Impact of winter warming on CO2 fluxes in evergreen needleleaf forests

Compared to drought and heat waves, the impact of winter warming on forest CO2 fluxes has been less studied, despite its significant relevance in colder regions with higher soil carbon content. Our objective was to test the effect of the exceptionally warm winter of 2020 on the winter CO2 budget of cold-adapted evergreen needleleaf forests across Europe and identify the contribution of climate factors to changes in winter CO2 fluxes. Our hypothesis was that warming in winter leads to higher emissions across colder sites due to increased ecosystem respiration. To test this hypothesis, we used 98 site-year eddy covariance measurements across 14 evergreen needleleaf forests (ENFs) distributed from the north to the south of Europe (from Sweden to Italy). We used a data-driven approach to quantify the effect of radiation, air temperature, and soil temperature on changes in CO2 fluxes during the warm winter of 2020. Our results showed that warming in winter decreased forest net ecosystem productivity (NEP) significantly across most sites. The contribution of climate variables to CO2 fluxes varied across the sites: in southern regions with warmer mean temperatures, radiation had a greater influence on NEP. Conversely, at colder sites, air temperature played a more critical role in affecting NEP. During the warm winter of 2020, colder regions experienced larger air temperature anomalies compared to the other sites; however we did not observe a significantly larger increase at colder sites due to winter warming. The varying responses of NEP across different sites highlight the complex interactions between climate variables such as air temperature, soil temperature, and radiation. These findings underscore the importance of integrating winter warming effects to more accurately predict the impacts of climate change on forest carbon dynamics.

GHARUN Mana;  ANKIT Shekhar;  HORTNAGL Lukas;  KREBS Luana;  ARRIGA Nicola;  MIGLIAVACCA Mirco;  ROLAND Marilyn;  GIELEN Bert;  MONTAGNANI Leonardo;  TOMELLERI Enrico;  SIGUT Ladislav;  PEICHL Matthias;  PENG Zhao;  SCHMIDT Marius;  GRUNWALD T.;  KORKIAKOSKI Mika;  LOHILA Annalea;  BUCHMANN Nina; 

2025-05-26

COPERNICUS GESELLSCHAFT MBH

JRC135351

1726-4189 (online),   

https://bg.copernicus.org/articles/22/1393/2025/,    https://publications.jrc.ec.europa.eu/repository/handle/JRC135351,   

10.5194/bg-22-1393-2025 (online),