Litcius/Paper detail

Inverse modeling of 2010–2022 satellite observations shows that inundation of the wet tropics drove the 2020–2022 methane surge

Zhen Qu, Daniel J. Jacob, A. Anthony Bloom, John R. Worden, Robert J. Parker, Hartmut Boesch

2024Proceedings of the National Academy of Sciences33 citationsDOIOpen Access PDF

Abstract

Atmospheric methane concentrations rose rapidly over the past decade and surged in 2020-2022 but the causes have been unclear. We find from inverse analysis of GOSAT satellite observations that emissions from the wet tropics drove the 2010-2019 increase and the subsequent 2020-2022 surge, while emissions from northern mid-latitudes decreased. The 2020-2022 surge is principally contributed by emissions in Equatorial Asia (43%) and Africa (30%). Wetlands are the major drivers of the 2020-2022 emission increases in Africa and Equatorial Asia because of tropical inundation associated with La Niña conditions, consistent with trends in the GRACE terrestrial water storage data. In contrast, emissions from major anthropogenic emitters such as the United States, Russia, and China are relatively flat over 2010-2022. Concentrations of tropospheric OH (the main methane sink) show no long-term trend over 2010-2022 but a decrease over 2020-2022 that contributed to the methane surge.

Topics & Concepts

Environmental scienceTropicsMethane emissionsMethaneClimatologyAtmospheric sciencesSink (geography)SurgeLatitudeWetlandAtmospheric methaneMeteorologyGeographyGeologyEcologyGeodesyBiologyCartographyAtmospheric and Environmental Gas DynamicsAtmospheric Ozone and ClimateMethane Hydrates and Related Phenomena