Nutrient turnover by large sulfur bacteria on the Namibian mud belt during the low productivity season

Keyphrases

• Ammonium 9%
• Analytical Uncertainty 9%
• Beggiatoaceae 9%
• Benguela Upwelling System 27%
• Benthic Fluxes 9%
• Biogeochemical Model 9%
• Candidatus 9%
• Catabolic Pathway 9%
• Chemotrophic 9%
• Coastal mud Belt 9%
• Dynamic Precipitation 9%
• Electron Acceptor 9%
• Fish Bone 9%
• Hydrogen Sulfide 18%
• Hydroxyapatite 18%
• Hydroxyapatite Formation 9%
• Large Sulfur Bacteria 100%
• Low Productivity 100%
• Major Components 9%
• Model Uncertainty 9%
• Mud Belt 100%
• N Cycling 9%
• N Flux 9%
• Namibia 9%
• Negative Feedback 9%
• Nitrate 9%
• Nitrate Reduction 27%
• Nutrient Cycling 9%
• Nutrient Turnover 100%
• Organic Carbon Remineralization 9%
• P Cycling 9%
• P Fluxes 9%
• P Sink 9%
• P Source 9%
• Particulate P 9%
• Phosphate 9%
• Polyphosphate Accumulation 9%
• Polyps 9%
• Primary Production 18%
• Simplifying Assumption 9%
• Surface Sediments 9%
• Thiomargarita 9%
• Water Column 9%

Earth and Planetary Sciences

• Benthic Flux 33%
• Hydroxylapatite 100%
• Namibia 33%
• Negative Feedback 33%
• Nitrate Reduction 100%
• Nutrient Cycling 33%
• Organic Carbon 33%
• Primary Production 66%
• Remineralization 33%
• Sulfide 66%
• Water Column 33%

Immunology and Microbiology

• Biogeochemical Cycling 9%
• Dynamics 9%
• Negative Feedback 9%
• Sulfur Bacterium 100%
• Thiotrichaceae 9%