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Boreal–Arctic wetland methane emissions modulated by warming and vegetation activity

Kunxiaojia Yuan, Fa Li, Gavin McNicol, Min Chen, Alison M. Hoyt, Sara Knox, W. J. Riley, Robert B. Jackson, Qing Zhu

2024Nature Climate Change84 citationsDOIOpen Access PDF

Abstract

Abstract Wetland methane (CH 4 ) emissions over the Boreal–Arctic region are vulnerable to climate change and linked to climate feedbacks, yet understanding of their long-term dynamics remains uncertain. Here, we upscaled and analysed two decades (2002–2021) of Boreal–Arctic wetland CH 4 emissions, representing an unprecedented compilation of eddy covariance and chamber observations. We found a robust increasing trend of CH 4 emissions (+8.9%) with strong inter-annual variability. The majority of emission increases occurred in early summer (June and July) and were mainly driven by warming (52.3%) and ecosystem productivity (40.7%). Moreover, a 2 °C temperature anomaly in 2016 led to the highest recorded annual CH 4 emissions (22.3 Tg CH 4 yr −1 ) over this region, driven primarily by high emissions over Western Siberian lowlands. However, current-generation models from the Global Carbon Project failed to capture the emission magnitude and trend, and may bias the estimates in future wetland CH 4 emission driven by amplified Boreal–Arctic warming and greening.

Topics & Concepts

Environmental scienceBorealWetlandClimate changeGreenhouse gasArcticEddy covarianceClimatologyAtmospheric sciencesGlobal warmingVegetation (pathology)PermafrostEcosystemTaigaEcologyGeologyMedicinePathologyBiologyAtmospheric and Environmental Gas DynamicsPeatlands and Wetlands EcologyClimate variability and models