Results 111 to 120 of about 7,342 (148)
Hypersalinity Drives Dramatic Shifts in the Invertebrate Fauna of Estuaries. [PDF]
Animals (Basel)Roots BJ +6 more
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Stress-Induced Cross-Protection and Combined Stress Responses in Extremotolerant Black Yeasts. [PDF]
J Fungi (Basel)Fortuna K, Kajin M, Gostinčar C.
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Environmental Gradients and Conservation Status Determine the Structure and Carbon-Related Metabolic Potential of the Prokaryotic Communities of Mediterranean Inland Saline Shallow Lakes. [PDF]
Ecol EvolMiralles-Lorenzo J +6 more
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Microbial diversity and ecological roles of halophilic microorganisms in Dingbian (Shaanxi, China) saline-alkali soils and salt lakes. [PDF]
BMC MicrobiolDing Y +10 more
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Yeasts in Hypersaline Habitats
2017For a long time, halotolerant yeasts were known exclusively as contaminants of food preserved with high concentrations of salt or sugar. Their presence in natural thalassohaline hypersaline environments was unknown until 2000, when they were first reported to be active inhabitants of man-made solar salterns in Slovenia.
Janja Zajc +2 more
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Viruses from the Hypersaline Environment
2011Halophilic environments such as solar salterns and salt lakes are enriched in organisms belonging to the domain Archaea. The number of virus-like particles has also been shown to be high. Although most of the described haloarchaeal viruses are head–tail viruses, direct microscopic examination of environmental samples suggests more diversity.
Roine Elina, Oksanen Hanna
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1989
Hypersaline, alkaline (>pH 9) lakes constitute a special class of extremely saline lakes in closed basins. The major ions are typically Na+, Cl-, HCO 3 - and CO 3 2- . Sulfate is proportionately low. The high concentrations of HCO 3 - and CO 3 2- are largely responsible for buffering these lakes at such high pH.
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Hypersaline, alkaline (>pH 9) lakes constitute a special class of extremely saline lakes in closed basins. The major ions are typically Na+, Cl-, HCO 3 - and CO 3 2- . Sulfate is proportionately low. The high concentrations of HCO 3 - and CO 3 2- are largely responsible for buffering these lakes at such high pH.
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1989
Several deep sea hypersaline basins have been investigated to understand their geochemical processes as well as their potential and actual biological activity. These environments include the Orca Basin and East Flower Garden bank (Gulf of Mexico), and the Red Sea hot brines (see map, Figure 1.1, for locations).
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Several deep sea hypersaline basins have been investigated to understand their geochemical processes as well as their potential and actual biological activity. These environments include the Orca Basin and East Flower Garden bank (Gulf of Mexico), and the Red Sea hot brines (see map, Figure 1.1, for locations).
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Life in Hypersaline Environments
2016Many microorganisms are adapted to life at high-salt concentrations. Halophilic representatives are found in each of the three domains of life: Archaea, Bacteria, and Eukarya. Halophilic viruses exist as well. In NaCl-saturated brines such as found in the northern part of Great Salt Lake, Utah, in a few other natural salt lakes, and in saltern ...
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