The future performance of the widely abundant European beech ( Fagus sylvatica L.) across its ecological amplitude is uncertain. Although beech is considered drought -sensitive and thus negatively affected by drought events, scientific evidence indicating increasing drought vulnerability under climate change on a cross -regional scale remains elusive. While evaluating changes in climate sensitivity of secondary growth offers a promising avenue, studies from productive, closed -canopy forests suffer from knowledge gaps, especially regarding the natural variability of climate sensitivity and how it relates to radial growth as an indicator of tree vitality. Since beech is sensitive to drought, we in this study use a drought index as a climate variable to account for the combined effects of temperature and water availability and explore how the drought sensitivity of secondary growth varies temporally in dependence on growth variability, growth trends, and climatic water availability acros...s the species ' ecological amplitude. Our results show that drought sensitivity is highly variable and non -stationary, though consistently higher at dry sites compared to moist sites. Increasing drought sensitivity can largely be explained by increasing climatic aridity, especially as it is exacerbated by climate change and trees ' rank progression within forest communities, as (co -)dominant trees are more sensitive to extra -canopy climatic conditions than trees embedded in understories. However, during the driest periods of the 20th century, growth showed clear signs of being decoupled from climate. This may indicate fundamental changes in system behavior and be early -warning signals of decreasing drought tolerance. The multiple significant interaction terms in our model elucidate the complexity of European beech 's drought sensitivity, which needs to be taken into consideration when assessing this species ' response to climate change.
TY - JOUR
AU - Leifsson, Christopher
AU - Buras, Allan
AU - Klesse, Stefan
AU - Baittinger, Claudia
AU - Bat-Enerel, Banzragch
AU - Battipaglia, Giovanna
AU - Biondi, Franco
AU - Stajić, Branko
AU - Budeanu, Marius
AU - Cada, Vojtech
AU - Cavin, Liam
AU - Claessens, Hugues
AU - Cufar, Katarina
AU - de Luis, Martin
AU - Dorado-Linan, Isabel
AU - Dulamsuren, Choimaa
AU - Garamszegi, Balazs
AU - Grabner, Michael
AU - Hacket-Pain, Andrew
AU - Hansen, Jon Kehlet
AU - Hartl, Claudia
AU - Huang, Weiwei
AU - Janda, Pavel
AU - Jump, Alistair S.
AU - Kazimirović, Marko
AU - Knutzen, Florian
AU - Kreyling, Juergen
AU - Land, Alexander
AU - Latte, Nicolas
AU - Lebourgeois, Francois
AU - Leuschner, Christoph
AU - Longares, Luis A.
AU - Castillo, Edurne Martinez del
AU - Menzel, Annette
AU - Motta, Renzo
AU - Muffler-Weigel, Lena
AU - Nola, Paola
AU - Panayotov, Momchil
AU - Petritan, Any Mary
AU - Petritan, Ion Catalin
AU - Popa, Ionel
AU - Roibu, Catalin-Constantin
AU - Rubio-Cuadrado, Alvaro
AU - Rydval, Miloš
AU - Scharnweber, Tobias
AU - Camarero, J. Julio
AU - Svoboda, Miroslav
AU - Toromani, Elvin
AU - Trotsiuk, Volodymyr
AU - Maaten-Theunissen, Marieke van der
AU - Maaten, Ernst van der
AU - Weigel, Robert
AU - Wilmking, Martin
AU - Zlatanov, Tzvetan
AU - Rammig, Anja
AU - Zang, Christian
PY - 2024
UR - https://omorika.sfb.bg.ac.rs/handle/123456789/1479
AB - The future performance of the widely abundant European beech ( Fagus sylvatica L.) across its ecological amplitude is uncertain. Although beech is considered drought -sensitive and thus negatively affected by drought events, scientific evidence indicating increasing drought vulnerability under climate change on a cross -regional scale remains elusive. While evaluating changes in climate sensitivity of secondary growth offers a promising avenue, studies from productive, closed -canopy forests suffer from knowledge gaps, especially regarding the natural variability of climate sensitivity and how it relates to radial growth as an indicator of tree vitality. Since beech is sensitive to drought, we in this study use a drought index as a climate variable to account for the combined effects of temperature and water availability and explore how the drought sensitivity of secondary growth varies temporally in dependence on growth variability, growth trends, and climatic water availability across the species ' ecological amplitude. Our results show that drought sensitivity is highly variable and non -stationary, though consistently higher at dry sites compared to moist sites. Increasing drought sensitivity can largely be explained by increasing climatic aridity, especially as it is exacerbated by climate change and trees ' rank progression within forest communities, as (co -)dominant trees are more sensitive to extra -canopy climatic conditions than trees embedded in understories. However, during the driest periods of the 20th century, growth showed clear signs of being decoupled from climate. This may indicate fundamental changes in system behavior and be early -warning signals of decreasing drought tolerance. The multiple significant interaction terms in our model elucidate the complexity of European beech 's drought sensitivity, which needs to be taken into consideration when assessing this species ' response to climate change.
T2 - Science of the Total Environment
T1 - Identifying drivers of non-stationary climate-growth relationships of European beech
VL - 937
DO - 10.1016/j.scitotenv.2024.173321
UR - conv_1793
ER -
@article{
author = "Leifsson, Christopher and Buras, Allan and Klesse, Stefan and Baittinger, Claudia and Bat-Enerel, Banzragch and Battipaglia, Giovanna and Biondi, Franco and Stajić, Branko and Budeanu, Marius and Cada, Vojtech and Cavin, Liam and Claessens, Hugues and Cufar, Katarina and de Luis, Martin and Dorado-Linan, Isabel and Dulamsuren, Choimaa and Garamszegi, Balazs and Grabner, Michael and Hacket-Pain, Andrew and Hansen, Jon Kehlet and Hartl, Claudia and Huang, Weiwei and Janda, Pavel and Jump, Alistair S. and Kazimirović, Marko and Knutzen, Florian and Kreyling, Juergen and Land, Alexander and Latte, Nicolas and Lebourgeois, Francois and Leuschner, Christoph and Longares, Luis A. and Castillo, Edurne Martinez del and Menzel, Annette and Motta, Renzo and Muffler-Weigel, Lena and Nola, Paola and Panayotov, Momchil and Petritan, Any Mary and Petritan, Ion Catalin and Popa, Ionel and Roibu, Catalin-Constantin and Rubio-Cuadrado, Alvaro and Rydval, Miloš and Scharnweber, Tobias and Camarero, J. Julio and Svoboda, Miroslav and Toromani, Elvin and Trotsiuk, Volodymyr and Maaten-Theunissen, Marieke van der and Maaten, Ernst van der and Weigel, Robert and Wilmking, Martin and Zlatanov, Tzvetan and Rammig, Anja and Zang, Christian",
year = "2024",
abstract = "The future performance of the widely abundant European beech ( Fagus sylvatica L.) across its ecological amplitude is uncertain. Although beech is considered drought -sensitive and thus negatively affected by drought events, scientific evidence indicating increasing drought vulnerability under climate change on a cross -regional scale remains elusive. While evaluating changes in climate sensitivity of secondary growth offers a promising avenue, studies from productive, closed -canopy forests suffer from knowledge gaps, especially regarding the natural variability of climate sensitivity and how it relates to radial growth as an indicator of tree vitality. Since beech is sensitive to drought, we in this study use a drought index as a climate variable to account for the combined effects of temperature and water availability and explore how the drought sensitivity of secondary growth varies temporally in dependence on growth variability, growth trends, and climatic water availability across the species ' ecological amplitude. Our results show that drought sensitivity is highly variable and non -stationary, though consistently higher at dry sites compared to moist sites. Increasing drought sensitivity can largely be explained by increasing climatic aridity, especially as it is exacerbated by climate change and trees ' rank progression within forest communities, as (co -)dominant trees are more sensitive to extra -canopy climatic conditions than trees embedded in understories. However, during the driest periods of the 20th century, growth showed clear signs of being decoupled from climate. This may indicate fundamental changes in system behavior and be early -warning signals of decreasing drought tolerance. The multiple significant interaction terms in our model elucidate the complexity of European beech 's drought sensitivity, which needs to be taken into consideration when assessing this species ' response to climate change.",
journal = "Science of the Total Environment",
title = "Identifying drivers of non-stationary climate-growth relationships of European beech",
volume = "937",
doi = "10.1016/j.scitotenv.2024.173321",
url = "conv_1793"
}
Leifsson, C., Buras, A., Klesse, S., Baittinger, C., Bat-Enerel, B., Battipaglia, G., Biondi, F., Stajić, B., Budeanu, M., Cada, V., Cavin, L., Claessens, H., Cufar, K., de Luis, M., Dorado-Linan, I., Dulamsuren, C., Garamszegi, B., Grabner, M., Hacket-Pain, A., Hansen, J. K., Hartl, C., Huang, W., Janda, P., Jump, A. S., Kazimirović, M., Knutzen, F., Kreyling, J., Land, A., Latte, N., Lebourgeois, F., Leuschner, C., Longares, L. A., Castillo, E. M. d., Menzel, A., Motta, R., Muffler-Weigel, L., Nola, P., Panayotov, M., Petritan, A. M., Petritan, I. C., Popa, I., Roibu, C., Rubio-Cuadrado, A., Rydval, M., Scharnweber, T., Camarero, J. J., Svoboda, M., Toromani, E., Trotsiuk, V., Maaten-Theunissen, M. v. d., Maaten, E. v. d., Weigel, R., Wilmking, M., Zlatanov, T., Rammig, A.,& Zang, C.. (2024). Identifying drivers of non-stationary climate-growth relationships of European beech. in Science of the Total Environment, 937.
https://doi.org/10.1016/j.scitotenv.2024.173321
conv_1793
Leifsson C, Buras A, Klesse S, Baittinger C, Bat-Enerel B, Battipaglia G, Biondi F, Stajić B, Budeanu M, Cada V, Cavin L, Claessens H, Cufar K, de Luis M, Dorado-Linan I, Dulamsuren C, Garamszegi B, Grabner M, Hacket-Pain A, Hansen JK, Hartl C, Huang W, Janda P, Jump AS, Kazimirović M, Knutzen F, Kreyling J, Land A, Latte N, Lebourgeois F, Leuschner C, Longares LA, Castillo EMD, Menzel A, Motta R, Muffler-Weigel L, Nola P, Panayotov M, Petritan AM, Petritan IC, Popa I, Roibu C, Rubio-Cuadrado A, Rydval M, Scharnweber T, Camarero JJ, Svoboda M, Toromani E, Trotsiuk V, Maaten-Theunissen MVD, Maaten EVD, Weigel R, Wilmking M, Zlatanov T, Rammig A, Zang C. Identifying drivers of non-stationary climate-growth relationships of European beech. in Science of the Total Environment. 2024;937.
doi:10.1016/j.scitotenv.2024.173321
conv_1793 .
Leifsson, Christopher, Buras, Allan, Klesse, Stefan, Baittinger, Claudia, Bat-Enerel, Banzragch, Battipaglia, Giovanna, Biondi, Franco, Stajić, Branko, Budeanu, Marius, Cada, Vojtech, Cavin, Liam, Claessens, Hugues, Cufar, Katarina, de Luis, Martin, Dorado-Linan, Isabel, Dulamsuren, Choimaa, Garamszegi, Balazs, Grabner, Michael, Hacket-Pain, Andrew, Hansen, Jon Kehlet, Hartl, Claudia, Huang, Weiwei, Janda, Pavel, Jump, Alistair S., Kazimirović, Marko, Knutzen, Florian, Kreyling, Juergen, Land, Alexander, Latte, Nicolas, Lebourgeois, Francois, Leuschner, Christoph, Longares, Luis A., Castillo, Edurne Martinez del, Menzel, Annette, Motta, Renzo, Muffler-Weigel, Lena, Nola, Paola, Panayotov, Momchil, Petritan, Any Mary, Petritan, Ion Catalin, Popa, Ionel, Roibu, Catalin-Constantin, Rubio-Cuadrado, Alvaro, Rydval, Miloš, Scharnweber, Tobias, Camarero, J. Julio, Svoboda, Miroslav, Toromani, Elvin, Trotsiuk, Volodymyr, Maaten-Theunissen, Marieke van der, Maaten, Ernst van der, Weigel, Robert, Wilmking, Martin, Zlatanov, Tzvetan, Rammig, Anja, Zang, Christian, "Identifying drivers of non-stationary climate-growth relationships of European beech" in Science of the Total Environment, 937 (2024),
https://doi.org/10.1016/j.scitotenv.2024.173321 .,
conv_1793 .
