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1. Future methane fluxes of peatlands are controlled by management practices and fluctuations in hydrological conditions due to climatic variability.

Author

Tyystjärvi, Vilna, Markkanen, Tiina, Backman, Leif, Raivonen, Maarit, Leppänen, Antti, Li, Xuefei, Ojanen, Paavo, Minkkinen, Kari, Hautala, Roosa, Peltoniemi, Mikko, Anttila, Jani, Laiho, Raija, Lohila, Annalea, Mäkipää, Raisa, and Aalto, Tuula

Subjects

PEATLAND restoration, PEATLAND management, ATMOSPHERIC methane, FOREST management, SOIL temperature, FOREST soils, PEATLANDS

Abstract

Peatland management practices, such as drainage and restoration, have a strong effect on boreal peatland methane (CH4) fluxes. Furthermore, CH4 fluxes are strongly controlled by local environmental conditions, such as soil hydrology, temperature and vegetation, which are all experiencing considerable changes due to climate change. Both management practices and climate change are expected to influence peatland CH4 fluxes during this century but the magnitude and net impact of these changes is still insufficiently understood. In this study, we simulated the impacts of two forest management practices, rotational forestry and continuous cover forestry, as well as peatland restoration on hypothetical forestry-drained peatlands across Finland using the land surface model JSBACH coupled with the soil carbon model YASSO and peatland methane model HIMMELI. We further simulated the impacts of climatic warming using two RCP (Representative Concentration Pathway) emission scenarios, RCP 2.6 and RCP 4.5. We investigated the response of CH4 fluxes, soil water-table level (WTL), soil temperatures, and soil carbon dynamics to changes in management practices and climate. Our results show that management practices have a strong impact on peatland WTLs and CH4 emissions continuing for several decades, with emissions increasing after restoration and clearcutting. Towards the end of the century, WTLs increase slightly likely due to increasing precipitation. CH4 fluxes have opposing trends in restored and drained peatlands. In restored peatlands, CH4 emissions decrease towards the end of the century following the decomposition harvest residue in the top peat layers, while in drained peatland forests sinks get weaker and occasional emissions become more common, likely due to rising WTL and soil temperatures. The strength of these trends vary across the country, with CH4 emissions from restored peatlands decreasing more strongly in southern Finland and forest soil CH4 sinks weakening most in northern Finland. [ABSTRACT FROM AUTHOR]

Published

2024