Litcius/Paper detail

Critical inundation level for methane emissions from wetlands

Salvatore Calabrese, Alicia García, Jared Wilmoth, Xinning Zhang, Amilcare Porporato

2021Environmental Research Letters58 citationsDOIOpen Access PDF

Abstract

Abstract Global methane (CH 4 ) emissions have reached approximately 600 Tg per year, 20%–40% of which are from wetlands. Of the primary factors affecting these emissions, the water table level is among the most uncertain. Here we conduct a global meta-analysis of chamber and flux-tower observations of CH 4 emissions and employ a novel mechanistic model to show that wetlands have maximum emissions at a critical level of inundation and discuss its origin. This maximum arises from an interplay between methanogenesis, methanotrophy, and transport, whose rates vary differently with the inundation level. The specific location of the critical water level above the soil surface may differ depending on wetland characteristics, for example temperature or the presence of macrophytes with aerenchyma. However, data suggest that globally a water level of about 50 cm is the most favorable to CH 4 emissions. Keeping the water level away from this critical value could reduce methane emissions in human-made wetlands, which comprise at least one fifth of the global wetland area.

Topics & Concepts

WetlandEnvironmental scienceMethanogenesisMethaneWater tableMacrophyteGreenhouse gasHydrology (agriculture)Water levelAtmospheric sciencesAerenchymaFlux (metallurgy)Methane emissionsGroundwaterEcologyGeologyChemistryGeographyBiologyGeotechnical engineeringCartographyOrganic chemistryPeatlands and Wetlands EcologyAtmospheric and Environmental Gas DynamicsMethane Hydrates and Related Phenomena