Abstract
Abstract. Decomposition of soil organic matter (SOM) is limited by both the available substrate and the active decomposer community. The understanding of this colimitation strongly affects the understanding of feedbacks of soil carbon to global warming and its consequences. This study compares different formulations of soil organic matter (SOM) decomposition. We compiled formulations from literature into groups according to the representation of decomposer biomass on the SOM decomposition rate a) non-explicit (substrate only), b) linear, and c) non-linear. By varying the SOM decomposition equation in a basic simplified decomposition model, we analyzed the following questions. Is the priming effect represented? Under which conditions is SOM accumulation limited? And, how does steady state SOM stocks scale with amount of fresh organic matter (FOM) litter inputs? While formulations (a) did not represent the priming effect, with formulations (b) steady state SOM stocks were independent of amount of litter input. Further, with several formulations (c) there was an offset of SOM that was not decomposed when no fresh OM was supplied. The finding that a part of the SOM is not decomposed on exhaust of FOM supply supports the hypothesis of carbon stabilization in deep soil by the absence of energy-rich fresh organic matter. Different representations of colimitation of decomposition by substrate and decomposers in SOM decomposition models resulted in qualitatively different long-term behaviour. A collaborative effort by modellers and experimentalists is required to identify formulations that are more or less suitable to represent the most important drivers of long term carbon storage.
Highlights
Plant litter or fresh organic matter (FOM) that enters the soil is decomposed by decomposer communities
Is the priming effect represented? Under which conditions is soil organic matter (SOM) accumulation limited? And, how does steady state SOM stocks scale with amount of fresh organic matter (FOM) litter inputs? While formulations (a) did not represent the priming effect, with formulations (b) steady state SOM stocks were independent of amount of litter input
We showed that the consequences of various formulations can be grouped according to the representation of active decomposer biomass in the decomposition of SOM
Summary
Plant litter or fresh organic matter (FOM) that enters the soil is decomposed by decomposer communities. In this process a part of the FOM is transformed to soil organic matter (SOM) and most of the carbon is released as CO2 to the atmosphere. This article studies the long-term consequences of several modelling assumptions regarding the decomposition process. It answers the following question: What decomposition formulations have been applied in SOM decomposition models, what are their underlying assumptions, and how can they be classified? The assumption of different decomposer communities that mutually independent decompose different kinds of substrates has led to a widely used representation of decomposition at decadal to millennial time scales that is focused on substrate only (Paustian et al, 1997)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
