Add to ORKGTemperature has a fundamental impact on the metabolic rates of microorganisms and strongly influences microbial ecology and biogeochemical cycling in the environment. In this study, we examined the catabolic temperature response of natural communities of sulfate-reducing microorganisms (SRM) in polar, temperate and tropical marine sediments. In short-term sediment incubation experiments with S-35-sulfate, we demonstrated how the cardinal temperatures for sulfate reduction correlate with mean annual sediment temperatures, indicating specific thermal adaptations of the dominant SRM in each of the investigated ecosystems. The community structure of putative SRM in the sediments, as revealed by pyrosequencing of bacterial 16S rRNA gene amplicon...
Sulfate reduction was measured with the (SO42-)-S-35-tracer technique in slurries of sediment from A...
Abstract. " Sulfate reduction was measured with the 35SO42-tracer technique in slurries of sedi...
Coastal biogeochemical cycles are expected to be affected by global warming. By means of a mesocosm ...
Temperature has a fundamental impact on the metabolic rates of microorganisms and strongly influence...
The present work analyzes the potential impact of anticipated global warming on the bacterial carbon...
The present work analyzes the potential impact of anticipated global warming on the bacterial carbon...
The temperature responses of sulfate-reducing microbial communities were used as community temperatu...
Arctic regions may be particularly sensitive to climate warming and, consequently, rates of carbon m...
The potential for sulfate reduction at low temperatures was examined in two different cold marine se...
The adaptation and response of anaerobic microorganisms to temperature effects in marine sediments w...
The numbers of sulfate reducers in two Arctic sediments within situ temperatures of 2.6 and -1.7 deg...
The physiological response of bacteria to temperature is critical for the regulation of biogeochemic...
The adaptation and response of anaerobic microorganisms to temperature effects in marine sediments w...
Sediments of permanently cold areas around Svalbard and northern Norway were examined for their sulf...
The role of microbial sulfate reduction on organic matter oxidation was studied quantitatively in te...
Sulfate reduction was measured with the (SO42-)-S-35-tracer technique in slurries of sediment from A...
Abstract. " Sulfate reduction was measured with the 35SO42-tracer technique in slurries of sedi...
Coastal biogeochemical cycles are expected to be affected by global warming. By means of a mesocosm ...
Temperature has a fundamental impact on the metabolic rates of microorganisms and strongly influence...
The present work analyzes the potential impact of anticipated global warming on the bacterial carbon...
The present work analyzes the potential impact of anticipated global warming on the bacterial carbon...
The temperature responses of sulfate-reducing microbial communities were used as community temperatu...
Arctic regions may be particularly sensitive to climate warming and, consequently, rates of carbon m...
The potential for sulfate reduction at low temperatures was examined in two different cold marine se...
The adaptation and response of anaerobic microorganisms to temperature effects in marine sediments w...
The numbers of sulfate reducers in two Arctic sediments within situ temperatures of 2.6 and -1.7 deg...
The physiological response of bacteria to temperature is critical for the regulation of biogeochemic...
The adaptation and response of anaerobic microorganisms to temperature effects in marine sediments w...
Sediments of permanently cold areas around Svalbard and northern Norway were examined for their sulf...
The role of microbial sulfate reduction on organic matter oxidation was studied quantitatively in te...
Sulfate reduction was measured with the (SO42-)-S-35-tracer technique in slurries of sediment from A...
Abstract. " Sulfate reduction was measured with the 35SO42-tracer technique in slurries of sedi...
Coastal biogeochemical cycles are expected to be affected by global warming. By means of a mesocosm ...