2015
DOI: 10.5194/gmd-8-3823-2015
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On the relationships between the Michaelis–Menten kinetics, reverse Michaelis–Menten kinetics, equilibrium chemistry approximation kinetics, and quadratic kinetics

Abstract: Abstract. The Michaelis-Menten kinetics and the reverse Michaelis-Menten kinetics are two popular mathematical formulations used in many land biogeochemical models to describe how microbes and plants would respond to changes in substrate abundance. However, the criteria of when to use either of the two are often ambiguous. Here I show that these two kinetics are special approximations to the equilibrium chemistry approximation (ECA) kinetics, which is the first-order approximation to the quadratic kinetics tha… Show more

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Cited by 39 publications
(59 citation statements)
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“…Consistent with the "big microsite" approach articulated for the DAMM model structure (Davidson et al, 2014), we assume that the majority of extracellular enzymes can be represented by similar kinetic parameters, such as Ea and Km. Obviously, this is not universally true (Tang, 2015;Tang and Riley, 2013), just as all leaves simulated in "big leaf" models do not behave identically (Baldocchi and Meyers, 1998), but representing soil microbial metabolism at a "big microsite" permits model parsimony, and we test here its effectiveness.…”
Section: Modeling Approachmentioning
confidence: 99%
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“…Consistent with the "big microsite" approach articulated for the DAMM model structure (Davidson et al, 2014), we assume that the majority of extracellular enzymes can be represented by similar kinetic parameters, such as Ea and Km. Obviously, this is not universally true (Tang, 2015;Tang and Riley, 2013), just as all leaves simulated in "big leaf" models do not behave identically (Baldocchi and Meyers, 1998), but representing soil microbial metabolism at a "big microsite" permits model parsimony, and we test here its effectiveness.…”
Section: Modeling Approachmentioning
confidence: 99%
“…Incorporation of similar MCNiP algorithms into DAMM-FöBAAR or other ecosystem models and ESMs may provide further improvements, although it adds more parameters and reduces parsimony. Because it simulates both variation in enzyme production and diffusional constraints of substrate supply, DAMM-MCNiP was also able to apply equilibrium chemistry approximation (ECA) kinetics, which may be superior to using forward or reverse M-M approaches when enzyme and substrate concentrations can be simulated or measured independently (Tang, 2015;Tang and Riley, 2013). Similarly, incorporating microbial CUE could be valuable, as it largely dictates the uncertainty in longterm soil C stocks (Sihi et al, 2017), but also requires additional parameterizations that remain challenging due to variation in its fundamental definitions and measurement techniques.…”
Section: Scope For Future Improvements Of the Damm-föbaar Modelmentioning
confidence: 99%
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“…arrived at a reverse Michaelis-Menten depolymerisation function if enzymes only adsorbed to a fraction of binding sites because of complex substrates. Transitions between FWD and REV model behaviour have also been detailed in the more complex Equilibrium Chemistry Approximation model that also included sorption of enzymes and substrates to mineral surfaces (Tang and Riley, 2015;Tang, 2015). Our analysis shows that the positive feedback between decomposition and microbial growth is removed, as our REV model now has a stable short-term QSS.…”
Section: Discussionmentioning
confidence: 74%
“…This simplification can be justified with fast and efficient scavenging of microbes and, thus, fast turnover of the DOC pool. Further sensitivity analysis may shed light on the dynamics across the full parameter space, while using the simplified linear terms (Appendices B and C; Tang, 2015), particularly also because many of the parameters are difficult to estimate. Furthermore, we did not include nutrient requirements of microbes where considering the stoichiometric requirements can change the allocation of resources to optimise enzyme synthesis.…”
Section: Discussionmentioning
confidence: 99%