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Predicting the rate of microbial respiration in geochemical environments
Qusheng Jin,
Craig M. Bethke
Earth Science and Environmental Change
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peer-review
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Dive into the research topics of 'Predicting the rate of microbial respiration in geochemical environments'. Together they form a unique fingerprint.
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Keyphrases
Rate Law
100%
Geochemical Environment
100%
Microbial Respiration
100%
Respiration Rate
75%
Thermodynamic Control
75%
Microbes
50%
Respiration
50%
Kinetic Control
50%
Thermodynamic Driving Force
50%
Methanogenesis
50%
Sulfate Reduction
50%
Thermodynamic Parameters
25%
Kinetic Parameters
25%
Chemical Energy
25%
Thermodynamic Constraints
25%
Energy Available
25%
Kinetic Term
25%
Aerobic Respiration
25%
Respiratory Chain
25%
New Law
25%
Hydrothermal Fluids
25%
Energy Availability
25%
Aerobic Denitrification
25%
Engineering
Driving Force
100%
Microbial
100%
Energy Engineering
50%
Experimental Observation
50%
Kinetic Parameter
50%
Chemical Energy
50%
Thermodynamic Parameter
50%
Available Energy
50%
Rich Environment
50%
Aerobic Respiration
50%
Biochemistry, Genetics and Molecular Biology
Breathing Rate
100%
Microbial Respiration
100%
Microorganism
66%
Sulfate
66%
Methanogenesis
66%
Liquid
33%
Kinetic Parameter
33%
Electron Transport Chain
33%
Denitrification
33%
Immunology and Microbiology
Breathing Rate
100%
Microbial Respiration
100%
Microorganism
66%
Methanogenesis
66%
Liquid
33%
Kinetic Parameter
33%
Denitrification
33%
Respiratory Chain
33%