Litcius/Paper detail

Biological mechanisms may contribute to soil carbon saturation patterns

Matthew E. Craig, Melanie A. Mayes, Benjamin N. Sulman, Anthony P. Walker

2021Global Change Biology98 citationsDOIOpen Access PDF

Abstract

, yet SOC pools often appear to saturate, or increase at a declining rate, as carbon (C) inputs increase. Soil C saturation is commonly hypothesized to result from the finite amount of reactive mineral surface area available for retaining SOC, and is accordingly represented in SOC models as a physicochemically determined SOC upper limit. However, mineral-associated SOC is largely microbially generated. In this perspective, we present the hypothesis that apparent SOC saturation patterns could emerge as a result of ecological constraints on microbial biomass-for example, via competition or predation-leading to reduced C flow through microbes and a reduced rate of mineral-associated SOC formation as soil C inputs increase. Microbially explicit SOC models offer an opportunity to explore this hypothesis, yet most of these models predict linear microbial biomass increases with C inputs and insensitivity of SOC to input rates. Synthesis of 54 C addition studies revealed constraints on microbial biomass as C inputs increase. Different hypotheses limiting microbial density were embedded in a three-pool SOC model without explicit limits on mineral surface area. As inputs increased, the model demonstrated either no change, linear, or apparently saturating increases in mineral-associated and particulate SOC pools. Taken together, our results suggest that microbial constraints are common and could lead to reduced mineral-associated SOC formation as input rates increase. We conclude that SOC responses to altered C inputs-or any environmental change-are influenced by the ecological factors that limit microbial populations, allowing for a wider range of potential SOC responses to stimuli. Understanding how biotic versus abiotic factors contribute to these patterns will better enable us to predict and manage soil C dynamics.

Topics & Concepts

Soil carbonSaturation (graph theory)Biomass (ecology)Environmental scienceSoil scienceLimitingSoil waterEnvironmental chemistryEcologyChemistryBiologyMathematicsCombinatoricsEngineeringMechanical engineeringSoil Carbon and Nitrogen DynamicsMicrobial Community Ecology and PhysiologyAtmospheric and Environmental Gas Dynamics