Your search keyword '"Mahnken, Mats"' showing total 18 results

1. Diameter, height and species of 42 million trees in three European landscapes generated from field data and airborne laser scanning data

Author

Aussenac, Raphaël, primary, Monnet, Jean-Matthieu, additional, Klopčič, Matija, additional, Hawryło, Paweł, additional, Socha, Jarosław, additional, Mahnken, Mats, additional, Gutsch, Martin, additional, Cordonnier, Thomas, additional, and Vallet, Patrick, additional

Published

2023

2. Significant increase in natural disturbance impacts on European forests since 1950

Author

Patacca, Marco, Lindner, Marcus, Lucas-Borja, Manuel Esteban, Cordonnier, Thomas, Fidej, Gal, Gardiner, Barry, Hauf, Ylva, Jasinevičius, Gediminas, Labonne, Sophie, Linkevičius, Edgaras, Mahnken, Mats, Milanovic, Slobodan, Nabuurs, Gert Jan, Nagel, Thomas A., Nikinmaa, Laura, Panyatov, Momchil, Bercak, Roman, Seidl, Rupert, Ostrogović Sever, Masa Zorana, Socha, Jaroslaw, Thom, Dominik, Vuletic, Dijana, Zudin, Sergey, Schelhaas, Mart Jan, Patacca, Marco, Lindner, Marcus, Lucas-Borja, Manuel Esteban, Cordonnier, Thomas, Fidej, Gal, Gardiner, Barry, Hauf, Ylva, Jasinevičius, Gediminas, Labonne, Sophie, Linkevičius, Edgaras, Mahnken, Mats, Milanovic, Slobodan, Nabuurs, Gert Jan, Nagel, Thomas A., Nikinmaa, Laura, Panyatov, Momchil, Bercak, Roman, Seidl, Rupert, Ostrogović Sever, Masa Zorana, Socha, Jaroslaw, Thom, Dominik, Vuletic, Dijana, Zudin, Sergey, and Schelhaas, Mart Jan

Abstract

Over the last decades, the natural disturbance is increasingly putting pressure on European forests. Shifts in disturbance regimes may compromise forest functioning and the continuous provisioning of ecosystem services to society, including their climate change mitigation potential. Although forests are central to many European policies, we lack the long-term empirical data needed for thoroughly understanding disturbance dynamics, modeling them, and developing adaptive management strategies. Here, we present a unique database of >170,000 records of ground-based natural disturbance observations in European forests from 1950 to 2019. Reported data confirm a significant increase in forest disturbance in 34 European countries, causing on an average of 43.8 million m3 of disturbed timber volume per year over the 70-year study period. This value is likely a conservative estimate due to under-reporting, especially of small-scale disturbances. We used machine learning techniques for assessing the magnitude of unreported disturbances, which are estimated to be between 8.6 and 18.3 million m3/year. In the last 20 years, disturbances on average accounted for 16% of the mean annual harvest in Europe. Wind was the most important disturbance agent over the study period (46% of total damage), followed by fire (24%) and bark beetles (17%). Bark beetle disturbance doubled its share of the total damage in the last 20 years. Forest disturbances can profoundly impact ecosystem services (e.g., climate change mitigation), affect regional forest resource provisioning and consequently disrupt long-term management planning objectives and timber markets. We conclude that adaptation to changing disturbance regimes must be placed at the core of the European forest management and policy debate. Furthermore, a coherent and homogeneous monitoring system of natural disturbances is urgently needed in Europe, to better observe and respond to the ongoing changes in forest disturbance regimes.

Published

2023

3. Comment on gmd-2022-268

Author

Mahnken, Mats, primary

Published

2022

4. Significant increase in natural disturbance impacts on European forests since 1950

Author

Patacca, Marco, primary, Lindner, Marcus, additional, Lucas‐Borja, Manuel Esteban, additional, Cordonnier, Thomas, additional, Fidej, Gal, additional, Gardiner, Barry, additional, Hauf, Ylva, additional, Jasinevičius, Gediminas, additional, Labonne, Sophie, additional, Linkevičius, Edgaras, additional, Mahnken, Mats, additional, Milanovic, Slobodan, additional, Nabuurs, Gert‐Jan, additional, Nagel, Thomas A., additional, Nikinmaa, Laura, additional, Panyatov, Momchil, additional, Bercak, Roman, additional, Seidl, Rupert, additional, Ostrogović Sever, Masa Zorana, additional, Socha, Jaroslaw, additional, Thom, Dominik, additional, Vuletic, Dijana, additional, Zudin, Sergey, additional, and Schelhaas, Mart‐Jan, additional

Published

2022

5. FORMASAM/ISIMIP future forest management scenarios

Author

Reyer, Christopher P.O., Schelhaas, Mart-Jan, Mäkelä, Annikki, Peltoniemi, Mikko, Gutsch, Martin, Mahnken, Mats, Loustau, Denis, Martel, Simon, Merganič, Jan, Merganičová, Katarína, Meesenburg, Henning, Rötzer, Thomas, Heym, Michael, Collalti, Alessio, D'Andrea, Ettore, Matteucci, Giorgio, Ibrom, Andreas, and Kvist Johannsen, Vivian

Abstract

Future forest management scenarios for forest simulation models for 9 forest sites of the regional forest sector in ISIMIP2b

Published

2023

6. Current Site-specific management guidelines and schedules for the 9 PROFOUND forest sites of the regional forest sector in ISIMIP

Author

Reyer, Christopher P.O., Schelhaas, Mart-Jan, Mäkelä, Annikki, Peltoniemi, Mikko, Gutsch, Martin, Mahnken, Mats, Loustau, Denis, Martel, Simon, Merganičová, Katarína, Meesenburg, Henning, Rötzer, Thomas, Heym, Michael, Collalti, Alessio, D'Andrea, Ettore, Matteucci, Giorgio, Ibrom, Andreas, and Kvist Johannsen, Vivian

Subjects

PROFOUND, FORMASAM, ISIMIP

Abstract

Forest management guidelines for forest simulation models for 9 forest sites of the regional forest sector in ISIMIP

Published

2023

7. Accuracy, realism and general applicability of European forest models

Author

Mahnken, Mats, primary, Cailleret, Maxime, additional, Collalti, Alessio, additional, Trotta, Carlo, additional, Biondo, Corrado, additional, D'Andrea, Ettore, additional, Dalmonech, Daniela, additional, Marano, Gina, additional, Mäkelä, Annikki, additional, Minunno, Francesco, additional, Peltoniemi, Mikko, additional, Trotsiuk, Volodymyr, additional, Nadal‐Sala, Daniel, additional, Sabaté, Santiago, additional, Vallet, Patrick, additional, Aussenac, Raphaël, additional, Cameron, David R., additional, Bohn, Friedrich J., additional, Grote, Rüdiger, additional, Augustynczik, Andrey L. D., additional, Yousefpour, Rasoul, additional, Huber, Nica, additional, Bugmann, Harald, additional, Merganičová, Katarina, additional, Merganic, Jan, additional, Valent, Peter, additional, Lasch‐Born, Petra, additional, Hartig, Florian, additional, Vega del Valle, Iliusi D., additional, Volkholz, Jan, additional, Gutsch, Martin, additional, Matteucci, Giorgio, additional, Krejza, Jan, additional, Ibrom, Andreas, additional, Meesenburg, Henning, additional, Rötzer, Thomas, additional, van der Maaten‐Theunissen, Marieke, additional, van der Maaten, Ernst, additional, and Reyer, Christopher P. O., additional

Published

2022

8. Quantifying climate change effects on future forest biomass availability using yield tables improved by mechanistic scaling

Author

Storms, Ilié, primary, Verdonck, Sanne, additional, Verbist, Bruno, additional, Willems, Patrick, additional, De Geest, Pieterjan, additional, Gutsch, Martin, additional, Cools, Nathalie, additional, De Vos, Bruno, additional, Mahnken, Mats, additional, Lopez, Joachim, additional, Van Orshoven, Jos, additional, and Muys, Bart, additional

Published

2022

9. Accuracy, realism and general applicability of European forest models

Author

Mahnken, Mats, Cailleret, Maxime, Collalti, Alessio, Trotta, Carlo, Biondo, Corrado, D'Andrea, Ettore, Dalmonech, Daniela, Marano, Gina, Mäkelä, Annikki, Minunno, Francesco, Peltoniemi, Mikko, Trotsiuk, Volodymyr, Nadal‐Sala, Daniel, Sabaté, Santiago, Vallet, Patrick, Aussenac, Raphaël, Cameron, David R., Bohn, Friedrich J., Grote, Rüdiger, Augustynczik, Andrey L.D., Yousefpour, Rasoul, Huber, Nica, Bugmann, Harald, Merganičová, Katarina, Merganic, Jan, Valent, Peter, Lasch‐Born, Petra, Hartig, Florian, Vega del Valle, Iliusi D., Volkholz, Jan, Gutsch, Martin, Matteucci, Giorgio, Krejza, Jan, Ibrom, Andreas, Meesenburg, Henning, Rötzer, Thomas, van der Maaten‐Theunissen, Marieke, van der Maaten, Ernst, Reyer, Christopher P.O., Mahnken, Mats, Cailleret, Maxime, Collalti, Alessio, Trotta, Carlo, Biondo, Corrado, D'Andrea, Ettore, Dalmonech, Daniela, Marano, Gina, Mäkelä, Annikki, Minunno, Francesco, Peltoniemi, Mikko, Trotsiuk, Volodymyr, Nadal‐Sala, Daniel, Sabaté, Santiago, Vallet, Patrick, Aussenac, Raphaël, Cameron, David R., Bohn, Friedrich J., Grote, Rüdiger, Augustynczik, Andrey L.D., Yousefpour, Rasoul, Huber, Nica, Bugmann, Harald, Merganičová, Katarina, Merganic, Jan, Valent, Peter, Lasch‐Born, Petra, Hartig, Florian, Vega del Valle, Iliusi D., Volkholz, Jan, Gutsch, Martin, Matteucci, Giorgio, Krejza, Jan, Ibrom, Andreas, Meesenburg, Henning, Rötzer, Thomas, van der Maaten‐Theunissen, Marieke, van der Maaten, Ernst, and Reyer, Christopher P.O.

Abstract

Forest models are instrumental for understanding and projecting the impact of climate change on forests. A considerable number of forest models have been developed in the last decades. However, few systematic and comprehensive model comparisons have been performed in Europe that combine an evaluation of modelled carbon and water fluxes and forest structure. We evaluate 13 widely used, state-of-the-art, stand-scale forest models against field measurements of forest structure and eddy-covariance data of carbon and water fluxes over multiple decades across an environmental gradient at nine typical European forest stands. We test the models' performance in three dimensions: accuracy of local predictions (agreement of modelled and observed annual data), realism of environmental responses (agreement of modelled and observed responses of daily gross primary productivity to temperature, radiation and vapour pressure deficit) and general applicability (proportion of European tree species covered). We find that multiple models are available that excel according to our three dimensions of model performance. For the accuracy of local predictions, variables related to forest structure have lower random and systematic errors than annual carbon and water flux variables. Moreover, the multi-model ensemble mean provided overall more realistic daily productivity responses to environmental drivers across all sites than any single individual model. The general applicability of the models is high, as almost all models are currently able to cover Europe's common tree species. We show that forest models complement each other in their response to environmental drivers and that there are several cases in which individual models outperform the model ensemble. Our framework provides a first step to capturing essential differences between forest models that go beyond the most commonly used accuracy of predictions. Overall, this study provides a point of reference for future model work aimed at

Published

2022

10. Managing forests in the 21st century: Book of abstracts

Author

Reyer, Christopher (Ed.), Bilogub, Mariia (Ed.), Mahnken, Mats (Ed.), Gutsch, Martin (Ed.), Krüger, Kirsten (Ed.), Rammig, Anja (Ed.), Reineking, Björn (Ed.), Seidl, Rupert (Ed.), Schelhaas, Mart-Jan (Ed.), Mäkelä, Annikki (Ed.), Verkerk, Hans (Ed.), Reyer, C., Bilogub, M., Mahnken, M., Gutsch, M., Krüger, K., Rammig, A., Reineking, B., Seidl, R., Schelhaas, M., Mäkelä, A., and Verkerk, H.

Abstract

Forest ecosystems, their products and services play an important role in achieving ambitious climate change mitigation objectives at the same time requiring profound adaptation to climate change. Forest management schemes to support climate action have to be developed within their regional context but also have to be aligned with national or EU-level climate, forest and sustainability policies. The conference on “Managing forests in the 21st century” is the final conference of the FORMASAM, REFORCE and FOREXCLIM research projects. The conference brings together scientific experts on forest management from all over Europe facing very specific management challenges. The aim is to discuss and improve the understanding the role of forests and forest management in the context of climate change. The conference addresses climate change impacts, as well as needs for mitigation and adaptation especially with regard to the following scientific questions: 1. What are the impacts of climate extremes and disturbances? 2. What are the management challenges (and options) for resilient forests? 3. What can we do to increase the contribution of forest management to climate change mitigation?

Published

2020

11. The PROFOUND database for evaluating vegetation models and simulating climate impacts on European forests

Author

Reyer, Christopher P.O., Silveyra Gonzalez, Ramiro, Dolos, Klara, Hartig, Florian, Hauf, Ylva, Noack, Matthias, Lasch-Born, Petra, Rötzer, Thomas, Pretzsch, Hans, Meesenburg, Henning, Fleck, Stefan, Wagner, Markus, Bolte, Andreas, Sanders, Tanja G.M., Kolari, Pasi, Mäkelä, Annikki, Vesala, Timo, Mammarella, Ivan, Pumpanen, Jukka, Collalti, Alessio, Trotta, Carlo, Matteucci, Giorgio, D'Andrea, Ettore, Foltýnová, Lenka, Krejza, Jan, Ibrom, Andreas, Pilegaard, Kim, Loustau, Denis, Bonnefond, Jean-Marc, Berbigier, Paul, Picart, Delphine, Lafont, Sébastien, Dietze, Michael, Cameron, David, Vieno, Massimo, Tian, Hanqin, Palacios-Orueta, Alicia, Cicuendez, Victor, Recuero, Laura, Wiese, Klaus, Büchner, Matthias, Lange, Stefan, Volkholz, Jan, Kim, Hyungjun, Horemans, Joanna A., Bohn, Friedrich, Steinkamp, Jörg, Chikalanov, Alexander, Weedon, Graham P., Sheffield, Justin, Babst, Flurin, Vega del Valle, Iliusi, Suckow, Felicitas, Martel, Simon, Mahnken, Mats, Gutsch, Martin, Frieler, Katja, Reyer, Christopher P.O., Silveyra Gonzalez, Ramiro, Dolos, Klara, Hartig, Florian, Hauf, Ylva, Noack, Matthias, Lasch-Born, Petra, Rötzer, Thomas, Pretzsch, Hans, Meesenburg, Henning, Fleck, Stefan, Wagner, Markus, Bolte, Andreas, Sanders, Tanja G.M., Kolari, Pasi, Mäkelä, Annikki, Vesala, Timo, Mammarella, Ivan, Pumpanen, Jukka, Collalti, Alessio, Trotta, Carlo, Matteucci, Giorgio, D'Andrea, Ettore, Foltýnová, Lenka, Krejza, Jan, Ibrom, Andreas, Pilegaard, Kim, Loustau, Denis, Bonnefond, Jean-Marc, Berbigier, Paul, Picart, Delphine, Lafont, Sébastien, Dietze, Michael, Cameron, David, Vieno, Massimo, Tian, Hanqin, Palacios-Orueta, Alicia, Cicuendez, Victor, Recuero, Laura, Wiese, Klaus, Büchner, Matthias, Lange, Stefan, Volkholz, Jan, Kim, Hyungjun, Horemans, Joanna A., Bohn, Friedrich, Steinkamp, Jörg, Chikalanov, Alexander, Weedon, Graham P., Sheffield, Justin, Babst, Flurin, Vega del Valle, Iliusi, Suckow, Felicitas, Martel, Simon, Mahnken, Mats, Gutsch, Martin, and Frieler, Katja

Abstract

Process-based vegetation models are widely used to predict local and global ecosystem dynamics and climate change impacts. Due to their complexity, they require careful parameterization and evaluation to ensure that projections are accurate and reliable. The PROFOUND Database (PROFOUND DB) provides a wide range of empirical data on European forests to calibrate and evaluate vegetation models that simulate climate impacts at the forest stand scale. A particular advantage of this database is its wide coverage of multiple data sources at different hierarchical and temporal scales, together with environmental driving data as well as the latest climate scenarios. Specifically, the PROFOUND DB provides general site descriptions, soil, climate, CO2, nitrogen deposition, tree and forest stand level, and remote sensing data for nine contrasting forest stands distributed across Europe. Moreover, for a subset of five sites, time series of carbon fluxes, atmospheric heat conduction and soil water are also available. The climate and nitrogen deposition data contain several datasets for the historic period and a wide range of future climate change scenarios following the Representative Concentration Pathways (RCP2.6, RCP4.5, RCP6.0, RCP8.5). We also provide pre-industrial climate simulations that allow for model runs aimed at disentangling the contribution of climate change to observed forest productivity changes. The PROFOUND DB is available freely as a “SQLite” relational database or “ASCII” flat file version (at https://doi.org/10.5880/PIK.2020.006/; Reyer et al., 2020). The data policies of the individual contributing datasets are provided in the metadata of each data file. The PROFOUND DB can also be accessed via the ProfoundData R package (https://CRAN.R-project.org/package=ProfoundData; Silveyra Gonzalez et al., 2020), which provides basic functions to explore, plot and extract the data for model set-up, calibration and evaluation.

Published

2020

12. The PROFOUND Database for evaluating vegetation models and simulating climate impacts on European forests

Author

Reyer, Christopher P. O., Gonzalez, Ramiro Silveyra, Dolos, Klara, Hartig, Florian, Hauf, Ylva, Noack, Matthias, Lasch-Born, Petra, Roetzer, Thomas, Pretzsch, Hans, Meesenburg, Henning, Fleck, Stefan, Wagner, Markus, Bolte, Andreas, Sanders, Tanja G. M., Kolari, Pasi, Makela, Annikki, Vesala, Timo, Mammarella, Ivan, Pumpanen, Jukka, Collalti, Alessio, Trotta, Carlo, Matteucci, Giorgio, D'Andrea, Ettore, Foltynova, Lenka, Krejza, Jan, Ibrom, Andreas, Pilegaard, Kim, Loustau, Denis, Bonnefond, Jean-Marc, Berbigier, Paul, Picart, Delphine, Lafont, Sebastien, Dietze, Michael, Cameron, David, Vieno, Massimo, Tian, Hanqin, Palacios-Orueta, Alicia, Cicuendez, Victor, Recuero, Laura, Wiese, Klaus, Buechner, Matthias, Lange, Stefan, Volkholz, Jan, Kim, Hyungjun, Horemans, Joanna A., Bohn, Friedrich, Steinkamp, Joerg, Chikalanov, Alexander, Weedon, Graham P., Sheffield, Justin, Babst, Flurin, del Valle, Iliusi Vega, Suckow, Felicitas, Martel, Simon, Mahnken, Mats, Gutsch, Martin, Frieler, Katja, Reyer, Christopher P. O., Gonzalez, Ramiro Silveyra, Dolos, Klara, Hartig, Florian, Hauf, Ylva, Noack, Matthias, Lasch-Born, Petra, Roetzer, Thomas, Pretzsch, Hans, Meesenburg, Henning, Fleck, Stefan, Wagner, Markus, Bolte, Andreas, Sanders, Tanja G. M., Kolari, Pasi, Makela, Annikki, Vesala, Timo, Mammarella, Ivan, Pumpanen, Jukka, Collalti, Alessio, Trotta, Carlo, Matteucci, Giorgio, D'Andrea, Ettore, Foltynova, Lenka, Krejza, Jan, Ibrom, Andreas, Pilegaard, Kim, Loustau, Denis, Bonnefond, Jean-Marc, Berbigier, Paul, Picart, Delphine, Lafont, Sebastien, Dietze, Michael, Cameron, David, Vieno, Massimo, Tian, Hanqin, Palacios-Orueta, Alicia, Cicuendez, Victor, Recuero, Laura, Wiese, Klaus, Buechner, Matthias, Lange, Stefan, Volkholz, Jan, Kim, Hyungjun, Horemans, Joanna A., Bohn, Friedrich, Steinkamp, Joerg, Chikalanov, Alexander, Weedon, Graham P., Sheffield, Justin, Babst, Flurin, del Valle, Iliusi Vega, Suckow, Felicitas, Martel, Simon, Mahnken, Mats, Gutsch, Martin, and Frieler, Katja

Abstract

Process-based vegetation models are widely used to predict local and global ecosystem dynamics and climate change impacts. Due to their complexity, they require careful parameterization and evaluation to ensure that projections are accurate and reliable. The PROFOUND Database (PROFOUND DB) provides a wide range of empirical data on European forests to calibrate and evaluate vegetation models that simulate climate impacts at the forest stand scale. A particular advantage of this database is its wide coverage of multiple data sources at different hierarchical and temporal scales, together with environmental driving data as well as the latest climate scenarios. Specifically, the PROFOUND DB provides general site descriptions, soil, climate, CO2, nitrogen deposition, tree and forest stand level, and remote sensing data for nine contrasting forest stands distributed across Europe. Moreover, for a subset of five sites, time series of carbon fluxes, atmospheric heat conduction and soil water are also available. The climate and nitrogen deposition data contain several datasets for the historic period and a wide range of future climate change scenarios following the Representative Concentration Pathways (RCP2.6, RCP4.5, RCP6.0, RCP8.5). We also provide pre-industrial climate simulations that allow for model runs aimed at disentangling the contribution of climate change to observed forest productivity changes. The PROFOUND DB is available freely as a "SQLite" relational database or "ASCII" flat file version (at https://doi.org/10.5880/PIK.2020.006/; Reyer et al., 2020). The data policies of the individual contributing datasets are provided in the metadata of each data file. The PROFOUND DB can also be accessed via the ProfoundData R package (https://CRAN.R- project.org/package=ProfoundData; Silveyra Gonzalez et al., 2020), which provides basic functions to explore, plot and extract the data for model set-up, calibration and evaluation.

Published

2020

13. The PROFOUND Database for evaluating vegetation models and simulating climate impacts on European forests

Author

Reyer, Christopher P. O., primary, Silveyra Gonzalez, Ramiro, additional, Dolos, Klara, additional, Hartig, Florian, additional, Hauf, Ylva, additional, Noack, Matthias, additional, Lasch-Born, Petra, additional, Rötzer, Thomas, additional, Pretzsch, Hans, additional, Meesenburg, Henning, additional, Fleck, Stefan, additional, Wagner, Markus, additional, Bolte, Andreas, additional, Sanders, Tanja G. M., additional, Kolari, Pasi, additional, Mäkelä, Annikki, additional, Vesala, Timo, additional, Mammarella, Ivan, additional, Pumpanen, Jukka, additional, Collalti, Alessio, additional, Trotta, Carlo, additional, Matteucci, Giorgio, additional, D'Andrea, Ettore, additional, Foltýnová, Lenka, additional, Krejza, Jan, additional, Ibrom, Andreas, additional, Pilegaard, Kim, additional, Loustau, Denis, additional, Bonnefond, Jean-Marc, additional, Berbigier, Paul, additional, Picart, Delphine, additional, Lafont, Sébastien, additional, Dietze, Michael, additional, Cameron, David, additional, Vieno, Massimo, additional, Tian, Hanqin, additional, Palacios-Orueta, Alicia, additional, Cicuendez, Victor, additional, Recuero, Laura, additional, Wiese, Klaus, additional, Büchner, Matthias, additional, Lange, Stefan, additional, Volkholz, Jan, additional, Kim, Hyungjun, additional, Horemans, Joanna A., additional, Bohn, Friedrich, additional, Steinkamp, Jörg, additional, Chikalanov, Alexander, additional, Weedon, Graham P., additional, Sheffield, Justin, additional, Babst, Flurin, additional, Vega del Valle, Iliusi, additional, Suckow, Felicitas, additional, Martel, Simon, additional, Mahnken, Mats, additional, Gutsch, Martin, additional, and Frieler, Katja, additional

Published

2020

14. The PROFOUND database for evaluating vegetation models and simulating climate impacts on forests

Author

Reyer, Christopher P. O., Silveyra Gonzalez, Ramiro, Dolos, Klara, Hartig, Florian, Hauf, Ylva, Noack, Matthias, Lasch-Born, Petra, Rötzer, Thomas, Pretzsch, Hans, Mesenburg, Henning, Fleck, Stefan, Wagner, Markus, Bolte, Andreas, Sanders, Tanja G. M., Kolari, Pasi, Mäkelä, Annikki, Vesala, Timo, Mammarella, Ivan, Pumpanen, Jukka, Collalti, Alessio, Trotta, Carlo, Matteucci, Giorgio, D'Andrea, Ettore, Foltýnová, Lenka, Krejza, Jan, Ibrom, Andreas, Pilegaard, Kim, Loustau, Denis, Bonnefond, Jean-Marc, Berbigier, Paul, Picart, Delphine, Lafont, Sebastien, Dietze, Michael, Cameron, David, Vieno, Massimo, Tian, Hanqin, Palacios-Orueta, Alicia, Cicuendez, Victor, Recuero, Laura, Wiese, Klaus, Büchner, Matthias, Lange, Stefan, Volkholz, Jan, Kim, Hyungjun, Weedon, Graham P., Sheffield, Justin, Vega del Valle, Iliusi, Suckow, Felicitas, Horemans, Joanna A., Martel, Simon, Bohn, Friedrich, Steinkamp, Jörg, Chikalanov, Alexander, Mahnken, Mats, Gutsch, Martin, and Frieler, Katja

Abstract

Process-based vegetation models are widely used to predict local and global ecosystem dynamics and climate change impacts. Due to their complexity, they require careful parameterization and evaluation to ensure that projections are accurate and reliable. The PROFOUND Database (PROFOUND DB) provides a wide range of empirical data to calibrate and evaluate vegetation models that simulate climate impacts at the forest stand scale. A particular advantage of this database is its wide coverage of multiple data sources at different hierarchical and temporal scales, together with environmental driving data as well as the latest climate scenarios. Specifically, the PROFOUND DB provides general site descriptions, soil, climate, CO2, nitrogen deposition, tree and forest stand-level, as well as remote sensing data for nine contrasting forest stands distributed across Europe. Moreover, for a subset of five sites, time series of carbon fluxes, atmospheric heat conduction, and soil water are also available. The climate and nitrogen deposition data contain several datasets for the historic period and a wide range of future climate change scenarios following the Representative Concentration Pathways (RCP2.6, RCP4.5, RCP6.0, RCP8.5). We also provide pre-industrial climate simulations that allow for model runs aimed at disentangling the contribution of climate change to observed forest productivity changes. The PROFOUND DB is available freely as a SQLite relational database or ASCII flat file version (at https://doi.org/10.5880/PIK.2019.008). The data policies of the individual, contributing datasets are provided in the metadata of each data file. The PROFOUND DB can also be accessed via the ProfoundData R-package (https://github.com/COST-FP1304-PROFOUND/ProfoundData), which provides basic functions to explore, plot, and extract the data for model set-up, calibration and evaluation.

Published

2019

15. Supplementary material to "The PROFOUND database for evaluating vegetation models and simulating climate impacts on forests"

Author

Reyer, Christopher P. O., primary, Silveyra Gonzalez, Ramiro, additional, Dolos, Klara, additional, Hartig, Florian, additional, Hauf, Ylva, additional, Noack, Matthias, additional, Lasch-Born, Petra, additional, Rötzer, Thomas, additional, Pretzsch, Hans, additional, Mesenburg, Henning, additional, Fleck, Stefan, additional, Wagner, Markus, additional, Bolte, Andreas, additional, Sanders, Tanja G. M., additional, Kolari, Pasi, additional, Mäkelä, Annikki, additional, Vesala, Timo, additional, Mammarella, Ivan, additional, Pumpanen, Jukka, additional, Collalti, Alessio, additional, Trotta, Carlo, additional, Matteucci, Giorgio, additional, D'Andrea, Ettore, additional, Foltýnová, Lenka, additional, Krejza, Jan, additional, Ibrom, Andreas, additional, Pilegaard, Kim, additional, Loustau, Denis, additional, Bonnefond, Jean-Marc, additional, Berbigier, Paul, additional, Picart, Delphine, additional, Lafont, Sébastien, additional, Dietze, Michael, additional, Cameron, David, additional, Vieno, Massimo, additional, Tian, Hanqin, additional, Palacios-Orueta, Alicia, additional, Cicuendez, Victor, additional, Recuero, Laura, additional, Wiese, Klaus, additional, Büchner, Matthias, additional, Lange, Stefan, additional, Volkholz, Jan, additional, Kim, Hyungjun, additional, Weedon, Graham P., additional, Sheffield, Justin, additional, Vega del Valle, Iliusi, additional, Suckow, Felicitas, additional, Horemans, Joanna A., additional, Martel, Simon, additional, Bohn, Friedrich, additional, Steinkamp, Jörg, additional, Chikalanov, Alexander, additional, Mahnken, Mats, additional, Gutsch, Martin, additional, and Frieler, Katja, additional

Published

2019

16. The PROFOUND database for evaluating vegetation models and simulating climate impacts on forests

Author

Reyer, Christopher P. O., primary, Silveyra Gonzalez, Ramiro, additional, Dolos, Klara, additional, Hartig, Florian, additional, Hauf, Ylva, additional, Noack, Matthias, additional, Lasch-Born, Petra, additional, Rötzer, Thomas, additional, Pretzsch, Hans, additional, Mesenburg, Henning, additional, Fleck, Stefan, additional, Wagner, Markus, additional, Bolte, Andreas, additional, Sanders, Tanja G. M., additional, Kolari, Pasi, additional, Mäkelä, Annikki, additional, Vesala, Timo, additional, Mammarella, Ivan, additional, Pumpanen, Jukka, additional, Collalti, Alessio, additional, Trotta, Carlo, additional, Matteucci, Giorgio, additional, D'Andrea, Ettore, additional, Foltýnová, Lenka, additional, Krejza, Jan, additional, Ibrom, Andreas, additional, Pilegaard, Kim, additional, Loustau, Denis, additional, Bonnefond, Jean-Marc, additional, Berbigier, Paul, additional, Picart, Delphine, additional, Lafont, Sébastien, additional, Dietze, Michael, additional, Cameron, David, additional, Vieno, Massimo, additional, Tian, Hanqin, additional, Palacios-Orueta, Alicia, additional, Cicuendez, Victor, additional, Recuero, Laura, additional, Wiese, Klaus, additional, Büchner, Matthias, additional, Lange, Stefan, additional, Volkholz, Jan, additional, Kim, Hyungjun, additional, Weedon, Graham P., additional, Sheffield, Justin, additional, Vega del Valle, Iliusi, additional, Suckow, Felicitas, additional, Horemans, Joanna A., additional, Martel, Simon, additional, Bohn, Friedrich, additional, Steinkamp, Jörg, additional, Chikalanov, Alexander, additional, Mahnken, Mats, additional, Gutsch, Martin, additional, and Frieler, Katja, additional

Published

2019

17. The PROFOUND Database for evaluating vegetation models and simulating climate impacts on European forests

Author

Reyer, Christopher P. O., Silveyra Gonzalez, Ramiro, Dolos, Klara, Hartig, Florian, Hauf, Ylva, Noack, Matthias, Lasch-Born, Petra, Rötzer, Thomas, Pretzsch, Hans, Meesenburg, Henning, Fleck, Stefan, Wagner, Markus, Bolte, Andreas, Sanders, Tanja G. M., Kolari, Pasi, Mäkelä, Annikki, Vesala, Timo, Mammarella, Ivan, Pumpanen, Jukka, Collalti, Alessio, Trotta, Carlo, Matteucci, Giorgio, D'Andrea, Ettore, Foltýnová, Lenka, Krejza, Jan, Ibrom, Andreas, Pilegaard, Kim, Loustau, Denis, Bonnefond, Jean-Marc, Berbigier, Paul, Picart, Delphine, Lafont, Sébastien, Dietze, Michael, Cameron, David, Vieno, Massimo, Tian, Hanqin, Palacios-Orueta, Alicia, Cicuendez, Victor, Recuero, Laura, Wiese, Klaus, Büchner, Matthias, Lange, Stefan, Volkholz, Jan, Kim, Hyungjun, Horemans, Joanna A., Bohn, Friedrich, Steinkamp, Jörg, Chikalanov, Alexander, Weedon, Graham P., Sheffield, Justin, Babst, Flurin, Vega Del Valle, Iliusi, Suckow, Felicitas, Martel, Simon, Mahnken, Mats, Gutsch, Martin, and Frieler, Katja

Subjects

13. Climate action, 15. Life on land

Abstract

Process-based vegetation models are widely used to predict local and global ecosystem dynamics and climate change impacts. Due to their complexity, they require careful parameterization and evaluation to ensure that projections are accurate and reliable. The PROFOUND Database (PROFOUND DB) provides a wide range of empirical data on European forests to calibrate and evaluate vegetation models that simulate climate impacts at the forest stand scale. A particular advantage of this database is its wide coverage of multiple data sources at different hierarchical and temporal scales, together with environmental driving data as well as the latest climate scenarios. Specifically, the PROFOUND DB provides general site descriptions, soil, climate, CO$_{2}$, nitrogen deposition, tree and forest stand level, and remote sensing data for nine contrasting forest stands distributed across Europe. Moreover, for a subset of five sites, time series of carbon fluxes, atmospheric heat conduction and soil water are also available. The climate and nitrogen deposition data contain several datasets for the historic period and a wide range of future climate change scenarios following the Representative Concentration Pathways (RCP2.6, RCP4.5, RCP6.0, RCP8.5). We also provide pre-industrial climate simulations that allow for model runs aimed at disentangling the contribution of climate change to observed forest productivity changes. The PROFOUND DB is available freely as a “SQLite” relational database or “ASCII” flat file version (at https://doi.org/10.5880/PIK.2020.006/; Reyer et al., 2020). The data policies of the individual contributing datasets are provided in the metadata of each data file. The PROFOUND DB can also be accessed via the ProfoundData R package (https://CRAN.R-project.org/package=ProfoundData; Silveyra Gonzalez et al., 2020), which provides basic functions to explore, plot and extract the data for model set-up, calibration and evaluation.

18. Significant increase in natural disturbance impacts on European forests since 1950.

Author

Patacca M, Lindner M, Lucas-Borja ME, Cordonnier T, Fidej G, Gardiner B, Hauf Y, Jasinevičius G, Labonne S, Linkevičius E, Mahnken M, Milanovic S, Nabuurs GJ, Nagel TA, Nikinmaa L, Panyatov M, Bercak R, Seidl R, Ostrogović Sever MZ, Socha J, Thom D, Vuletic D, Zudin S, and Schelhaas MJ

Subjects

Animals, Trees, Forests, Europe, Ecosystem, Coleoptera

Abstract

Over the last decades, the natural disturbance is increasingly putting pressure on European forests. Shifts in disturbance regimes may compromise forest functioning and the continuous provisioning of ecosystem services to society, including their climate change mitigation potential. Although forests are central to many European policies, we lack the long-term empirical data needed for thoroughly understanding disturbance dynamics, modeling them, and developing adaptive management strategies. Here, we present a unique database of >170,000 records of ground-based natural disturbance observations in European forests from 1950 to 2019. Reported data confirm a significant increase in forest disturbance in 34 European countries, causing on an average of 43.8 million m 3 of disturbed timber volume per year over the 70-year study period. This value is likely a conservative estimate due to under-reporting, especially of small-scale disturbances. We used machine learning techniques for assessing the magnitude of unreported disturbances, which are estimated to be between 8.6 and 18.3 million m 3 /year. In the last 20 years, disturbances on average accounted for 16% of the mean annual harvest in Europe. Wind was the most important disturbance agent over the study period (46% of total damage), followed by fire (24%) and bark beetles (17%). Bark beetle disturbance doubled its share of the total damage in the last 20 years. Forest disturbances can profoundly impact ecosystem services (e.g., climate change mitigation), affect regional forest resource provisioning and consequently disrupt long-term management planning objectives and timber markets. We conclude that adaptation to changing disturbance regimes must be placed at the core of the European forest management and policy debate. Furthermore, a coherent and homogeneous monitoring system of natural disturbances is urgently needed in Europe, to better observe and respond to the ongoing changes in forest disturbance regimes., (© 2022 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2023