The Enigma of Prokaryotic Life in Deep Hypersaline Anoxic Basins

The Enigma of Prokaryotic Life in Deep Hypersaline Anoxic Basins

Deep hypersaline anoxic basins in the Mediterranean Sea are a legacy of dissolution of ancient subterranean salt deposits from the Miocene period. Our study revealed that these hypersaline basins are not biogeochemical dead ends, but support in situ sulfate reduction, methanogenesis, and heterotroph...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2005-01, Vol.307 (5706), p.121-123
Hauptverfasser: Paul W. J. J. van der Wielen, Bolhuis, Henk, Borin, Sara, Daffonchio, Daniele, Corselli, Cesare, Giuliano, Laura, D'Auria, Giuseppe, de Lange, Gert J., Huebner, Andreas, Varnavas, Sotirios P., Thomson, John, Tamburini, Christian, Marty, Danielle, McGenity, Terry J., Timmis, Kenneth N., Party, BioDeep Scientific
Format: Artikel
Sprache:eng
Schlagworte:
Anaerobiosis
Animal, plant and microbial ecology
Archaea
Archaea - classification
Archaea - isolation & purification
Archaea - physiology
Bacteria - classification
Bacteria - isolation & purification
Bacterial Physiological Phenomena
Basins
Biodiversity
Biological and medical sciences
Brine
Brines
Cluster Analysis
Community Relations
Depolarization
Ecosystem
Euryarchaeota
Euryarchaeota - classification
Euryarchaeota - isolation & purification
Euryarchaeota - physiology
Fundamental and applied biological sciences. Psychology
Genes, Archaeal
Genes, Bacterial
Genes, rRNA
Geochemistry
Libraries
Magnesium Chloride - analysis
Marine
Marine Biology
Mediterranean Sea
Methane - metabolism
Methane production
Microbial ecology
Microorganisms
Molecular Sequence Data
Oxidation-Reduction
Phylogeny
Prokaryotes
rev genes
RNA, Ribosomal, 16S - genetics
rRNA genes
Saline water
Salt
Sea water
Seawater - chemistry
Seawater - microbiology
Sodium Chloride
Sulfates
Sulfates - metabolism
T lymphocytes
Various environments (extraatmospheric space, air, water)
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Zusammenfassung:Deep hypersaline anoxic basins in the Mediterranean Sea are a legacy of dissolution of ancient subterranean salt deposits from the Miocene period. Our study revealed that these hypersaline basins are not biogeochemical dead ends, but support in situ sulfate reduction, methanogenesis, and heterotrophic activity. A wide diversity of prokaryotes was observed, including a new, abundant, deeply branching order within the Euryarchaeota. Furthermore, we demonstrated the presence of a unique, metabolically active microbial community in the Discovery basin, which is one of the most extreme terrestrial saline environments known, as it is almost saturated with$MgCl_{2}(5 M)$.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1103569