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From broadleaves to conifers : the effect of tree composition and density on understory microclimate across latitudes

Joan Díaz-Calafat, Jaime Uria-Diez, Jörg Brunet, Pieter De Frenne (UGent) , Pieter Vangansbeke (UGent) , Adam Felton, Erik Öckinger, Sara A.O. Cousins, Jürgen Bauhus, Quentin Ponette, et al.
(2023) AGRICULTURAL AND FOREST METEOROLOGY. 341.
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Abstract
Forest canopies buffer the macroclimate and thus play an important role in mitigating climate-warming impacts on forest ecosystems. Despite the importance of the tree layer for understory microclimate buffering, our knowledge about the effects of forest structure, composition and their interactions with macroclimate is limited, especially in mixtures of conifers and broadleaves. Here we studied five mixed forest stands along a 1800 km latitudinal gradient covering a 7 degrees C span in mean annual temperature. In each of these forests we established 40 plots (200 in total), in which air and soil temperatures were measured continuously for at least one year. The plots were located across gradients of forest density and broadleaved proportions (i.e. from open to closed canopies, and from 100% conifer to 100% broadleaved tree dominance). Air minimum, mean and maximum temperature offsets (i.e. difference between macroclimate and microclimate) and soil mean temperature offsets were calculated for the coldest and warmest months. Forest structure, and especially forest density, was the key determinant of understory temperatures. However, the absolute and relative importance of the proportion of broadleaves and forest density differed largely between response variables. Forest density ranged from being independent of, to interacting with, tree species composition. The effect of these two variables was independent of the macroclimate along our latitudinal gradient. Temperature, precipitation, snow depth and wind outside forests affected understory temperature buffering. Finally, we found that the scale at which the overstory affects soil microclimate approximated 6-7 m, whereas for air microclimate this was at least 10 m. These findings have implications for biodiversity conservation and forest management in a changing climate, as they facilitate the projection of understory temperatures in scenarios where both forest structure and macroclimate are dynamic. This is especially relevant given the global importance of ongoing forest conversion from conifers to broadleaves, and vice versa.
Keywords
Microclimate, Forest understory, Forest density, Broadleaves, Understory temperature, Latitudinal gradient, CLIMATE-CHANGE, PLANT-RESPONSES, FOREST, TEMPERATURE, BIODIVERSITY, DYNAMICS, CANOPY, IMPACT, RANGE, VEGETATION

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MLA
Díaz-Calafat, Joan, et al. “From Broadleaves to Conifers : The Effect of Tree Composition and Density on Understory Microclimate across Latitudes.” AGRICULTURAL AND FOREST METEOROLOGY, vol. 341, 2023, doi:10.1016/j.agrformet.2023.109684.
APA
Díaz-Calafat, J., Uria-Diez, J., Brunet, J., De Frenne, P., Vangansbeke, P., Felton, A., … Hedwall, P.-O. (2023). From broadleaves to conifers : the effect of tree composition and density on understory microclimate across latitudes. AGRICULTURAL AND FOREST METEOROLOGY, 341. https://doi.org/10.1016/j.agrformet.2023.109684
Chicago author-date
Díaz-Calafat, Joan, Jaime Uria-Diez, Jörg Brunet, Pieter De Frenne, Pieter Vangansbeke, Adam Felton, Erik Öckinger, et al. 2023. “From Broadleaves to Conifers : The Effect of Tree Composition and Density on Understory Microclimate across Latitudes.” AGRICULTURAL AND FOREST METEOROLOGY 341. https://doi.org/10.1016/j.agrformet.2023.109684.
Chicago author-date (all authors)
Díaz-Calafat, Joan, Jaime Uria-Diez, Jörg Brunet, Pieter De Frenne, Pieter Vangansbeke, Adam Felton, Erik Öckinger, Sara A.O. Cousins, Jürgen Bauhus, Quentin Ponette, and Per-Ola Hedwall. 2023. “From Broadleaves to Conifers : The Effect of Tree Composition and Density on Understory Microclimate across Latitudes.” AGRICULTURAL AND FOREST METEOROLOGY 341. doi:10.1016/j.agrformet.2023.109684.
Vancouver
1.
Díaz-Calafat J, Uria-Diez J, Brunet J, De Frenne P, Vangansbeke P, Felton A, et al. From broadleaves to conifers : the effect of tree composition and density on understory microclimate across latitudes. AGRICULTURAL AND FOREST METEOROLOGY. 2023;341.
IEEE
[1]
J. Díaz-Calafat et al., “From broadleaves to conifers : the effect of tree composition and density on understory microclimate across latitudes,” AGRICULTURAL AND FOREST METEOROLOGY, vol. 341, 2023.
@article{01HGDN1ZR0MMWMT82THDAY51J9,
  abstract     = {{Forest canopies buffer the macroclimate and thus play an important role in mitigating climate-warming impacts on forest ecosystems. Despite the importance of the tree layer for understory microclimate buffering, our knowledge about the effects of forest structure, composition and their interactions with macroclimate is limited, especially in mixtures of conifers and broadleaves. Here we studied five mixed forest stands along a 1800 km latitudinal gradient covering a 7 degrees C span in mean annual temperature. In each of these forests we established 40 plots (200 in total), in which air and soil temperatures were measured continuously for at least one year. The plots were located across gradients of forest density and broadleaved proportions (i.e. from open to closed canopies, and from 100% conifer to 100% broadleaved tree dominance). Air minimum, mean and maximum temperature offsets (i.e. difference between macroclimate and microclimate) and soil mean temperature offsets were calculated for the coldest and warmest months. Forest structure, and especially forest density, was the key determinant of understory temperatures. However, the absolute and relative importance of the proportion of broadleaves and forest density differed largely between response variables. Forest density ranged from being independent of, to interacting with, tree species composition. The effect of these two variables was independent of the macroclimate along our latitudinal gradient. Temperature, precipitation, snow depth and wind outside forests affected understory temperature buffering. Finally, we found that the scale at which the overstory affects soil microclimate approximated 6-7 m, whereas for air microclimate this was at least 10 m. These findings have implications for biodiversity conservation and forest management in a changing climate, as they facilitate the projection of understory temperatures in scenarios where both forest structure and macroclimate are dynamic. This is especially relevant given the global importance of ongoing forest conversion from conifers to broadleaves, and vice versa.}},
  articleno    = {{109684}},
  author       = {{Díaz-Calafat, Joan and Uria-Diez, Jaime and Brunet, Jörg and De Frenne, Pieter and Vangansbeke, Pieter and Felton, Adam and Öckinger, Erik and Cousins, Sara A.O. and Bauhus, Jürgen and Ponette, Quentin and Hedwall, Per-Ola}},
  issn         = {{0168-1923}},
  journal      = {{AGRICULTURAL AND FOREST METEOROLOGY}},
  keywords     = {{Microclimate,Forest understory,Forest density,Broadleaves,Understory temperature,Latitudinal gradient,CLIMATE-CHANGE,PLANT-RESPONSES,FOREST,TEMPERATURE,BIODIVERSITY,DYNAMICS,CANOPY,IMPACT,RANGE,VEGETATION}},
  language     = {{eng}},
  pages        = {{12}},
  title        = {{From broadleaves to conifers : the effect of tree composition and density on understory microclimate across latitudes}},
  url          = {{http://doi.org/10.1016/j.agrformet.2023.109684}},
  volume       = {{341}},
  year         = {{2023}},
}
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