Add to ORKGBacteria presumably involved in oxygen- or nitrate-dependent sulfide oxidation in the biofilters of a recirculating marine aquaculture system were identified using a new application of reverse transcription-PCR denaturing gradient gel electrophoresis (DGGE) analysis termed differential-transcription (DT)-DGGE. Biofilter samples were incubated in various concentrations of sulfide or thiosulfate (0 to 5 mM) with either oxygen or nitrate as the sole electron acceptor. Before and after short-term incubations (10 to 20 h), total DNA and RNA were extracted, and a 550-bp fragment of the 16S rRNA genes was PCR amplified either directly or after reverse transcription. DGGE analysis of DNA showed no significant change of the original microbial consor...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Here we describe the diversity and activity of sulfate-reducing bacteria (SRB) in sulfidogenic biore...
Anoxygenic phototrophic sulfide oxidation by green and purple sulfur bacteria (PSB) plays a key role...
Sequence analysis of genes encoding dissimilatory sulfite reductase (DSR) was used to identify sulfa...
Molecular information about the bacterial composition of a coculture capable of sulfate reduction af...
In the present work we describe a comprehensive analysis of sulfide oxidation in a fluidized bed rea...
Eutrophication and global climate change lead to expansion of hypoxia in the ocean, often accompanie...
The potential of microbial mats to develop sulfide-oxidizing biofims was explored. A bioreactor spec...
Roseobacter clade bacteria (RCB) are abundant in marine bacterioplankton worldwide and central to pe...
Large filamentous sulfide-oxidizing bacteria are capable of forming huge microbial mats at the oxic-...
The World s oceans host a variety of sulfidic habitats. Yet, microorganisms oxidizing reduced inorga...
A combination of fluorescence in situ hybridization (FISH), microprofiles, and denaturing gradient g...
Dysoxic marine waters (DMW, <1 M oxygen) are currently expanding in volume in the oceans, which has ...
The sulfate-reducing bacterial populations of a stratified marine water column, Mariager Fjord, Denm...
Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Here we describe the diversity and activity of sulfate-reducing bacteria (SRB) in sulfidogenic biore...
Anoxygenic phototrophic sulfide oxidation by green and purple sulfur bacteria (PSB) plays a key role...
Sequence analysis of genes encoding dissimilatory sulfite reductase (DSR) was used to identify sulfa...
Molecular information about the bacterial composition of a coculture capable of sulfate reduction af...
In the present work we describe a comprehensive analysis of sulfide oxidation in a fluidized bed rea...
Eutrophication and global climate change lead to expansion of hypoxia in the ocean, often accompanie...
The potential of microbial mats to develop sulfide-oxidizing biofims was explored. A bioreactor spec...
Roseobacter clade bacteria (RCB) are abundant in marine bacterioplankton worldwide and central to pe...
Large filamentous sulfide-oxidizing bacteria are capable of forming huge microbial mats at the oxic-...
The World s oceans host a variety of sulfidic habitats. Yet, microorganisms oxidizing reduced inorga...
A combination of fluorescence in situ hybridization (FISH), microprofiles, and denaturing gradient g...
Dysoxic marine waters (DMW, <1 M oxygen) are currently expanding in volume in the oceans, which has ...
The sulfate-reducing bacterial populations of a stratified marine water column, Mariager Fjord, Denm...
Marine sediments are frequently covered by mats of the filamentous Beggiatoa and other large nitrate...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Here we describe the diversity and activity of sulfate-reducing bacteria (SRB) in sulfidogenic biore...
Anoxygenic phototrophic sulfide oxidation by green and purple sulfur bacteria (PSB) plays a key role...