English
Subjects:
Adaptation
Allantoin
Biodiversity
Biological activity
Biological markers
Biology and Life Sciences
Biomarkers
Chromatography
Climate change
Community composition
Composition
Deserts
Earth Sciences
Ecology and Environmental Sciences
Ecosystems
Environmental aspects
Exposure
Extremophiles
Free radicals
Fungi
Ice formation
Mars (Planet)
Mass spectrometry
Melanin
Metabolites
Metabolomics
Methods
Microbial colonies
Microbiological research
Microorganisms
Museums
People and Places
Photobiology
Physical Sciences
Physiological adaptation
Physiological aspects
Polar environments
Scientific imaging
Solvents
Terrestrial ecosystems
Terrestrial environments
Valleys
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Summary:Antarctic cryptoendolithic communities are self-supporting borderline ecosystems spreading across the extreme conditions of the Antarctic desert and represent the predominant life-form in the ice-free areas of McMurdo Dry Valleys, accounted as the closest terrestrial Martian analogue. Components of these communities are highly adapted extremophiles and extreme-tolerant microorganisms, among the most resistant known to date. Recently, studies investigated biodiversity and community composition in these ecosystems but the metabolic activity of the metacommunity has never been investigated. Using an untargeted metabolomics, we explored stress-response of communities spreading in two sites of the same location, subjected to increasing environmental pressure due to opposite sun exposure, accounted as main factor influencing the diversity and composition of these ecosystems. Overall, 331 altered metabolites (206 and 125 unique for north and south, respectively), distinguished the two differently exposed communities. We also selected 10 metabolites and performed two-stage Receiver Operating Characteristic (ROC) analysis to test them as potential biomarkers. We further focused on melanin and allantoin as protective substances; their concentration was highly different in the community in the shadow or in the sun. These results clearly indicate that opposite insolation selected organisms in the communities with different adaptation strategies in terms of key metabolites produced.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0233805