Add to ORKGSulfite- and Sulfate-reducing microorganisms (SRM) play important roles in anoxic environments, linking the sulfur and carbon cycles. With climate warming, the distribution of anoxic habitats conductive to dissimilatory SRM is expanding. Consequently, we hypothesize that novel SRM are likely to emerge from the rare biosphere triggered by environmental changes. Using the dsrB gene as a molecular marker of sulfite- and sulfate reducers, we analyzed the diversity, community composition and abundance of SRM in 200 samples representing 14 different ecosystems including marine and freshwater environments, oil reservoirs and engineered infrastructure. Up to 167,397 species-level OTUs affiliated with 47 different families were identified. Up to 96%...
The energy metabolism of essential microbial guilds in the biogeochemical sulfur cycle is based on a...
The Black Sea, with its highly sulfidic water column, is the largest anoxic basin in the world. With...
Sulphur-oxidising bacteria (SOB) play a key role in the biogeochemical cycling of sulphur in soil ec...
International audienceSulfite-reducing and sulfate-reducing microorganisms (SRM) play important role...
Sequence analysis of genes encoding dissimilatory sulfite reductase (DSR) was used to identify sulfa...
The distribution and abundance of sulfate-reducing bacteria (SRB) and eukaryotes within the upper 4 ...
Methane emission from peatlands contributes substantially to global warming but is significantly red...
Elucidating the in situ metabolic activity of phylogenetically diverse populations of sulfate-reduci...
Peatlands of the Lehstenbach catchment (Germany) house as-yet-unidentified microorganisms with phylo...
Microbial sulfate reduction in acid mine drainage is still considered to be confined to anoxic condi...
A critical step in the biogeochemical cycle of sulfur on Earth is microbial sulfate reduction, yet o...
Microbial sulfur cycling communities were investigated in two methane-rich ecosystems, terrestrial m...
To better describe the community structure of sulfate-reducing bacteria in environmental systems, we...
Sulfate is the predominant electron acceptor for anaerobic oxidation of methane (AOM) in marine sedi...
All forms of life, from bacteria to humans, require sulfur as essential nutrient. Furthermore, many ...
The energy metabolism of essential microbial guilds in the biogeochemical sulfur cycle is based on a...
The Black Sea, with its highly sulfidic water column, is the largest anoxic basin in the world. With...
Sulphur-oxidising bacteria (SOB) play a key role in the biogeochemical cycling of sulphur in soil ec...
International audienceSulfite-reducing and sulfate-reducing microorganisms (SRM) play important role...
Sequence analysis of genes encoding dissimilatory sulfite reductase (DSR) was used to identify sulfa...
The distribution and abundance of sulfate-reducing bacteria (SRB) and eukaryotes within the upper 4 ...
Methane emission from peatlands contributes substantially to global warming but is significantly red...
Elucidating the in situ metabolic activity of phylogenetically diverse populations of sulfate-reduci...
Peatlands of the Lehstenbach catchment (Germany) house as-yet-unidentified microorganisms with phylo...
Microbial sulfate reduction in acid mine drainage is still considered to be confined to anoxic condi...
A critical step in the biogeochemical cycle of sulfur on Earth is microbial sulfate reduction, yet o...
Microbial sulfur cycling communities were investigated in two methane-rich ecosystems, terrestrial m...
To better describe the community structure of sulfate-reducing bacteria in environmental systems, we...
Sulfate is the predominant electron acceptor for anaerobic oxidation of methane (AOM) in marine sedi...
All forms of life, from bacteria to humans, require sulfur as essential nutrient. Furthermore, many ...
The energy metabolism of essential microbial guilds in the biogeochemical sulfur cycle is based on a...
The Black Sea, with its highly sulfidic water column, is the largest anoxic basin in the world. With...
Sulphur-oxidising bacteria (SOB) play a key role in the biogeochemical cycling of sulphur in soil ec...