Litcius/Paper detail

Reduced magnitude and shifted seasonality of CO<sub>2</sub> sink by experimental warming in a coastal wetland

Baoyu Sun, Liming Yan, Jiang Ming, Xinge Li, Guangxuan Han, Jianyang Xia

2020Ecology19 citationsDOIOpen Access PDF

Abstract

Abstract Coastal wetlands have the highest carbon sequestration rate per unit area among all unmanaged natural ecosystems. However, how the magnitude and seasonality of the CO 2 sink in coastal wetlands will respond to future climate warming remains unclear. Here, based on measurements of ecosystem CO 2 fluxes in a field experiment in the Yellow River Delta, we found that experimental warming (i.e., a 2.4°C increase in soil temperature) reduced net ecosystem productivity (NEP) by 23.7% across two growing seasons of 2017–2018. Such a reduction in NEP resulted from the greater decrease in gross primary productivity (GPP) than ecosystem respiration (ER) under warming. The negative warming effect on NEP mainly occurred in summer (−43.9%) but not in autumn (+61.3%), leading to a shifted NEP seasonality under warming. Further analyses showed that the warming effects on ecosystem CO 2 exchange were mainly controlled by soil salinity and its corresponding impacts on species composition. For example, warming increased soil salinity (+35.0%), reduced total aboveground biomass (−9.9%), and benefited the growth of plant species with high salt tolerance and late peak growth. To the best of our knowledge, this study provides the first experimental evidence on the reduced magnitude and shifted seasonality of CO 2 exchange under climate warming in coastal wetlands. These findings underscore the high vulnerability of wetland CO 2 sink in coastal regions under future climate change.

Topics & Concepts

Environmental scienceWetlandEcosystemSeasonalityGlobal warmingCarbon sinkEcologyClimate changeSalinitySink (geography)ProductivityBiomass (ecology)Ecosystem respirationPrimary productionHydrology (agriculture)GeographyBiologyEngineeringEconomicsGeotechnical engineeringMacroeconomicsCartographyCoastal wetland ecosystem dynamicsPeatlands and Wetlands EcologyFire effects on ecosystems