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Cellular energy conservation and the rate of microbial sulfate reduction
Qusheng Jin,
Craig M. Bethke
Earth Science and Environmental Change
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peer-review
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Keyphrases
Energy Conservation
100%
Microbial Sulfate Reduction
100%
Cellular Energy
100%
SO42-
66%
Sulfate Reduction
66%
Thermodynamics
33%
Microbial Consortium
33%
Microorganisms
33%
Thermodynamic Limit
33%
Natural Environment
33%
Electron Donor
33%
Pore Water Chemistry
33%
Kinetic Theory
33%
Energy Saving
33%
Cellular Physiology
33%
Aquifer Sediment
33%
Lacustrine Sediments
33%
Energetic Requirements
33%
Pure Culture
33%
Laboratory Environment
33%
Reactive Transport
33%
Marine Sediments
33%
Energy Availability
33%
Sulfate Reducers
33%
Culture Experiment
33%
Lake Washington
33%
Earth and Planetary Sciences
Washington
100%
United States of America
100%
Porewater
100%
Physical Environment
100%
Reactive Transport
100%
Kinetic Theory
100%
Water Chemistry
100%
Sulphate Reducer
100%
Immunology and Microbiology
Cell Energy
100%
Energy Transfer
50%
Microbial Consortium
50%
Sulfate Reducer
50%
Microorganism
50%
Engineering
Microbial
100%
Mols
75%
Energetics
25%
Thermodynamic Limit
25%
Electron Donor
25%
Water Chemistry
25%