Litcius/Paper detail

Anaerobic oxidation has a minor effect on mitigating seafloor methane emissions from gas hydrate dissociation

Christian Stranne, Matt O’Regan, Wei‐Li Hong, Volker Brüchert, Marcelo Ketzer, Brett F. Thornton, Martin Jakobsson

2022Communications Earth & Environment16 citationsDOIOpen Access PDF

Abstract

Abstract Continental margin sediments contain large reservoirs of methane stored as gas hydrate. Ocean warming will partly destabilize these reservoirs which may lead to the release of substantial, yet unconstrained, amounts of methane. Anaerobic oxidation of methane is the dominant biogeochemical process to reduce methane flux, estimated to consume 90% of the methane produced in marine sediments today. This process is however neglected in the current projections of seafloor methane release from gas hydrate dissociation. Here, we introduce a fully coupled oxidation module to a hydraulic-thermodynamic-geomechanical hydrate model. Our results show that for seafloor warming rates > 1 °C century −1 , the efficiency of anaerobic oxidation of methane in low permeability sediments is poor, reducing the seafloor methane emissions by <5%. The results imply an extremely low mitigating effect of anaerobic oxidation of methane on climate warming-induced seafloor methane emissions.

Topics & Concepts

MethaneAnaerobic oxidation of methaneClathrate hydrateSeafloor spreadingHydrateEnvironmental chemistryEnvironmental scienceAtmospheric methaneDissociation (chemistry)Cold seepGeologyChemistryOceanographyOrganic chemistryPhysical chemistryMethane Hydrates and Related PhenomenaAtmospheric and Environmental Gas DynamicsHydrocarbon exploration and reservoir analysis