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Climate warming increases global oceanic dimethyl sulfide emissions

Sankirna D. Joge, Karam Mansour, Rafel Simó, Martí Galí, Nadja Steiner, Alfonso Saiz‐Lopez, Anoop S. Mahajan

2025Proceedings of the National Academy of Sciences7 citationsDOIOpen Access PDF

Abstract

Oceanic dimethyl sulfide (DMS) is the largest natural source of atmospheric sulfur. DMS is biologically produced in seawater and emitted into the atmosphere, where its oxidation products contribute to aerosol formation with consequences for cloud albedo and the Earth's radiative budget and climate. Climate model projections of how DMS emissions change with global warming are largely uncertain, even contradictory. Here, we use machine-learning models trained with biome-resolved global observations to simulate seawater DMS concentrations (1850 to 2100) using physico-chemical and biological predictors from eight CMIP6 models. The scatter in current projections is largely reduced, and globally averaged seawater DMS concentrations are predicted to decrease in the coming decades. However, global DMS emissions will increase due to rising surface wind speeds and sea surface temperatures which contradicts the current AR6 assessment that the DMS flux will reduce in the future. Concurrence of increasing DMS emissions and declining anthropogenic sulfur dioxide emissions suggests an increase in the relative importance of DMS to sulfate aerosol formation and its climate cooling impact.

Topics & Concepts

Dimethyl sulfideSulfate aerosolEnvironmental scienceAerosolAtmospheric sciencesSeawaterClimatologyCarbonyl sulfideGlobal warmingAtmosphere (unit)Cloud albedoSulfateClimate modelBiomeClimate changeSea sprayAlbedo (alchemy)SulfurMeteorologyOceanographyCloud coverChemistryGeologyEcosystemEcologyCloud computingPerformance artPhysicsOperating systemArtOrganic chemistryBiologyArt historyComputer scienceAtmospheric chemistry and aerosolsAir Quality and Health ImpactsAir Quality Monitoring and Forecasting
Climate warming increases global oceanic dimethyl sulfide emissions | Litcius