期刊
ENVIRONMENTAL MICROBIOLOGY
卷 21, 期 10, 页码 3539-3547出版社
WILEY
DOI: 10.1111/1462-2920.14778
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资金
- NSF [OCE-0939564]
- USC Zumberge Fund Individual Grant
- NASA-NSF Origins of Life Ideas Lab program [NNN13D466T]
- Alfred P. Sloan Foundation through the Deep Carbon Observatory
The biology literature is rife with misleading information on how to quantify catabolic reaction energetics. The principal misconception is that the sign and value of the standard Gibbs energy (Delta Gr0) define the direction and energy yield of a reaction; they do not. Delta Gr0 is one part of the actual Gibbs energy of a reaction (Delta G(r)), with a second part accounting for deviations from the standard composition. It is also frequently assumed that Delta Gr0 applies only to 25 degrees C and 1 bar; it does not. Delta Gr0 is a function of temperature and pressure. Here, we review how to determine Delta G(r) as a function of temperature, pressure and chemical composition for microbial catabolic reactions, including a discussion of the effects of ionic strength on Delta G(r) and highlighting the large effects when multi-valent ions are part of the reaction. We also calculate Delta G(r) for five example catabolisms at specific environmental conditions: aerobic respiration of glucose in freshwater, anaerobic respiration of acetate in marine sediment, hydrogenotrophic methanogenesis in a laboratory batch reactor, anaerobic ammonia oxidation in a wastewater reactor and aerobic pyrite oxidation in acid mine drainage. These examples serve as templates to determine the energy yields of other catabolic reactions at environmentally relevant conditions.
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