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Performance of Fungi in Low Temperature and Hypersaline Environments
1976During the past ten years we have observed a broad array of stress capabilities in common fungi including ability to grow in aqueous ammonia and other alkaline solutions, in acids, in the presence of heavy metals, and in various salt media at low temperature.
S M, Siegel, T W, Speitel
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Methanogenic bacteria from hypersaline environments
Systematic and Applied Microbiology, 1986Summary Several strains of methanogenic bacteria were isolated from logoons in Crimea that ranged in salinity from 2.2% to 30%. All of the isolates were obligately halophilic, methylotrophic methanogens utilizing methylamines as the sole substrate for growth and each was unable to metabolise H 2 :CO 2 , acetate or formate. The strains differ in their
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Impact of Lipidomics on the Microbial World of Hypersaline Environments
2011Mass spectrometry analysis of the lipid extracts of saltern biomass represents a powerful tool to quickly obtain information on the presence of various archaeal and bacterial microorganisms in saltern ponds. In the last years, ESI-MS lipid profiling by a shotgun lipidomic approach has allowed the discovery of new lipid molecules in the membranes of ...
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Heterotrophic Protozoa from Hypersaline Environments
2005https://nsuworks.nova.edu/cnso_bio_facbooks/1012/thumbnail ...
Hauer, Gwen, Rogerson, Andrew
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Chapter 3 Ecology of Hypersaline Environments
1980Publisher Summary Sodium chloride (NaCl) is a dominating salt component of hypersaline environments, ponds and lakes, throughout the world. Hypersaline environments are mostly aerobic, but anoxic situations are also encountered. The acidity may differ considerably from one environment to another.
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The Fate of Carbon and Sulfur in Hypersaline Environments
1989Although hypersaline environments are often thought of as terminal habitats, they play an active role in the interconversion of organic and inorganic carbon, a process that is interfaced microbiologically with the reduction of sulfate to sulfide. In both normal marine and hypersaline marine environments, carbon cycle transformations result in changing ...
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