TY  - JOUR
AU  - Avitabile, Valerio
AU  - Pilli, Roberto
AU  - Migliavacca, Mirco
AU  - Duveiller, Gregory
AU  - Camia, Andrea
AU  - Blujdea, Viorel
AU  - Adolt, Radim
AU  - Alberdi, Iciar
AU  - Barreiro, Susana
AU  - Bender, Susann
AU  - Borota, Dragan
AU  - Bosela, Michal
AU  - Bouriaud, Olivier
AU  - Breidenbach, Johannes
AU  - Canellas, Isabel
AU  - Cavlović, Jura
AU  - Colin, Antoine
AU  - Di Cosmo, Lucio
AU  - Donis, Janis
AU  - Fischer, Christoph
AU  - Freudenschuss, Alexandra
AU  - Fridman, Jonas
AU  - Gasparini, Patrizia
AU  - Gschwantner, Thomas
AU  - Hernandez, Laura
AU  - Korhonen, Kari
AU  - Kulbokas, Gintaras
AU  - Kvist, Vivian
AU  - Latte, Nicolas
AU  - Lazdins, Andis
AU  - Lejeune, Philippe
AU  - Makovskis, Kristaps
AU  - Marin, Gheorghe
AU  - Maslo, Jan
AU  - Michorczyk, Artur
AU  - Mionskowski, Marcin
AU  - Morneau, Francois
AU  - Myszkowski, Marcin
AU  - Nagy, Kinga
AU  - Nilsson, Mats
AU  - Nord-Larsen, Thomas
AU  - Pantić, Damjan
AU  - Perin, Jerome
AU  - Redmond, John
AU  - Rizzo, Maria
AU  - Seben, Vladimir
AU  - Skudnik, Mitja
AU  - Snorrason, Arnor
AU  - Sroga, Radoslaw
AU  - Stoyanov, Todor
AU  - Svensson, Arvid
AU  - Talarczyk, Andrzej
AU  - Teeuwen, Sander
AU  - Thurig, Esther
AU  - Uva, Jose
AU  - Mubareka, Sarah
PY  - 2024
UR  - https://omorika.sfb.bg.ac.rs/handle/123456789/1491
AB  - Forest biomass is an essential resource in relation to the green transition and its assessment is key for the sustainable management of forest resources. Here, we present a forest biomass dataset for Europe based on the best available inventory and satellite data, with a higher level of harmonisation and spatial resolution than other existing data. This database provides statistics and maps of the forest area, biomass stock and their share available for wood supply in the year 2020, and statistics on gross and net volume increment in 2010-2020, for 38 European countries. The statistics of most countries are available at a sub-national scale and are derived from National Forest Inventory data, harmonised using common reference definitions and estimation methodology, and updated to a common year using a modelling approach. For those counties without harmonised statistics, data were derived from the State of Europe's Forest 2020 Report at the national scale. The maps are coherent with the statistics and depict the spatial distribution of the forest variables at 100 m resolution.
T2  - Scientific Data
T1  - Harmonised statistics and maps of forest biomass and increment in Europe
IS  - 1
VL  - 11
DO  - 10.1038/s41597-023-02868-8
UR  - conv_1771
ER  - 

@article{
author = "Avitabile, Valerio and Pilli, Roberto and Migliavacca, Mirco and Duveiller, Gregory and Camia, Andrea and Blujdea, Viorel and Adolt, Radim and Alberdi, Iciar and Barreiro, Susana and Bender, Susann and Borota, Dragan and Bosela, Michal and Bouriaud, Olivier and Breidenbach, Johannes and Canellas, Isabel and Cavlović, Jura and Colin, Antoine and Di Cosmo, Lucio and Donis, Janis and Fischer, Christoph and Freudenschuss, Alexandra and Fridman, Jonas and Gasparini, Patrizia and Gschwantner, Thomas and Hernandez, Laura and Korhonen, Kari and Kulbokas, Gintaras and Kvist, Vivian and Latte, Nicolas and Lazdins, Andis and Lejeune, Philippe and Makovskis, Kristaps and Marin, Gheorghe and Maslo, Jan and Michorczyk, Artur and Mionskowski, Marcin and Morneau, Francois and Myszkowski, Marcin and Nagy, Kinga and Nilsson, Mats and Nord-Larsen, Thomas and Pantić, Damjan and Perin, Jerome and Redmond, John and Rizzo, Maria and Seben, Vladimir and Skudnik, Mitja and Snorrason, Arnor and Sroga, Radoslaw and Stoyanov, Todor and Svensson, Arvid and Talarczyk, Andrzej and Teeuwen, Sander and Thurig, Esther and Uva, Jose and Mubareka, Sarah",
year = "2024",
abstract = "Forest biomass is an essential resource in relation to the green transition and its assessment is key for the sustainable management of forest resources. Here, we present a forest biomass dataset for Europe based on the best available inventory and satellite data, with a higher level of harmonisation and spatial resolution than other existing data. This database provides statistics and maps of the forest area, biomass stock and their share available for wood supply in the year 2020, and statistics on gross and net volume increment in 2010-2020, for 38 European countries. The statistics of most countries are available at a sub-national scale and are derived from National Forest Inventory data, harmonised using common reference definitions and estimation methodology, and updated to a common year using a modelling approach. For those counties without harmonised statistics, data were derived from the State of Europe's Forest 2020 Report at the national scale. The maps are coherent with the statistics and depict the spatial distribution of the forest variables at 100 m resolution.",
journal = "Scientific Data",
title = "Harmonised statistics and maps of forest biomass and increment in Europe",
number = "1",
volume = "11",
doi = "10.1038/s41597-023-02868-8",
url = "conv_1771"
}

Avitabile, V., Pilli, R., Migliavacca, M., Duveiller, G., Camia, A., Blujdea, V., Adolt, R., Alberdi, I., Barreiro, S., Bender, S., Borota, D., Bosela, M., Bouriaud, O., Breidenbach, J., Canellas, I., Cavlović, J., Colin, A., Di Cosmo, L., Donis, J., Fischer, C., Freudenschuss, A., Fridman, J., Gasparini, P., Gschwantner, T., Hernandez, L., Korhonen, K., Kulbokas, G., Kvist, V., Latte, N., Lazdins, A., Lejeune, P., Makovskis, K., Marin, G., Maslo, J., Michorczyk, A., Mionskowski, M., Morneau, F., Myszkowski, M., Nagy, K., Nilsson, M., Nord-Larsen, T., Pantić, D., Perin, J., Redmond, J., Rizzo, M., Seben, V., Skudnik, M., Snorrason, A., Sroga, R., Stoyanov, T., Svensson, A., Talarczyk, A., Teeuwen, S., Thurig, E., Uva, J.,& Mubareka, S.. (2024). Harmonised statistics and maps of forest biomass and increment in Europe. in Scientific Data, 11(1).
https://doi.org/10.1038/s41597-023-02868-8
conv_1771

Avitabile V, Pilli R, Migliavacca M, Duveiller G, Camia A, Blujdea V, Adolt R, Alberdi I, Barreiro S, Bender S, Borota D, Bosela M, Bouriaud O, Breidenbach J, Canellas I, Cavlović J, Colin A, Di Cosmo L, Donis J, Fischer C, Freudenschuss A, Fridman J, Gasparini P, Gschwantner T, Hernandez L, Korhonen K, Kulbokas G, Kvist V, Latte N, Lazdins A, Lejeune P, Makovskis K, Marin G, Maslo J, Michorczyk A, Mionskowski M, Morneau F, Myszkowski M, Nagy K, Nilsson M, Nord-Larsen T, Pantić D, Perin J, Redmond J, Rizzo M, Seben V, Skudnik M, Snorrason A, Sroga R, Stoyanov T, Svensson A, Talarczyk A, Teeuwen S, Thurig E, Uva J, Mubareka S. Harmonised statistics and maps of forest biomass and increment in Europe. in Scientific Data. 2024;11(1).
doi:10.1038/s41597-023-02868-8
conv_1771 .

Avitabile, Valerio, Pilli, Roberto, Migliavacca, Mirco, Duveiller, Gregory, Camia, Andrea, Blujdea, Viorel, Adolt, Radim, Alberdi, Iciar, Barreiro, Susana, Bender, Susann, Borota, Dragan, Bosela, Michal, Bouriaud, Olivier, Breidenbach, Johannes, Canellas, Isabel, Cavlović, Jura, Colin, Antoine, Di Cosmo, Lucio, Donis, Janis, Fischer, Christoph, Freudenschuss, Alexandra, Fridman, Jonas, Gasparini, Patrizia, Gschwantner, Thomas, Hernandez, Laura, Korhonen, Kari, Kulbokas, Gintaras, Kvist, Vivian, Latte, Nicolas, Lazdins, Andis, Lejeune, Philippe, Makovskis, Kristaps, Marin, Gheorghe, Maslo, Jan, Michorczyk, Artur, Mionskowski, Marcin, Morneau, Francois, Myszkowski, Marcin, Nagy, Kinga, Nilsson, Mats, Nord-Larsen, Thomas, Pantić, Damjan, Perin, Jerome, Redmond, John, Rizzo, Maria, Seben, Vladimir, Skudnik, Mitja, Snorrason, Arnor, Sroga, Radoslaw, Stoyanov, Todor, Svensson, Arvid, Talarczyk, Andrzej, Teeuwen, Sander, Thurig, Esther, Uva, Jose, Mubareka, Sarah, "Harmonised statistics and maps of forest biomass and increment in Europe" in Scientific Data, 11, no. 1 (2024),
https://doi.org/10.1038/s41597-023-02868-8 .,
conv_1771 .

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 .

TY  - JOUR
AU  - del Castillo, Edurne Martinez
AU  - Zang, Christian
AU  - Buras, Allan
AU  - Hacket-Pain, Andrew
AU  - Esper, Jan
AU  - Serrano-Notivoli, Roberto
AU  - Hartl, Claudia
AU  - Weigel, Robert
AU  - Klesse, Stefan
AU  - Resco de Dios, Victor
AU  - Scharnweber, Tobias
AU  - Dorado-Linan, Isabel
AU  - Van der Maaten-Theunissen, Marieke
AU  - van der Maaten, Ernst
AU  - Jump, Alistair
AU  - Mikac, Sjepan
AU  - Banzragch, Bat-Enerel
AU  - Beck, Wolfgang
AU  - Cavin, Liam
AU  - Claessens, Hugues
AU  - Cada, Vojtech
AU  - Cufar, Katarina
AU  - Dulamsuren, Choimaa
AU  - Gricar, Jozica
AU  - Gil-Pelegrin, Eustaquio
AU  - Janda, Pavel
AU  - Kazimirović, Marko
AU  - Kreyling, Juergen
AU  - Latte, Nicolas
AU  - Leuschner, Christoph
AU  - Alberto Longares, Luis
AU  - Menzel, Annette
AU  - Merela, Maks
AU  - Motta, Renzo
AU  - Muffler, Lena
AU  - Nola, Paola
AU  - Petritan, Any Mary
AU  - Petritan, Ion Catalin
AU  - Prislan, Peter
AU  - Rubio-Cuadrado, Alvaro
AU  - Rydval, Miloš
AU  - Stajić, Branko
AU  - Svoboda, Miroslav
AU  - Toromani, Elvin
AU  - Trotsiuk, Volodymyr
AU  - Wilmking, Martin
AU  - Zlatanov, Tzvetan
AU  - de Luis, Martin
PY  - 2022
UR  - https://omorika.sfb.bg.ac.rs/handle/123456789/1347
AB  - The growth of past, present, and future forests was, is and will be affected by climate variability. This multifaceted relationship has been assessed in several regional studies, but spatially resolved, large-scale analyses are largely missing so far. Here we estimate recent changes in growth of 5800 beech trees (Fagus sylvatica L.) from 324 sites, representing the full geographic and climatic range of species. Future growth trends were predicted considering state-of-the-art climate scenarios. The validated models indicate growth declines across large region of the distribution in recent decades, and project severe future growth declines ranging from -20% to more than -50% by 2090, depending on the region and climate change scenario (i.e. CMIP6 SSP1-2.6 and SSP5-8.5). Forecasted forest productivity losses are most striking towards the southern distribution limit of Fagus sylvatica, in regions where persisting atmospheric high-pressure systems are expected to increase drought severity. The projected 21(st) century growth changes across Europe indicate serious ecological and economic consequences that require immediate forest adaptation. Tree ring data from a network of beech tree stands across Europe show evidence for a recent growth decline from 1986-2016 and project up to 50% growth reductions in some areas of Europe with future climate change.
T2  - Communications Biology
T1  - Climate-change-driven growth decline of European beech forests
IS  - 1
VL  - 5
DO  - 10.1038/s42003-022-03107-3
UR  - conv_1619
ER  - 

@article{
author = "del Castillo, Edurne Martinez and Zang, Christian and Buras, Allan and Hacket-Pain, Andrew and Esper, Jan and Serrano-Notivoli, Roberto and Hartl, Claudia and Weigel, Robert and Klesse, Stefan and Resco de Dios, Victor and Scharnweber, Tobias and Dorado-Linan, Isabel and Van der Maaten-Theunissen, Marieke and van der Maaten, Ernst and Jump, Alistair and Mikac, Sjepan and Banzragch, Bat-Enerel and Beck, Wolfgang and Cavin, Liam and Claessens, Hugues and Cada, Vojtech and Cufar, Katarina and Dulamsuren, Choimaa and Gricar, Jozica and Gil-Pelegrin, Eustaquio and Janda, Pavel and Kazimirović, Marko and Kreyling, Juergen and Latte, Nicolas and Leuschner, Christoph and Alberto Longares, Luis and Menzel, Annette and Merela, Maks and Motta, Renzo and Muffler, Lena and Nola, Paola and Petritan, Any Mary and Petritan, Ion Catalin and Prislan, Peter and Rubio-Cuadrado, Alvaro and Rydval, Miloš and Stajić, Branko and Svoboda, Miroslav and Toromani, Elvin and Trotsiuk, Volodymyr and Wilmking, Martin and Zlatanov, Tzvetan and de Luis, Martin",
year = "2022",
abstract = "The growth of past, present, and future forests was, is and will be affected by climate variability. This multifaceted relationship has been assessed in several regional studies, but spatially resolved, large-scale analyses are largely missing so far. Here we estimate recent changes in growth of 5800 beech trees (Fagus sylvatica L.) from 324 sites, representing the full geographic and climatic range of species. Future growth trends were predicted considering state-of-the-art climate scenarios. The validated models indicate growth declines across large region of the distribution in recent decades, and project severe future growth declines ranging from -20% to more than -50% by 2090, depending on the region and climate change scenario (i.e. CMIP6 SSP1-2.6 and SSP5-8.5). Forecasted forest productivity losses are most striking towards the southern distribution limit of Fagus sylvatica, in regions where persisting atmospheric high-pressure systems are expected to increase drought severity. The projected 21(st) century growth changes across Europe indicate serious ecological and economic consequences that require immediate forest adaptation. Tree ring data from a network of beech tree stands across Europe show evidence for a recent growth decline from 1986-2016 and project up to 50% growth reductions in some areas of Europe with future climate change.",
journal = "Communications Biology",
title = "Climate-change-driven growth decline of European beech forests",
number = "1",
volume = "5",
doi = "10.1038/s42003-022-03107-3",
url = "conv_1619"
}

del Castillo, E. M., Zang, C., Buras, A., Hacket-Pain, A., Esper, J., Serrano-Notivoli, R., Hartl, C., Weigel, R., Klesse, S., Resco de Dios, V., Scharnweber, T., Dorado-Linan, I., Van der Maaten-Theunissen, M., van der Maaten, E., Jump, A., Mikac, S., Banzragch, B., Beck, W., Cavin, L., Claessens, H., Cada, V., Cufar, K., Dulamsuren, C., Gricar, J., Gil-Pelegrin, E., Janda, P., Kazimirović, M., Kreyling, J., Latte, N., Leuschner, C., Alberto Longares, L., Menzel, A., Merela, M., Motta, R., Muffler, L., Nola, P., Petritan, A. M., Petritan, I. C., Prislan, P., Rubio-Cuadrado, A., Rydval, M., Stajić, B., Svoboda, M., Toromani, E., Trotsiuk, V., Wilmking, M., Zlatanov, T.,& de Luis, M.. (2022). Climate-change-driven growth decline of European beech forests. in Communications Biology, 5(1).
https://doi.org/10.1038/s42003-022-03107-3
conv_1619

del Castillo EM, Zang C, Buras A, Hacket-Pain A, Esper J, Serrano-Notivoli R, Hartl C, Weigel R, Klesse S, Resco de Dios V, Scharnweber T, Dorado-Linan I, Van der Maaten-Theunissen M, van der Maaten E, Jump A, Mikac S, Banzragch B, Beck W, Cavin L, Claessens H, Cada V, Cufar K, Dulamsuren C, Gricar J, Gil-Pelegrin E, Janda P, Kazimirović M, Kreyling J, Latte N, Leuschner C, Alberto Longares L, Menzel A, Merela M, Motta R, Muffler L, Nola P, Petritan AM, Petritan IC, Prislan P, Rubio-Cuadrado A, Rydval M, Stajić B, Svoboda M, Toromani E, Trotsiuk V, Wilmking M, Zlatanov T, de Luis M. Climate-change-driven growth decline of European beech forests. in Communications Biology. 2022;5(1).
doi:10.1038/s42003-022-03107-3
conv_1619 .

del Castillo, Edurne Martinez, Zang, Christian, Buras, Allan, Hacket-Pain, Andrew, Esper, Jan, Serrano-Notivoli, Roberto, Hartl, Claudia, Weigel, Robert, Klesse, Stefan, Resco de Dios, Victor, Scharnweber, Tobias, Dorado-Linan, Isabel, Van der Maaten-Theunissen, Marieke, van der Maaten, Ernst, Jump, Alistair, Mikac, Sjepan, Banzragch, Bat-Enerel, Beck, Wolfgang, Cavin, Liam, Claessens, Hugues, Cada, Vojtech, Cufar, Katarina, Dulamsuren, Choimaa, Gricar, Jozica, Gil-Pelegrin, Eustaquio, Janda, Pavel, Kazimirović, Marko, Kreyling, Juergen, Latte, Nicolas, Leuschner, Christoph, Alberto Longares, Luis, Menzel, Annette, Merela, Maks, Motta, Renzo, Muffler, Lena, Nola, Paola, Petritan, Any Mary, Petritan, Ion Catalin, Prislan, Peter, Rubio-Cuadrado, Alvaro, Rydval, Miloš, Stajić, Branko, Svoboda, Miroslav, Toromani, Elvin, Trotsiuk, Volodymyr, Wilmking, Martin, Zlatanov, Tzvetan, de Luis, Martin, "Climate-change-driven growth decline of European beech forests" in Communications Biology, 5, no. 1 (2022),
https://doi.org/10.1038/s42003-022-03107-3 .,
conv_1619 .

TY  - JOUR
AU  - Dorado-Linan, Isabel
AU  - Ayarzaguena, Blanca
AU  - Babst, Flurin
AU  - Xu, Guobao
AU  - Gil, Luis
AU  - Battipaglia, Giovanna
AU  - Buras, Allan
AU  - Cada, Vojtech
AU  - Julio Camarero, J.
AU  - Cavin, Liam
AU  - Claessens, Hugues
AU  - Drobyshev, Igor
AU  - Garamszegi, Balazs
AU  - Grabner, Michael
AU  - Hacket-Pain, Andrew
AU  - Hartl, Claudia
AU  - Hevia, Andrea
AU  - Janda, Pavel
AU  - Jump, Alistair S.
AU  - Kazimirović, Marko
AU  - Keren, Srđan
AU  - Kreyling, Juergen
AU  - Land, Alexander
AU  - Latte, Nicolas
AU  - Levanić, Tom
AU  - van der Maaten, Ernst
AU  - Van der Maaten-Theunissen, Marieke
AU  - Martinez-Sancho, Elisabet
AU  - Menzel, Annette
AU  - Mikolas, Martin
AU  - Motta, Renzo
AU  - Muffler, Lena
AU  - Nola, Paola
AU  - Panayotov, Momchil
AU  - Petritan, Any Mary
AU  - Petritan, Ion Catalin
AU  - Popa, Ionel
AU  - Prislan, Peter
AU  - Roibu, Catalin-Constantin
AU  - Rydval, Miloš
AU  - Sanchez-Salguero, Raul
AU  - Scharnweber, Tobias
AU  - Stajić, Branko
AU  - Svoboda, Miroslav
AU  - Tegel, Willy
AU  - Teodosiu, Marius
AU  - Toromani, Elvin
AU  - Trotsiuk, Volodymyr
AU  - Turcu, Daniel-Ond
AU  - Weigel, Robert
AU  - Wilmking, Martin
AU  - Zang, Christian
AU  - Zlatanov, Tzvetan
AU  - Trouet, Valerie
PY  - 2022
UR  - https://omorika.sfb.bg.ac.rs/handle/123456789/1370
AB  - The mechanistic pathways connecting ocean-atmosphere variability and terrestrial productivity are well-established theoretically, but remain challenging to quantify empirically. Such quantification will greatly improve the assessment and prediction of changes in terrestrial carbon sequestration in response to dynamically induced climatic extremes. The jet stream latitude (JSL) over the North Atlantic-European domain provides a synthetic and robust physical framework that integrates climate variability not accounted for by atmospheric circulation patterns alone. Surface climate impacts of north-south summer JSL displacements are not uniform across Europe, but rather create a northwestern-southeastern dipole in forest productivity and radial-growth anomalies. Summer JSL variability over the eastern North Atlantic-European domain (5-40E) exerts the strongest impact on European beech, inducing anomalies of up to 30% in modelled gross primary productivity and 50% in radial tree growth. The net effects of JSL movements on terrestrial carbon fluxes depend on forest density, carbon stocks, and productivity imbalances across biogeographic regions. Here the authors show that extremes in the summer jet stream position over Europe create a beech forest productivity dipole between northwestern and southeastern Europe and can result in regional anomalies in forest carbon uptake and growth.
T2  - Nature Communications
T1  - Jet stream position explains regional anomalies in European beech forest productivity and tree growth
IS  - 1
VL  - 13
DO  - 10.1038/s41467-022-29615-8
UR  - conv_1629
ER  - 

@article{
author = "Dorado-Linan, Isabel and Ayarzaguena, Blanca and Babst, Flurin and Xu, Guobao and Gil, Luis and Battipaglia, Giovanna and Buras, Allan and Cada, Vojtech and Julio Camarero, J. and Cavin, Liam and Claessens, Hugues and Drobyshev, Igor and Garamszegi, Balazs and Grabner, Michael and Hacket-Pain, Andrew and Hartl, Claudia and Hevia, Andrea and Janda, Pavel and Jump, Alistair S. and Kazimirović, Marko and Keren, Srđan and Kreyling, Juergen and Land, Alexander and Latte, Nicolas and Levanić, Tom and van der Maaten, Ernst and Van der Maaten-Theunissen, Marieke and Martinez-Sancho, Elisabet and Menzel, Annette and Mikolas, Martin and Motta, Renzo and Muffler, Lena and Nola, Paola and Panayotov, Momchil and Petritan, Any Mary and Petritan, Ion Catalin and Popa, Ionel and Prislan, Peter and Roibu, Catalin-Constantin and Rydval, Miloš and Sanchez-Salguero, Raul and Scharnweber, Tobias and Stajić, Branko and Svoboda, Miroslav and Tegel, Willy and Teodosiu, Marius and Toromani, Elvin and Trotsiuk, Volodymyr and Turcu, Daniel-Ond and Weigel, Robert and Wilmking, Martin and Zang, Christian and Zlatanov, Tzvetan and Trouet, Valerie",
year = "2022",
abstract = "The mechanistic pathways connecting ocean-atmosphere variability and terrestrial productivity are well-established theoretically, but remain challenging to quantify empirically. Such quantification will greatly improve the assessment and prediction of changes in terrestrial carbon sequestration in response to dynamically induced climatic extremes. The jet stream latitude (JSL) over the North Atlantic-European domain provides a synthetic and robust physical framework that integrates climate variability not accounted for by atmospheric circulation patterns alone. Surface climate impacts of north-south summer JSL displacements are not uniform across Europe, but rather create a northwestern-southeastern dipole in forest productivity and radial-growth anomalies. Summer JSL variability over the eastern North Atlantic-European domain (5-40E) exerts the strongest impact on European beech, inducing anomalies of up to 30% in modelled gross primary productivity and 50% in radial tree growth. The net effects of JSL movements on terrestrial carbon fluxes depend on forest density, carbon stocks, and productivity imbalances across biogeographic regions. Here the authors show that extremes in the summer jet stream position over Europe create a beech forest productivity dipole between northwestern and southeastern Europe and can result in regional anomalies in forest carbon uptake and growth.",
journal = "Nature Communications",
title = "Jet stream position explains regional anomalies in European beech forest productivity and tree growth",
number = "1",
volume = "13",
doi = "10.1038/s41467-022-29615-8",
url = "conv_1629"
}

Dorado-Linan, I., Ayarzaguena, B., Babst, F., Xu, G., Gil, L., Battipaglia, G., Buras, A., Cada, V., Julio Camarero, J., Cavin, L., Claessens, H., Drobyshev, I., Garamszegi, B., Grabner, M., Hacket-Pain, A., Hartl, C., Hevia, A., Janda, P., Jump, A. S., Kazimirović, M., Keren, S., Kreyling, J., Land, A., Latte, N., Levanić, T., van der Maaten, E., Van der Maaten-Theunissen, M., Martinez-Sancho, E., Menzel, A., Mikolas, M., Motta, R., Muffler, L., Nola, P., Panayotov, M., Petritan, A. M., Petritan, I. C., Popa, I., Prislan, P., Roibu, C., Rydval, M., Sanchez-Salguero, R., Scharnweber, T., Stajić, B., Svoboda, M., Tegel, W., Teodosiu, M., Toromani, E., Trotsiuk, V., Turcu, D., Weigel, R., Wilmking, M., Zang, C., Zlatanov, T.,& Trouet, V.. (2022). Jet stream position explains regional anomalies in European beech forest productivity and tree growth. in Nature Communications, 13(1).
https://doi.org/10.1038/s41467-022-29615-8
conv_1629

Dorado-Linan I, Ayarzaguena B, Babst F, Xu G, Gil L, Battipaglia G, Buras A, Cada V, Julio Camarero J, Cavin L, Claessens H, Drobyshev I, Garamszegi B, Grabner M, Hacket-Pain A, Hartl C, Hevia A, Janda P, Jump AS, Kazimirović M, Keren S, Kreyling J, Land A, Latte N, Levanić T, van der Maaten E, Van der Maaten-Theunissen M, Martinez-Sancho E, Menzel A, Mikolas M, Motta R, Muffler L, Nola P, Panayotov M, Petritan AM, Petritan IC, Popa I, Prislan P, Roibu C, Rydval M, Sanchez-Salguero R, Scharnweber T, Stajić B, Svoboda M, Tegel W, Teodosiu M, Toromani E, Trotsiuk V, Turcu D, Weigel R, Wilmking M, Zang C, Zlatanov T, Trouet V. Jet stream position explains regional anomalies in European beech forest productivity and tree growth. in Nature Communications. 2022;13(1).
doi:10.1038/s41467-022-29615-8
conv_1629 .

Dorado-Linan, Isabel, Ayarzaguena, Blanca, Babst, Flurin, Xu, Guobao, Gil, Luis, Battipaglia, Giovanna, Buras, Allan, Cada, Vojtech, Julio Camarero, J., Cavin, Liam, Claessens, Hugues, Drobyshev, Igor, Garamszegi, Balazs, Grabner, Michael, Hacket-Pain, Andrew, Hartl, Claudia, Hevia, Andrea, Janda, Pavel, Jump, Alistair S., Kazimirović, Marko, Keren, Srđan, Kreyling, Juergen, Land, Alexander, Latte, Nicolas, Levanić, Tom, van der Maaten, Ernst, Van der Maaten-Theunissen, Marieke, Martinez-Sancho, Elisabet, Menzel, Annette, Mikolas, Martin, Motta, Renzo, Muffler, Lena, Nola, Paola, Panayotov, Momchil, Petritan, Any Mary, Petritan, Ion Catalin, Popa, Ionel, Prislan, Peter, Roibu, Catalin-Constantin, Rydval, Miloš, Sanchez-Salguero, Raul, Scharnweber, Tobias, Stajić, Branko, Svoboda, Miroslav, Tegel, Willy, Teodosiu, Marius, Toromani, Elvin, Trotsiuk, Volodymyr, Turcu, Daniel-Ond, Weigel, Robert, Wilmking, Martin, Zang, Christian, Zlatanov, Tzvetan, Trouet, Valerie, "Jet stream position explains regional anomalies in European beech forest productivity and tree growth" in Nature Communications, 13, no. 1 (2022),
https://doi.org/10.1038/s41467-022-29615-8 .,
conv_1629 .