The climate benefit of seagrass blue carbon is reduced by methane fluxes and enhanced by nitrous oxide fluxes
Bradley D. Eyre, Nicola Camillini, Ronnie N. Glud, Judith A. Rosentreter
Abstract
Abstract Blue carbon is carbon stored long-term in vegetated coastal ecosystems, which constitutes an important sink for atmospheric carbon dioxide (CO 2 ). However, because methane (CH 4 ) and nitrous oxide (N 2 O) have higher global warming potentials (GWP) than CO 2 , their production and release during organic matter diagenesis can affect the climate benefit of blue carbon. Here, we present a meta-analysis synthesizing seagrass CH 4 and N 2 O fluxes and long-term organic carbon burial rates, and use these data to estimate the reduced climate benefit (offsets) of seagrass blue carbon using three upscaling approaches. Mean offsets for individual seagrass species (34.7% GWP 20 ;1.0% GWP 100 ) and globally (33.4% GWP 20 ;7.0% GWP 100 ) were similar, but GWP 20 offsets were higher, and GWP 100 offsets were lower than globally, for the Australian region (41.3% GWP 20 ;1.1% GWP 100 ). This study highlights the importance of using long-term organic carbon burial rates and accounting for both CH 4 and N 2 O fluxes in future seagrass blue carbon assessments.