Litcius/Paper detail

Global peatland greenhouse gas dynamics: state of the art, processes, and perspectives

Ülo Mander, Maarja Öpik, Mikk Espenberg

2025New Phytologist33 citationsDOIOpen Access PDF

Abstract

Summary Natural peatlands regulate greenhouse gas (GHG) fluxes through a permanently high groundwater table, causing carbon dioxide (CO 2 ) assimilation but methane (CH 4 ) emissions due to anaerobic conditions. By contrast, drained and disturbed peatlands are hotspots for CO 2 and nitrous oxide (N 2 O) emissions, while CH 4 release is low but high from drainage ditches. Generally, in low‐latitude (tropical and subtropical) peatlands, emissions of all GHGs are higher than in high‐latitude (temperate, boreal, and Arctic) peatlands. Their inherent dependence on the water regime makes peatlands highly vulnerable to both direct and indirect anthropogenic impacts, including climate change‐induced drying, which is creating anthro‐natural ecosystems. This paper presents state‐of‐the‐art knowledge on peatland GHG fluxes and their key regulating processes, highlighting approaches to study spatio‐temporal dynamics, integrated methods, direct and indirect human impacts, and peatlands' perspectives.

Topics & Concepts

PeatGreenhouse gasEnvironmental scienceDynamics (music)Atmospheric sciencesEarth scienceEcologyBiologyPhysicsGeologyAcousticsPeatlands and Wetlands EcologyClimate change and permafrostCoastal wetland ecosystem dynamics