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Boreal forest tree growth and sap flow after a low-severity wildfire

Paulina Dukat Orcid Logo, Julia Kelly Orcid Logo, Stefan Doerr Orcid Logo, Johannes Edvardsson, Teemu S. Hölttä Orcid Logo, Irene Lehner Orcid Logo, Anders Lindroth, Cristina Santin Nuno, Natascha Kljun Orcid Logo

Agricultural and Forest Meteorology, Volume: 347, Start page: 109899

Swansea University Authors: Stefan Doerr Orcid Logo, Cristina Santin Nuno, Natascha Kljun Orcid Logo

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Abstract

Boreal forests are exposed to larger and more frequent fires due to climate change, with significant consequences for their carbon and water balances. Low-severity fires (trees charred but surviving) are the most common fire regime in the Eurasian boreal forest, but we still lack understanding on ho...

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Published in: Agricultural and Forest Meteorology
ISSN: 0168-1923
Published: Elsevier BV 2024
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa65775
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Abstract: Boreal forests are exposed to larger and more frequent fires due to climate change, with significant consequences for their carbon and water balances. Low-severity fires (trees charred but surviving) are the most common fire regime in the Eurasian boreal forest, but we still lack understanding on how they impact tree functioning. This study focused on the dynamics of tree transpiration and stem growth of Pinus sylvestris in central Sweden after a large wildfire in 2018. We compared a stand impacted by low-severity fire (LM) with an unburnt stand (UM), over three years following the fire (2020–2022). We found that transpiration was on average lower and more variable within the stand at LM compared to UM. LM also had consistently lower stem growth compared to UM, resulting in larger accumulated growth for the unburnt site in the second to fourth year after the fire. Our results highlight the complex effects of low-severity fire on tree water cycling, with both direct (damage to tree xylem and roots) and indirect fire impacts (due to loss of understory vegetation and changes in soil properties). Trees affected by low-severity fire also exhibited reduced resilience to water shortages. Considering the expected increase in frequency of droughts and forest fires at higher northern latitudes, such indirect fire impacts may put additional pressure on the boreal forest.
Keywords: 2018 Drought; Eurasia; Forest fire; Nordic pine forest; Tree increment growth; Tree transpiration
College: Faculty of Science and Engineering
Funders: This research was funded by FORMAS grants #2018-02700 and 2019-00836, and the Crafoord foundation grant 20190763. We thank Jukka Kuivaniemi for his support in accessing and establishing the sites. We are also grateful to Ellinor Delin, Margarida Soares, and Jonas Nilsson for their help conducting the vegetation surveys. The work was done in collaboration with the University of Helsinki in the framework of the project 342930 of the Academy of Finland and with Poznan university of Life Sciences in the framework of the project by General Directorate of the State Forests, Warsaw, Poland (project name: LAS IV 31/2021/B; contract no. EZ.271.3.3.2021).
Start Page: 109899