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- Microbial Function and Hydrochemistry Within a Stratified Anchialine Sinkhole: a Window Into Coastal Aquifer Interactions
- Bacterial Taxa Based on Greengenes Database GS1A PS1B ABY1 OD1
- Desulfoconvexum Algidum Gen. Nov., Sp. Nov., a Psychrophilic Sulfate-Reducing Bacterium Isolated from a Permanently Cold Marine Sediment
- 1715549114.Full.Pdf
- Exploring Mechanisms of Bacterial Adaptation to Seasonal Temperature Change
- WO 2012/168754 Al 13 December 2012 (13.12.2012) P O P C T
- Characterizing the Distribution of Microbial Sulfate Reduction in Loki`S Castle Hydrothermal System of the Arctic Mid-Ocean Ridge (AMOR)
- Environmental Impact of Sulfate-Reducing Bacteria, Their Role in Intestinal Bowel Diseases, and Possible Control by Bacteriophages
- Desulfamplus Magnetovallimortis Gen. Nov., Sp Nov., a Magnetotactic
- Microbial Ecology, Biogeochemistry, and Signatures of Life at Low Temperature in Arctic Thermokarst Lake Sediments and High Sierra Snow Fields
- Supplementary Information
- Downloaded 172 from the NCBI WGS and Genbank Databases
- Desulfonatronobacter Acetoxydans Sp. Nov.,: a First Acetate-Oxidizing
- A Genome-Guided Analysis of Desulfotignum Phosphitoxidans Anja Poehlein1, Rolf Daniel1, Bernhard Schink2 and Diliana D Simeonova2*
- Supplementary Materials
- Evidence for Phylogenetically and Catabolically Diverse Active Diazotrophs in Deep-Sea Sediment
- Supplementary Table1.Pdf
- Detection of Survival and Proliferation of Sulfate Reducers Under
- Microbial Communities Across a Hillslope‐Riparian Transect Shaped by Proximity to the Stream, Groundwater Table, and Weathered Bedrock
- 1 Supplementary Information 1 2 3 Supplementary Fig. 1. Nutrient
- Jeremy C. Smith Environment
- Anode Potential Selection for Sulfide Removal in Contaminated Marine Sediments
- (NORMALIZED to the Genus Level): SRB/SOB
- The Genetic Basis for Bacterial Mercury Methylation
- Full Text in Pdf Format
- Supplemental Results and Discussion
- Desulfobulbus Propionicus Type Strain (1Pr3)
- Metabolic Associations with Archaea Drive Shifts in Hydrogen Isotope Fractionation in Sulfate-Reducing Bacterial Lipids in Cocultures and Methane Seeps