Increased suppression of methane production by humic substances in response to warming in anoxic environments

Abstract

Humic substances (HS) are redox-active and can function as organic terminal electron acceptors in anaerobic microbial respiration, which plays a relevant role on suppressing the emissions of methane (CH₄) in anoxic systems. However, it is unclear whether or not there is an inherent link between suppression of CH₄ emissions by HS and warming temperature. In this study, we assess the effects of HS additions on CH₄ production in paddy and wetland soils and their responses to increasing temperature by incubation experiments. We show that the intensity of HS to suppress CH₄ production under anoxic condition is positively associated with the temperature, which may be due to the fact that the activities of enzymes involved in methanogenesis have lower temperature sensitivity than those involved in microbial HS reduction, and that the methanogenesis process is less susceptible to increasing temperature compared to the microbial HS reduction process. The hypothetical increase in the effectiveness of pH alteration and HS toxicity caused by warming may be also responsible for the increased inhibition of CH₄ production by HS addition in response to increasing temperature. Our findings highlight the increasingly important role of HS in suppressing CH₄ production in anoxic ecosystems in a future warmer world.

Keywords: Humic substances; Increasing temperature; Paddy soil; Suppression of methane production; Wetland soil.