Informace o publikaci

Assessment of non-stationary tree growth responses in the forest-tundra and southern taiga of central Siberia

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KIRDYANOV Alexander V ARZAC Alberto PROKUSHKIN Anatoly S OVCHINNIKOV Dmitriy V BONDAREV Alexander I SILKIN Pavel P BEBCHUK Tatiana ESPER Jan BÜNTGEN Ulf

Rok publikování 2025
Druh Článek v odborném periodiku
Časopis / Zdroj Agricultural and Forest Meteorology
Fakulta / Pracoviště MU

Přírodovědecká fakulta

Citace
www https://www.sciencedirect.com/science/article/pii/S016819232400409X
Doi http://dx.doi.org/10.1016/j.agrformet.2024.110296
Klíčová slova Arctic dimming; Boreal forests; Dendroclimatology; Divergence problem (DP); Global warming; Spatiotemporal heterogeneity
Popis Anthropogenically induced climate change largely affects the functioning of vegetation communities worldwide. In the world's largest land biome, the boreal forest, a persistent decoupling of tree growth from rising summer temperatures has been recorded in recent decades. This so-called 'Divergence Problem' (DP) has been studied over the past 30 years, yet the causes and spatial patterns within the boreal forest zone are not well understood. Here, we present tree-ring evidence on varying DP in Larix gmelinii from the globally northernmost forest island on Taymyr Peninsula and Larix sibirica from the southern taiga in central Siberia. Tree-ring width and maximum latewood density data reveal DP to be substantially stronger in the south indicating that growth-climate relationships in Siberian larch passed beyond a tipping point under warmer climate and increased anthropogenic pressure. In the north, the temperature signal remained strong and temporally stable underscoring the skill of tree-ring chronologies for long-term climate reconstructions. These findings highlight the heterogeneity of tree growth responses to global warming within the boreal forest zone, from which spatially varying consequences for carbon and water cycle dynamics must be expected. Our study emphasizes the importance of updating tree-ring chronologies in remote regions within boreal forest zone to foster understanding of spatiotemporal patterns in biomass allocation, permafrost degradation, and DP across this large biome.

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