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105. Leaf trait variation within individuals mediates the relationship between tree species richness and productivity.

Author

Proß, Tobias, Haider, Sylvia, Auge, Harald, and Bruelheide, Helge

Abstract

In forest ecosystems, many ecosystem functions such as tree growth are affected by tree species richness. This biodiversity–productivity relationship (BPR) is mediated by leaf traits, which themselves are known to be influenced by tree species richness; at the same time, as the primary organs of light capture, they are an important factor for tree growth. However, how tree growth is influenced by a tree's ability to phenotypically adjust its leaf traits to the within‐individual light gradient has largely been unexplored. Furthermore, it is not known how such impacts of within‐tree leaf trait variation on individual tree growth sums up to productivity at the community scale. In this study we tested how tree species richness, a tree's mean leaf traits, within‐tree leaf trait variation and the light extinction coefficient within a tree crown influence tree growth. We measured these variables in the temperate forest plantation of the Kreinitz biodiversity experiment. We found that the relationship between tree species richness and tree growth is mediated via the leaf trait variation of the individual trees, which in turn was modified by light availability. In particular, trees in monocultures show a higher within‐individual leaf trait variation, which partly compensates for the lack in among‐species leaf trait variation, and thus affects the BPR. It seems that tree richness operates both through increased acquisitive trait values and within‐individual leaf trait variation, two processes that cancelled out each other and resulted in the absence of a significant effect of tree richness on productivity in our study. In conclusion, to understand the BPR, it is important to study the underlying processes and to know which ones reinforce or oppose each other. In particular, our study highlights the importance of including within‐individual leaf trait variation in ecological research as one important moderator in the BPR. [ABSTRACT FROM AUTHOR]

Published
2024
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106. Systematic distributions of interaction strengths across tree interaction networks yield positive diversity–productivity relationships.

Author

Yu, Wentao, Albert, Georg, Rosenbaum, Benjamin, Schnabel, Florian, Bruelheide, Helge, Connolly, John, Härdtle, Werner, von Oheimb, Goddert, Trogisch, Stefan, Rüger, Nadja, and Brose, Ulrich

Subjects
FOREST biodiversity, FOREST productivity, FOREST restoration, ENVIRONMENTAL degradation, TREES
Abstract

Understanding the mechanisms underlying diversity–productivity relationships (DPRs) is crucial to mitigating the effects of forest biodiversity loss. Tree–tree interactions in diverse communities are fundamental in driving growth rates, potentially shaping the emergent DPRs, yet remain poorly explored. Here, using data from a large‐scale forest biodiversity experiment in subtropical China, we demonstrated that changes in individual tree productivity were driven by species‐specific pairwise interactions, with higher positive net pairwise interaction effects on trees in more diverse neighbourhoods. By perturbing the interactions strength from empirical data in simulations, we revealed that the positive differences between inter‐ and intra‐specific interactions were the critical determinant for the emergence of positive DPRs. Surprisingly, the condition for positive DPRs corresponded to the condition for coexistence. Our results thus provide a novel insight into how pairwise tree interactions regulate DPRs, with implications for identifying the tree mixtures with maximized productivity to guide forest restoration and reforestation efforts. [ABSTRACT FROM AUTHOR]

Published
2024
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107. A multitrophic perspective on biodiversity–ecosystem functioning research

Author

Eisenhauer, Nico, primary, Schielzeth, Holger, additional, Barnes, Andrew D., additional, Barry, Kathryn E., additional, Bonn, Aletta, additional, Brose, Ulrich, additional, Bruelheide, Helge, additional, Buchmann, Nina, additional, Buscot, François, additional, Ebeling, Anne, additional, Ferlian, Olga, additional, Freschet, Grégoire T., additional, Giling, Darren P., additional, Hättenschwiler, Stephan, additional, Hillebrand, Helmut, additional, Hines, Jes, additional, Isbell, Forest, additional, Koller-France, Eva, additional, König-Ries, Birgitta, additional, de Kroon, Hans, additional, Meyer, Sebastian T., additional, Milcu, Alexandru, additional, Müller, Jörg, additional, Nock, Charles A., additional, Petermann, Jana S., additional, Roscher, Christiane, additional, Scherber, Christoph, additional, Scherer-Lorenzen, Michael, additional, Schmid, Bernhard, additional, Schnitzer, Stefan A., additional, Schuldt, Andreas, additional, Tscharntke, Teja, additional, Türke, Manfred, additional, van Dam, Nicole M., additional, van der Plas, Fons, additional, Vogel, Anja, additional, Wagg, Cameron, additional, Wardle, David A., additional, Weigelt, Alexandra, additional, Weisser, Wolfgang W., additional, Wirth, Christian, additional, and Jochum, Malte, additional

Published
2019
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110. Scientists support the EU's Green Deal and reject the unjustified argumentation against the Sustainable Use Regulation and the Nature Restoration Law

Author

Pe'er, Guy, Kachler, Jana, Herzon, Irina, Hering, Daniel, Arponen, Anni, Bosco, Laura, Bruelheide, Helge, Friedrichs-Manthey, Martin, Hagedorn, Gregor, Hansjürgens, Bernd, Ladouceur, Emma, Lakner, Sebastian, Liquete, Camino, Quaas, Martin, Robuchon, Marine, Saavedra, Deli, Selva, Nuria, Settele, Josef, Sirami, Clélia, Van Dam, Nicole M., Wittmer, Heidi, Wubs, E.R. Jasper, and Bonn, Aletta

Subjects
Nature restoration law, Sustainable Use Regulation, pesticides, nature protection, European policy, Green Deal, evidence-based policy, misinformation
Abstract

The scientific community is deeply concerned about the ongoing discussions on the EU’s Green Deal. Of particular concern are the current criticisms targeting the Sustainable Use Regulation (SUR) and Nature Restoration Law (NRL). We urge policy makers to continue the legislative procedure for the SUR and the NRL, and invite opponents of the Green Deal for a consultation with scientists. The call was led by 23 scientists and signed by 6000 scientists across EU Member States and 30 additional countries., This open letter is accompanied by signatures from 6000 scientists. The document has been adjusted and elaborated in response to comments on the initial versions of 7.6.2023, and two new claims and counter-claims, as well as introduction and discussion, were added.

Published
2023
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113. Tree communities and functional traits determine herbivore compositional turnover

Author

Wang, Ming-Qiang, primary, Wen, Zhixin, additional, Ke, Jinzhao, additional, Chesters, Douglas, additional, Li, Yi, additional, Chen, Jing-Ting, additional, Luo, Arong, additional, Shi, Xiaoyu, additional, Zhou, Qing-Song, additional, Liu, Xiao-Juan, additional, Ma, Keping, additional, Bruelheide, Helge, additional, Schuldt, Andreas, additional, and Zhu, Chao-Dong, additional

Published
2023
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116. Carbon–biodiversity relationships in a highly diverse subtropical forest

Author

Schuldt, Andreas, primary, Liu, Xiaojuan, additional, Buscot, François, additional, Bruelheide, Helge, additional, Erfmeier, Alexandra, additional, He, Jin‐Sheng, additional, Klein, Alexandra‐Maria, additional, Ma, Keping, additional, Scherer‐Lorenzen, Michael, additional, Schmid, Bernhard, additional, Scholten, Thomas, additional, Tang, Zhiyao, additional, Trogisch, Stefan, additional, Wirth, Christian, additional, Wubet, Tesfaye, additional, and Staab, Michael, additional

Published
2023
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121. Disentangling drivers of litter decomposition in a multi-continent network of tree diversity experiments

Author

UCL - SST/ELI/ELIE - Environmental Sciences, Desie, Ellen, Zuo, Juan, Verheyen, Kris, Djukic, Ika, Van Meerbeek, Koenraad, Auge, Harald, Barsoum, Nadia, Baum, Christel, Bruelheide, Helge, Eisenhauer, Nico, Feldhaar, Heike, Ferlian, Olga, Gravel, Dominique, Jactel, Hervé, Schmidt, Inger Kappel, Kepfer-Rojas, Sebastian, Meredieu, Céline, Mereu, Simone, Messier, Christian, Morillas, Lourdes, Nock, Charles, Paquette, Alain, Ponette, Quentin, Reich, Peter B., Roales, Javier, Scherer-Lorenzen, Michael, Seitz, Steffen, Schmidt, Anja, Stefanski, Artur, Trogisch, Stefan, Halder, Inge van, Weih, Martin, Williams, Laura J., Yang, Bo, Muys, Bart, UCL - SST/ELI/ELIE - Environmental Sciences, Desie, Ellen, Zuo, Juan, Verheyen, Kris, Djukic, Ika, Van Meerbeek, Koenraad, Auge, Harald, Barsoum, Nadia, Baum, Christel, Bruelheide, Helge, Eisenhauer, Nico, Feldhaar, Heike, Ferlian, Olga, Gravel, Dominique, Jactel, Hervé, Schmidt, Inger Kappel, Kepfer-Rojas, Sebastian, Meredieu, Céline, Mereu, Simone, Messier, Christian, Morillas, Lourdes, Nock, Charles, Paquette, Alain, Ponette, Quentin, Reich, Peter B., Roales, Javier, Scherer-Lorenzen, Michael, Seitz, Steffen, Schmidt, Anja, Stefanski, Artur, Trogisch, Stefan, Halder, Inge van, Weih, Martin, Williams, Laura J., Yang, Bo, and Muys, Bart

Abstract

Litter decomposition is a key ecosystem function in forests and varies in response to a range of climatic, edaphic, and local stand characteristics. Disentangling the relative contribution of these factors is challenging, especially along large environmental gradients. In particular, knowledge of the effect of management options, such as tree planting density and species composition, on litter decomposition would be highly valuable in forestry. In this study, we made use of 15 tree diversity experiments spread over eight countries and three continents within the global TreeDivNet network. We evaluated the effects of overstory composition (tree identity, species/mixture composition and species richness), plantation conditions (density and age), and climate (temperature and precipitation) on mass loss (after 3 months and 1 year) of two standardized litters: high-quality green tea and low-quality rooibos tea. Across continents, we found that early-stage decomposition of the low-quality rooibos tea was influenced locally by overstory tree identity. Mass loss of rooibos litter was higher under young gymnosperm overstories compared to angiosperm overstories, but this trend reversed with age of the experiment. Tree species richness did not influence decomposition and explained almost no variation in our multi-continent dataset. Hence, in the young plantations of our study, overstory composition effects on decomposition were mainly driven by tree species identity on decomposer communities and forest microclimates. After 12 months of incubation, mass loss of the high-quality green tea litter was mainly influenced by temperature whereas the low-quality rooibos tea litter decomposition showed stronger relationships with overstory composition and stand age. Our findings highlight that decomposition dynamics are not only affected by climate but also by management options, via litter quality of the identity of planted trees but also by overstory composition and structure.

Published
2023

122. Fewer chromosomes, more co-occurring species within plant lineages : A likely effect of local survival and colonization

Author

Bartish, Igor V., Bonnefoi, Salomé, Aïnouche, Abdelkader, Bruelheide, Helge, Bartish, Mark, Prinzing, Andreas, Bartish, Igor V., Bonnefoi, Salomé, Aïnouche, Abdelkader, Bruelheide, Helge, Bartish, Mark, and Prinzing, Andreas

Abstract

Premise:Plant lineages differ markedly in species richness globally, regionally, and locally. Differences in whole-genome characteristics (WGCs) such as monoploid chromosome number, genome size, and ploidy level may explain differences in global species richness through speciation or global extinction. However, it is unknown whether WGCs drive species richness within lineages also in a recent, postglacial regional flora or in local plant communities through local extinction or colonization and regional species turnover. Methods:We tested for relationships between WGCs and richness of angiosperm families across the Netherlands/Germany/Czechia as a region, and within 193,449 local vegetation plots. Results:Families that are species-rich across the region have lower ploidy levels and small monoploid chromosomes numbers or both (interaction terms), but the relationships disappear after accounting for continental and local richness of families. Families that are species-rich within occupied localities have small numbers of polyploidy and monoploid chromosome numbers or both, independent of their own regional richness and the local richness of all other locally co-occurring species in the plots. Relationships between WGCs and family species-richness persisted after accounting for niche characteristics and life histories. Conclusions:Families that have few chromosomes, either monoploid or holoploid, succeed in maintaining many species in local communities and across a continent and, as indirect consequence of both, across a region. We suggest evolutionary mechanisms to explain how small chromosome numbers and ploidy levels might decrease rates of local extinction and increase rates of colonization. The genome of a macroevolutionary lineage may ultimately control whether its species can ecologically coexist., QC 20230704

Published
2023
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123. Integrated global assessment of the natural forest carbon potential

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Mo, Lidong, Zohner, Constantin M., Reich, Peter B., Liang, Jingjing, de Miguel, Sergio, Nabuurs, Gert-Jan, Renner, Susanne S., van den Hoogen, Johan, Araza, Arnan, Herold, Martin, Mirzagholi, Leila, Ma, Haozhi, Averill, Colin, Phillips, Oliver L., Gamarra, Javier G. P., Hordijk, Iris, Routh, Devin, Abegg, Meinrad, Adou Yao, Yves C., Alberti, Giorgio, Almeyda Zambrano, Angelica M., Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F., Amaral, Iêda, Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A., Baker, Timothy R., Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G., Bastian, Meredith L., Bastin, Jean-Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H. S., Brandl, Susanne, Brearley, Francis Q., Brienen, Roel, Broadbent, Eben N., Bruelheide, Helge, Bussotti, Filippo, Cazzolla Gatti, Roberto, César, Ricardo G., Cesljar, Goran, Chazdon, Robin L., Chen, Han Y. H., Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D., Coomes, David A., Cornejo Valverde, Fernando, Corral-Rivas, José J., Crim, Philip M., Cumming, Jonathan R., Dayanandan, Selvadurai, de Gasper, André L., Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J., Eyre, Teresa J., Fandohan, Adandé Belarmain, Fayle, Tom M., Feldpausch, Ted R., Ferreira, Leandro V., Finér, Leena, Fischer, Markus, Fletcher, Christine, Frizzera, Lorenzo, Gianelle, Damiano, Glick, Henry B., Harris, David J., Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L., Hillers, Annika, Honorio Coronado, Eurídice N., Hui, Cang, Ibanez, Thomas, Imai, Nobuo, Jagodziński, Andrzej M., Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A., Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J., Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Kucher, Dmitry, Laarmann, Diana, Lang, Mait, Lu, Huicui, Lukina, Natalia V., Maitner, Brian S., Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R., Martin, Emanuel H., Meave, Jorge A., Melo-Cruz, Omar, Mendoza, Casimiro, Mendoza-Polo, Irina, Miscicki, Stanislaw, Merow, Cory, Monteagudo Mendoza, Abel, Moreno, Vanessa S., Mukul, Sharif A., Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J., Nevenic, Radovan V., Ngugi, Michael R., Niklaus, Pascal A., Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L., Pfautsch, Sebastian, Picard, Nicolas, Piedade, Maria Teresa F., Piotto, Daniel, Pitman, Nigel C. A., Poulsen, Axel Dalberg, Poulsen, John R., Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G., Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schelhaas, Mart-Jan, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B., Seben, Vladimír, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Silva-Espejo, Javier E., Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F., Stereńczak, Krzysztof J., Svenning, Jens-Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M., Usoltsev, Vladimir A., Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Van Do, Tran, van Nuland, Michael E., Vasquez, Rodolfo M., Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone, von Gadow, Klaus, Wang, Hua-Feng, Watson, James V., Werner, Gijsbert D. A., Wiser, Susan K., Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderik, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi-Xin, Zo-Bi, Irie C., Gann, George D., Crowther, Thomas W., Ecology and Biodiversity, Sub Ecology and Biodiversity, Mo, Lidong, Zohner, Constantin M., Reich, Peter B., Liang, Jingjing, de Miguel, Sergio, Nabuurs, Gert-Jan, Renner, Susanne S., van den Hoogen, Johan, Araza, Arnan, Herold, Martin, Mirzagholi, Leila, Ma, Haozhi, Averill, Colin, Phillips, Oliver L., Gamarra, Javier G. P., Hordijk, Iris, Routh, Devin, Abegg, Meinrad, Adou Yao, Yves C., Alberti, Giorgio, Almeyda Zambrano, Angelica M., Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F., Amaral, Iêda, Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A., Baker, Timothy R., Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G., Bastian, Meredith L., Bastin, Jean-Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H. S., Brandl, Susanne, Brearley, Francis Q., Brienen, Roel, Broadbent, Eben N., Bruelheide, Helge, Bussotti, Filippo, Cazzolla Gatti, Roberto, César, Ricardo G., Cesljar, Goran, Chazdon, Robin L., Chen, Han Y. H., Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D., Coomes, David A., Cornejo Valverde, Fernando, Corral-Rivas, José J., Crim, Philip M., Cumming, Jonathan R., Dayanandan, Selvadurai, de Gasper, André L., Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J., Eyre, Teresa J., Fandohan, Adandé Belarmain, Fayle, Tom M., Feldpausch, Ted R., Ferreira, Leandro V., Finér, Leena, Fischer, Markus, Fletcher, Christine, Frizzera, Lorenzo, Gianelle, Damiano, Glick, Henry B., Harris, David J., Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L., Hillers, Annika, Honorio Coronado, Eurídice N., Hui, Cang, Ibanez, Thomas, Imai, Nobuo, Jagodziński, Andrzej M., Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A., Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J., Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Kucher, Dmitry, Laarmann, Diana, Lang, Mait, Lu, Huicui, Lukina, Natalia V., Maitner, Brian S., Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R., Martin, Emanuel H., Meave, Jorge A., Melo-Cruz, Omar, Mendoza, Casimiro, Mendoza-Polo, Irina, Miscicki, Stanislaw, Merow, Cory, Monteagudo Mendoza, Abel, Moreno, Vanessa S., Mukul, Sharif A., Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J., Nevenic, Radovan V., Ngugi, Michael R., Niklaus, Pascal A., Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L., Pfautsch, Sebastian, Picard, Nicolas, Piedade, Maria Teresa F., Piotto, Daniel, Pitman, Nigel C. A., Poulsen, Axel Dalberg, Poulsen, John R., Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G., Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schelhaas, Mart-Jan, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B., Seben, Vladimír, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Silva-Espejo, Javier E., Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F., Stereńczak, Krzysztof J., Svenning, Jens-Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M., Usoltsev, Vladimir A., Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Van Do, Tran, van Nuland, Michael E., Vasquez, Rodolfo M., Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone, von Gadow, Klaus, Wang, Hua-Feng, Watson, James V., Werner, Gijsbert D. A., Wiser, Susan K., Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderik, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi-Xin, Zo-Bi, Irie C., Gann, George D., and Crowther, Thomas W.

Published
2023

124. The global biogeography of tree leaf form and habit

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Ma, Haozhi, Crowther, Thomas W, Mo, Lidong, Maynard, Daniel S, Renner, Susanne S, van den Hoogen, Johan, Zou, Yibiao, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert-Jan, Reich, Peter B, Niinemets, Ülo, Abegg, Meinrad, Adou Yao, Yves C, Alberti, Giorgio, Almeyda Zambrano, Angelica M, Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F, Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A, Baker, Timothy R, Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G, Bastian, Meredith L, Bastin, Jean-Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H S, Brandl, Susanne, Brearley, Francis Q, Brienen, Roel, Broadbent, Eben N, Bruelheide, Helge, Bussotti, Filippo, Cazzolla Gatti, Roberto, César, Ricardo G, Cesljar, Goran, Chazdon, Robin, Chen, Han Y H, Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D, Coomes, David A, Valverde, Fernando Cornejo, Corral-Rivas, José J, Crim, Philip M, Cumming, Jonathan R, Dayanandan, Selvadurai, de Gasper, André L, Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J, Eyre, Teresa J, Fandohan, Adandé Belarmain, Fayle, Tom M, Feldpausch, Ted R, Ferreira, Leandro V, Finér, Leena, Fischer, Markus, Fletcher, Christine, Fridman, Jonas, Frizzera, Lorenzo, Gamarra, Javier G P, Gianelle, Damiano, Glick, Henry B, Harris, David J, Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L, Herold, Martin, Hillers, Annika, Honorio Coronado, Eurídice N, Hui, Cang, Ibanez, Thomas T, Amaral, Iêda, Imai, Nobuo, Jagodziński, Andrzej M, Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A, Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K, Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J, Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Kucher, Dmitry, Laarmann, Diana, Lang, Mait, Lewis, Simon L, Lu, Huicui, Lukina, Natalia V, Maitner, Brian S, Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R, Martin, Emanuel H, Meave, Jorge A, Melo-Cruz, Omar, Mendoza, Casimiro, Merow, Cory, Monteagudo Mendoza, Abel, Moreno, Vanessa S, Mukul, Sharif A, Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J, Nevenic, Radovan V, Ngugi, Michael R, Niklaus, Pascal A, Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I, Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L, Pfautsch, Sebastian, Phillips, Oliver L, Picard, Nicolas, Piedade, Maria Teresa F, Piotto, Daniel, Pitman, Nigel C A, Mendoza-Polo, Irina, Poulsen, Axel D, Poulsen, John R, Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G, Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schelhaas, Mart-Jan, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B, Seben, Vladimír, Serra-Diaz, Josep M, Sheil, Douglas, Shvidenko, Anatoly Z, Silva-Espejo, Javier E, Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F, Miścicki, Stanislaw, Stereńczak, Krzysztof J, Svenning, Jens-Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, Ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M, Usoltsev, Vladimir A, Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Van Do, Tran, van Nuland, Michael E, Vasquez, Rodolfo M, Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C, Vieira, Simone, von Gadow, Klaus, Wang, Hua-Feng, Watson, James V, Werner, Gijsbert D A, Westerlund, Bertil, Wiser, Susan K, Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderick, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi-Xin, Zo-Bi, Irie C, Zohner, Constantin M, Ecology and Biodiversity, Sub Ecology and Biodiversity, Ma, Haozhi, Crowther, Thomas W, Mo, Lidong, Maynard, Daniel S, Renner, Susanne S, van den Hoogen, Johan, Zou, Yibiao, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert-Jan, Reich, Peter B, Niinemets, Ülo, Abegg, Meinrad, Adou Yao, Yves C, Alberti, Giorgio, Almeyda Zambrano, Angelica M, Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F, Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A, Baker, Timothy R, Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G, Bastian, Meredith L, Bastin, Jean-Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H S, Brandl, Susanne, Brearley, Francis Q, Brienen, Roel, Broadbent, Eben N, Bruelheide, Helge, Bussotti, Filippo, Cazzolla Gatti, Roberto, César, Ricardo G, Cesljar, Goran, Chazdon, Robin, Chen, Han Y H, Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D, Coomes, David A, Valverde, Fernando Cornejo, Corral-Rivas, José J, Crim, Philip M, Cumming, Jonathan R, Dayanandan, Selvadurai, de Gasper, André L, Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J, Eyre, Teresa J, Fandohan, Adandé Belarmain, Fayle, Tom M, Feldpausch, Ted R, Ferreira, Leandro V, Finér, Leena, Fischer, Markus, Fletcher, Christine, Fridman, Jonas, Frizzera, Lorenzo, Gamarra, Javier G P, Gianelle, Damiano, Glick, Henry B, Harris, David J, Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L, Herold, Martin, Hillers, Annika, Honorio Coronado, Eurídice N, Hui, Cang, Ibanez, Thomas T, Amaral, Iêda, Imai, Nobuo, Jagodziński, Andrzej M, Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A, Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K, Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J, Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Kucher, Dmitry, Laarmann, Diana, Lang, Mait, Lewis, Simon L, Lu, Huicui, Lukina, Natalia V, Maitner, Brian S, Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R, Martin, Emanuel H, Meave, Jorge A, Melo-Cruz, Omar, Mendoza, Casimiro, Merow, Cory, Monteagudo Mendoza, Abel, Moreno, Vanessa S, Mukul, Sharif A, Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J, Nevenic, Radovan V, Ngugi, Michael R, Niklaus, Pascal A, Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I, Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L, Pfautsch, Sebastian, Phillips, Oliver L, Picard, Nicolas, Piedade, Maria Teresa F, Piotto, Daniel, Pitman, Nigel C A, Mendoza-Polo, Irina, Poulsen, Axel D, Poulsen, John R, Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G, Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schelhaas, Mart-Jan, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B, Seben, Vladimír, Serra-Diaz, Josep M, Sheil, Douglas, Shvidenko, Anatoly Z, Silva-Espejo, Javier E, Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F, Miścicki, Stanislaw, Stereńczak, Krzysztof J, Svenning, Jens-Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, Ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M, Usoltsev, Vladimir A, Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Van Do, Tran, van Nuland, Michael E, Vasquez, Rodolfo M, Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C, Vieira, Simone, von Gadow, Klaus, Wang, Hua-Feng, Watson, James V, Werner, Gijsbert D A, Westerlund, Bertil, Wiser, Susan K, Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderick, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi-Xin, Zo-Bi, Irie C, and Zohner, Constantin M

Published
2023

125. Native diversity buffers against severity of non-native tree invasions

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Delavaux, Camille S., Crowther, Thomas W., Zohner, Constantin M., Robmann, Niamh M., Lauber, Thomas, van den Hoogen, Johan, Kuebbing, Sara, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert Jan, Reich, Peter B., Abegg, Meinrad, Adou Yao, Yves C., Alberti, Giorgio, Almeyda Zambrano, Angelica M., Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F., Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A., Baker, Timothy R., Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G., Bastian, Meredith L., Bastin, Jean Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H.S., Brandl, Susanne, Brienen, Roel, Broadbent, Eben N., Bruelheide, Helge, Bussotti, Filippo, Gatti, Roberto Cazzolla, César, Ricardo G., Cesljar, Goran, Chazdon, Robin, Chen, Han Y.H., Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D., Coomes, David A., Cornejo Valverde, Fernando, Corral-Rivas, José J., Crim, Philip M., Cumming, Jonathan R., Dayanandan, Selvadurai, de Gasper, André L., Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J., Eyre, Teresa J., Fandohan, Adandé Belarmain, Fayle, Tom M., Feldpausch, Ted R., Ferreira, Leandro V., Fischer, Markus, Fletcher, Christine, Frizzera, Lorenzo, Gamarra, Javier G.P., Gianelle, Damiano, Glick, Henry B., Harris, David J., Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L., Herold, Martin, Hillers, Annika, Honorio Coronado, Eurídice N., Hui, Cang, Ibanez, Thomas T., Amaral, Iêda, Imai, Nobuo, Jagodziński, Andrzej M., Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A., Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J., Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Laarmann, Diana, Lang, Mait, Lewis, Simon L., Lu, Huicui, Lukina, Natalia V., Maitner, Brian S., Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R., Martin, Emanuel H., Martynenko, Olga, Meave, Jorge A., Melo-Cruz, Omar, Mendoza, Casimiro, Merow, Cory, Mendoza, Abel Monteagudo, Moreno, Vanessa S., Mukul, Sharif A., Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J., Nevenic, Radovan V., Ngugi, Michael R., Niklaus, Pascal A., Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L., Pfautsch, Sebastian, Phillips, Oliver L., Picard, Nicolas, Piedade, Maria Teresa T.F., Piotto, Daniel, Pitman, Nigel C.A., Polo, Irina, Poorter, Lourens, Poulsen, Axel D., Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G., Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B., Seben, Vladimír, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Silva-Espejo, Javier E., Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F., Miscicki, Stanislaw, Stereńczak, Krzysztof J., Svenning, Jens Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M., Usoltsev, Vladimir A., Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Do, Tran Van, van Nuland, Michael E., Vasquez, Rodolfo M., Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone, von Gadow, Klaus, Wang, Hua Feng, Watson, James V., Werner, Gijsbert D.A., Wiser, Susan K., Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderik, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi Xin, Zo-Bi, Irie C., Maynard, Daniel S., Ecology and Biodiversity, Sub Ecology and Biodiversity, Delavaux, Camille S., Crowther, Thomas W., Zohner, Constantin M., Robmann, Niamh M., Lauber, Thomas, van den Hoogen, Johan, Kuebbing, Sara, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert Jan, Reich, Peter B., Abegg, Meinrad, Adou Yao, Yves C., Alberti, Giorgio, Almeyda Zambrano, Angelica M., Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F., Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A., Baker, Timothy R., Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G., Bastian, Meredith L., Bastin, Jean Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H.S., Brandl, Susanne, Brienen, Roel, Broadbent, Eben N., Bruelheide, Helge, Bussotti, Filippo, Gatti, Roberto Cazzolla, César, Ricardo G., Cesljar, Goran, Chazdon, Robin, Chen, Han Y.H., Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D., Coomes, David A., Cornejo Valverde, Fernando, Corral-Rivas, José J., Crim, Philip M., Cumming, Jonathan R., Dayanandan, Selvadurai, de Gasper, André L., Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J., Eyre, Teresa J., Fandohan, Adandé Belarmain, Fayle, Tom M., Feldpausch, Ted R., Ferreira, Leandro V., Fischer, Markus, Fletcher, Christine, Frizzera, Lorenzo, Gamarra, Javier G.P., Gianelle, Damiano, Glick, Henry B., Harris, David J., Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L., Herold, Martin, Hillers, Annika, Honorio Coronado, Eurídice N., Hui, Cang, Ibanez, Thomas T., Amaral, Iêda, Imai, Nobuo, Jagodziński, Andrzej M., Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A., Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J., Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Laarmann, Diana, Lang, Mait, Lewis, Simon L., Lu, Huicui, Lukina, Natalia V., Maitner, Brian S., Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R., Martin, Emanuel H., Martynenko, Olga, Meave, Jorge A., Melo-Cruz, Omar, Mendoza, Casimiro, Merow, Cory, Mendoza, Abel Monteagudo, Moreno, Vanessa S., Mukul, Sharif A., Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J., Nevenic, Radovan V., Ngugi, Michael R., Niklaus, Pascal A., Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L., Pfautsch, Sebastian, Phillips, Oliver L., Picard, Nicolas, Piedade, Maria Teresa T.F., Piotto, Daniel, Pitman, Nigel C.A., Polo, Irina, Poorter, Lourens, Poulsen, Axel D., Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G., Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B., Seben, Vladimír, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Silva-Espejo, Javier E., Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F., Miscicki, Stanislaw, Stereńczak, Krzysztof J., Svenning, Jens Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M., Usoltsev, Vladimir A., Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Do, Tran Van, van Nuland, Michael E., Vasquez, Rodolfo M., Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone, von Gadow, Klaus, Wang, Hua Feng, Watson, James V., Werner, Gijsbert D.A., Wiser, Susan K., Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderik, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi Xin, Zo-Bi, Irie C., and Maynard, Daniel S.

Published
2023

126. Rooting depth and xylem vulnerability are independent woody plant traits jointly selected by aridity, seasonality, and water table depth

Author

Laughlin, Daniel C., Siefert, Andrew, Fleri, Jesse R., Tumber-Dávila, Shersingh Joseph, Hammond, William M., Sabatini, Francesco Maria, Damasceno, Gabriella, Aubin, Isabelle, Field, Richard, Hatim, Mohamed Z., Jansen, Steven, Lenoir, Jonathan, Lens, Frederic, McCarthy, James K., Niinemets, Ülo, Phillips, Oliver L., Attorre, Fabio, Bergeron, Yves, Bruun, Hans Henrik, Byun, Chaeho, Ćušterevska, Renata, Dengler, Jürgen, De Sanctis, Michele, Dolezal, Jiri, Jiménez-Alfaro, Borja, Hérault, Bruno, Homeier, Jürgen, Kattge, Jens, Meir, Patrick, Mencuccini, Maurizio, Noroozi, Jalil, Nowak, Arkadiusz, Peñuelas, Josep, Schmidt, Marco, Škvorc, Željko, Sultana, Fahmida, Ugarte, Rosina Magaña, Bruelheide, Helge, Laughlin, Daniel C., Siefert, Andrew, Fleri, Jesse R., Tumber-Dávila, Shersingh Joseph, Hammond, William M., Sabatini, Francesco Maria, Damasceno, Gabriella, Aubin, Isabelle, Field, Richard, Hatim, Mohamed Z., Jansen, Steven, Lenoir, Jonathan, Lens, Frederic, McCarthy, James K., Niinemets, Ülo, Phillips, Oliver L., Attorre, Fabio, Bergeron, Yves, Bruun, Hans Henrik, Byun, Chaeho, Ćušterevska, Renata, Dengler, Jürgen, De Sanctis, Michele, Dolezal, Jiri, Jiménez-Alfaro, Borja, Hérault, Bruno, Homeier, Jürgen, Kattge, Jens, Meir, Patrick, Mencuccini, Maurizio, Noroozi, Jalil, Nowak, Arkadiusz, Peñuelas, Josep, Schmidt, Marco, Škvorc, Željko, Sultana, Fahmida, Ugarte, Rosina Magaña, and Bruelheide, Helge

Abstract

Evolutionary radiations of woody taxa within arid environments were made possible by multiple trait innovations including deep roots and embolism-resistant xylem, but little is known about how these traits have coevolved across the phylogeny of woody plants or how they jointly influence the distribution of species. We synthesized global trait and vegetation plot datasets to examine how rooting depth and xylem vulnerability across 188 woody plant species interact with aridity, precipitation seasonality, and water table depth to influence species occurrence probabilities across all biomes. Xylem resistance to embolism and rooting depth are independent woody plant traits that do not exhibit an interspecific trade-off. Resistant xylem and deep roots increase occurrence probabilities in arid, seasonal climates over deep water tables. Resistant xylem and shallow roots increase occurrence probabilities in arid, nonseasonal climates over deep water tables. Vulnerable xylem and deep roots increase occurrence probabilities in arid, nonseasonal climates over shallow water tables. Lastly, vulnerable xylem and shallow roots increase occurrence probabilities in humid climates. Each combination of trait values optimizes occurrence probabilities in unique environmental conditions. Responses of deeply rooted vegetation may be buffered if evaporative demand changes faster than water table depth under climate change.

Published
2023

127. Traits of dominant plant species drive normalized difference vegetation index in grasslands globally

Author

German Research Foundation, European Commission, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), European Research Council, Ministry of Education, Youth and Sports (Czech Republic), Czech Science Foundation, Academy of Sciences of the Czech Republic, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat de Catalunya, National Science Foundation (US), Engel, Thore, Bruelheide, Helge, Hoss, Daniela, Sabatin, Francesco M., Altman, Jan, Arfin-Khan, Mohammed A. S., Bergmeier, Erwin, Černý, Tomáš, Chytrý, Milan, Dainese, Matteo, Dengler, Jürgen, Doležal, Jiří, Field, Richard, Fischer, Felícia M., Huygens, Dries, Jandt, Ute, Jansen, Florian, Jentsch, Anke, Karger, Dirk N., Kattge, Jens, Lenoir, Jonathan, Lens, Frederic, Loos, Jaqueline, Niinemets, Ülo, Overbeck, Gerhard E., Ozinga, Wim A., Peñuelas, Josep, Peyre, Gwendolyn, Phillips, Oliver, Reich, Peter B., Römermann, Christine, Sandel, Brody, Schmidt, Marco, Schrodt, Franziska, Velez-Martin, Eduardo, Violle, Cyrille, Pillar, Valério D., German Research Foundation, European Commission, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), European Research Council, Ministry of Education, Youth and Sports (Czech Republic), Czech Science Foundation, Academy of Sciences of the Czech Republic, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat de Catalunya, National Science Foundation (US), Engel, Thore, Bruelheide, Helge, Hoss, Daniela, Sabatin, Francesco M., Altman, Jan, Arfin-Khan, Mohammed A. S., Bergmeier, Erwin, Černý, Tomáš, Chytrý, Milan, Dainese, Matteo, Dengler, Jürgen, Doležal, Jiří, Field, Richard, Fischer, Felícia M., Huygens, Dries, Jandt, Ute, Jansen, Florian, Jentsch, Anke, Karger, Dirk N., Kattge, Jens, Lenoir, Jonathan, Lens, Frederic, Loos, Jaqueline, Niinemets, Ülo, Overbeck, Gerhard E., Ozinga, Wim A., Peñuelas, Josep, Peyre, Gwendolyn, Phillips, Oliver, Reich, Peter B., Römermann, Christine, Sandel, Brody, Schmidt, Marco, Schrodt, Franziska, Velez-Martin, Eduardo, Violle, Cyrille, and Pillar, Valério D.

Abstract

[Aim]: Theoretical, experimental and observational studies have shown that biodiversity–ecosystem functioning (BEF) relationships are influenced by functional community structure through two mutually non-exclusive mechanisms: (1) the dominance effect (which relates to the traits of the dominant species); and (2) the niche partitioning effect [which relates to functional diversity (FD)]. Although both mechanisms have been studied in plant communities and experiments at small spatial extents, it remains unclear whether evidence from small-extent case studies translates into a generalizable macroecological pattern. Here, we evaluate dominance and niche partitioning effects simultaneously in grassland systems world-wide. [Location]: Two thousand nine hundred and forty-one grassland plots globally. [Time period]: 2000–2014. Major taxa studied. Vascular plants. [Methods]: We obtained plot-based data on functional community structure from the global vegetation plot database “sPlot”, which combines species composition with plant trait data from the “TRY” database. We used data on the community-weighted mean (CWM) and FD for 18 ecologically relevant plant traits. As an indicator of primary productivity, we extracted the satellite-derived normalized difference vegetation index (NDVI) from MODIS. Using generalized additive models and deviation partitioning, we estimated the contributions of trait CWM and FD to the variation in annual maximum NDVI, while controlling for climatic variables and spatial structure. [Results]: Grassland communities dominated by relatively tall species with acquisitive traits had higher NDVI values, suggesting the prevalence of dominance effects for BEF relationships. We found no support for niche partitioning for the functional traits analysed, because NDVI remained unaffected by FD. Most of the predictive power of traits was shared by climatic predictors and spatial coordinates. This highlights the importance of community assembly processes for BEF

Published
2023

128. Native diversity buffers against severity of non-native tree invasions:[Inkl. Correction]

Author

Delavaux, Camille S., Crowther, Thomas W., Zohner, Constantin M., Robmann, Niamh M., Lauber, Thomas, van den Hoogen, Johan, Kuebbing, Sara, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert Jan, Reich, Peter B., Abegg, Meinrad, Adou Yao, Yves C., Alberti, Giorgio, Almeyda Zambrano, Angelica M., Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F., Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A., Baker, Timothy R., Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G., Bastian, Meredith L., Bastin, Jean Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H.S., Brandl, Susanne, Brienen, Roel, Broadbent, Eben N., Bruelheide, Helge, Bussotti, Filippo, Gatti, Roberto Cazzolla, César, Ricardo G., Cesljar, Goran, Chazdon, Robin, Chen, Han Y.H., Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D., Coomes, David A., Cornejo Valverde, Fernando, Corral-Rivas, José J., Crim, Philip M., Cumming, Jonathan R., Dayanandan, Selvadurai, de Gasper, André L., Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J., Eyre, Teresa J., Fandohan, Adandé Belarmain, Fayle, Tom M., Feldpausch, Ted R., Ferreira, Leandro V., Fischer, Markus, Fletcher, Christine, Frizzera, Lorenzo, Gamarra, Javier G.P., Gianelle, Damiano, Glick, Henry B., Harris, David J., Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L., Herold, Martin, Hillers, Annika, Honorio Coronado, Eurídice N., Hui, Cang, Ibanez, Thomas T., Amaral, Iêda, Imai, Nobuo, Jagodziński, Andrzej M., Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A., Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J., Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Laarmann, Diana, Lang, Mait, Lewis, Simon L., Lu, Huicui, Lukina, Natalia V., Maitner, Brian S., Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R., Martin, Emanuel H., Martynenko, Olga, Meave, Jorge A., Melo-Cruz, Omar, Mendoza, Casimiro, Merow, Cory, Mendoza, Abel Monteagudo, Moreno, Vanessa S., Mukul, Sharif A., Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J., Nevenic, Radovan V., Ngugi, Michael R., Niklaus, Pascal A., Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L., Pfautsch, Sebastian, Phillips, Oliver L., Picard, Nicolas, Piedade, Maria Teresa T.F., Piotto, Daniel, Pitman, Nigel C.A., Polo, Irina, Poorter, Lourens, Poulsen, Axel D., Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G., Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B., Seben, Vladimír, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Silva-Espejo, Javier E., Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F., Stanislaw, Miscicki, Stereńczak, Krzysztof J., Svenning, Jens Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M., Usoltsev, Vladimir A., Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Do, Tran Van, van Nuland, Michael E., Vasquez, Rodolfo M., Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone, von Gadow, Klaus, Wang, Hua Feng, Watson, James V., Werner, Gijsbert D.A., Wiser, Susan K., Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderik, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi Xin, Zo-Bi, Irie C., Maynard, Daniel S., Delavaux, Camille S., Crowther, Thomas W., Zohner, Constantin M., Robmann, Niamh M., Lauber, Thomas, van den Hoogen, Johan, Kuebbing, Sara, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert Jan, Reich, Peter B., Abegg, Meinrad, Adou Yao, Yves C., Alberti, Giorgio, Almeyda Zambrano, Angelica M., Alvarado, Braulio Vilchez, Alvarez-Dávila, Esteban, Alvarez-Loayza, Patricia, Alves, Luciana F., Ammer, Christian, Antón-Fernández, Clara, Araujo-Murakami, Alejandro, Arroyo, Luzmila, Avitabile, Valerio, Aymard, Gerardo A., Baker, Timothy R., Bałazy, Radomir, Banki, Olaf, Barroso, Jorcely G., Bastian, Meredith L., Bastin, Jean Francois, Birigazzi, Luca, Birnbaum, Philippe, Bitariho, Robert, Boeckx, Pascal, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H.S., Brandl, Susanne, Brienen, Roel, Broadbent, Eben N., Bruelheide, Helge, Bussotti, Filippo, Gatti, Roberto Cazzolla, César, Ricardo G., Cesljar, Goran, Chazdon, Robin, Chen, Han Y.H., Chisholm, Chelsea, Cho, Hyunkook, Cienciala, Emil, Clark, Connie, Clark, David, Colletta, Gabriel D., Coomes, David A., Cornejo Valverde, Fernando, Corral-Rivas, José J., Crim, Philip M., Cumming, Jonathan R., Dayanandan, Selvadurai, de Gasper, André L., Decuyper, Mathieu, Derroire, Géraldine, DeVries, Ben, Djordjevic, Ilija, Dolezal, Jiri, Dourdain, Aurélie, Engone Obiang, Nestor Laurier, Enquist, Brian J., Eyre, Teresa J., Fandohan, Adandé Belarmain, Fayle, Tom M., Feldpausch, Ted R., Ferreira, Leandro V., Fischer, Markus, Fletcher, Christine, Frizzera, Lorenzo, Gamarra, Javier G.P., Gianelle, Damiano, Glick, Henry B., Harris, David J., Hector, Andrew, Hemp, Andreas, Hengeveld, Geerten, Hérault, Bruno, Herbohn, John L., Herold, Martin, Hillers, Annika, Honorio Coronado, Eurídice N., Hui, Cang, Ibanez, Thomas T., Amaral, Iêda, Imai, Nobuo, Jagodziński, Andrzej M., Jaroszewicz, Bogdan, Johannsen, Vivian Kvist, Joly, Carlos A., Jucker, Tommaso, Jung, Ilbin, Karminov, Viktor, Kartawinata, Kuswata, Kearsley, Elizabeth, Kenfack, David, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Keppel, Gunnar, Khan, Mohammed Latif, Killeen, Timothy J., Kim, Hyun Seok, Kitayama, Kanehiro, Köhl, Michael, Korjus, Henn, Kraxner, Florian, Laarmann, Diana, Lang, Mait, Lewis, Simon L., Lu, Huicui, Lukina, Natalia V., Maitner, Brian S., Malhi, Yadvinder, Marcon, Eric, Marimon, Beatriz Schwantes, Marimon-Junior, Ben Hur, Marshall, Andrew R., Martin, Emanuel H., Martynenko, Olga, Meave, Jorge A., Melo-Cruz, Omar, Mendoza, Casimiro, Merow, Cory, Mendoza, Abel Monteagudo, Moreno, Vanessa S., Mukul, Sharif A., Mundhenk, Philip, Nava-Miranda, María Guadalupe, Neill, David, Neldner, Victor J., Nevenic, Radovan V., Ngugi, Michael R., Niklaus, Pascal A., Oleksyn, Jacek, Ontikov, Petr, Ortiz-Malavasi, Edgar, Pan, Yude, Paquette, Alain, Parada-Gutierrez, Alexander, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Peri, Pablo L., Pfautsch, Sebastian, Phillips, Oliver L., Picard, Nicolas, Piedade, Maria Teresa T.F., Piotto, Daniel, Pitman, Nigel C.A., Polo, Irina, Poorter, Lourens, Poulsen, Axel D., Pretzsch, Hans, Ramirez Arevalo, Freddy, Restrepo-Correa, Zorayda, Rodeghiero, Mirco, Rolim, Samir G., Roopsind, Anand, Rovero, Francesco, Rutishauser, Ervan, Saikia, Purabi, Salas-Eljatib, Christian, Saner, Philippe, Schall, Peter, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Searle, Eric B., Seben, Vladimír, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Silva-Espejo, Javier E., Silveira, Marcos, Singh, James, Sist, Plinio, Slik, Ferry, Sonké, Bonaventure, Souza, Alexandre F., Stanislaw, Miscicki, Stereńczak, Krzysztof J., Svenning, Jens Christian, Svoboda, Miroslav, Swanepoel, Ben, Targhetta, Natalia, Tchebakova, Nadja, ter Steege, Hans, Thomas, Raquel, Tikhonova, Elena, Umunay, Peter M., Usoltsev, Vladimir A., Valencia, Renato, Valladares, Fernando, van der Plas, Fons, Do, Tran Van, van Nuland, Michael E., Vasquez, Rodolfo M., Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone, von Gadow, Klaus, Wang, Hua Feng, Watson, James V., Werner, Gijsbert D.A., Wiser, Susan K., Wittmann, Florian, Woell, Hannsjoerg, Wortel, Verginia, Zagt, Roderik, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhou, Mo, Zhu, Zhi Xin, Zo-Bi, Irie C., and Maynard, Daniel S.

Abstract

Determining the drivers of non-native plant invasions is critical for managing native ecosystems and limiting the spread of invasive species1,2. Tree invasions in particular have been relatively overlooked, even though they have the potential to transform ecosystems and economies3,4. Here, leveraging global tree databases5–7, we explore how the phylogenetic and functional diversity of native tree communities, human pressure and the environment influence the establishment of non-native tree species and the subsequent invasion severity. We find that anthropogenic factors are key to predicting whether a location is invaded, but that invasion severity is underpinned by native diversity, with higher diversity predicting lower invasion severity. Temperature and precipitation emerge as strong predictors of invasion strategy, with non-native species invading successfully when they are similar to the native community in cold or dry extremes. Yet, despite the influence of these ecological forces in determining invasion strategy, we find evidence that these patterns can be obscured by human activity, with lower ecological signal in areas with higher proximity to shipping ports. Our global perspective of non-native tree invasion highlights that human drivers influence non-native tree presence, and that native phylogenetic and functional diversity have a critical role in the establishment and spread of subsequent invasions.

Published
2023

129. Traits of dominant plant species drive normalized difference vegetation index in grasslands globally

Author

Engel, Thore, Bruelheide, Helge, Hoss, Daniela, Sabatini, Francesco M., Altman, Jan, Arfin‐Khan, Mohammed A. S., Bergmeier, Erwin, Černý, Tomáš, Chytrý, Milan, Dainese, Matteo, Dengler, Jürgen, Dolezal, Jiri, Field, Richard, Fischer, Felícia M., Huygens, Dries, Jandt, Ute, Jansen, Florian, Jentsch, Anke, Karger, Dirk N., Kattge, Jens, Lenoir, Jonathan, Lens, Frederic, Loos, Jaqueline, Niinemets, Ülo, Overbeck, Gerhard E., Ozinga, Wim A., Penuelas, Josep, Peyre, Gwendolyn, Phillips, Oliver, Reich, Peter B., Römermann, Christine, Sandel, Brody, Schmidt, Marco, Schrodt, Franziska, Velez‐Martin, Eduardo, Violle, Cyrille, Pillar, Valério, Engel, Thore, Bruelheide, Helge, Hoss, Daniela, Sabatini, Francesco M., Altman, Jan, Arfin‐Khan, Mohammed A. S., Bergmeier, Erwin, Černý, Tomáš, Chytrý, Milan, Dainese, Matteo, Dengler, Jürgen, Dolezal, Jiri, Field, Richard, Fischer, Felícia M., Huygens, Dries, Jandt, Ute, Jansen, Florian, Jentsch, Anke, Karger, Dirk N., Kattge, Jens, Lenoir, Jonathan, Lens, Frederic, Loos, Jaqueline, Niinemets, Ülo, Overbeck, Gerhard E., Ozinga, Wim A., Penuelas, Josep, Peyre, Gwendolyn, Phillips, Oliver, Reich, Peter B., Römermann, Christine, Sandel, Brody, Schmidt, Marco, Schrodt, Franziska, Velez‐Martin, Eduardo, Violle, Cyrille, and Pillar, Valério

Abstract

Aim: Theoretical, experimental and observational studies have shown that biodiversity–ecosystem functioning (BEF) relationships are influenced by functional community structure through two mutually non-exclusive mechanisms: (1) the dominance effect (which relates to the traits of the dominant species); and (2) the niche partitioning effect [which relates to functional diversity (FD)]. Although both mechanisms have been studied in plant communities and experiments at small spatial extents, it remains unclear whether evidence from small-extent case studies translates into a generalizable macroecological pattern. Here, we evaluate dominance and niche partitioning effects simultaneously in grassland systems world-wide. Location: Two thousand nine hundred and forty-one grassland plots globally. Time period: 2000–2014. Major taxa studied: Vascular plants. Methods: We obtained plot-based data on functional community structure from the global vegetation plot database “sPlot”, which combines species composition with plant trait data from the “TRY” database. We used data on the community-weighted mean (CWM) and FD for 18 ecologically relevant plant traits. As an indicator of primary productivity, we extracted the satellite-derived normalized difference vegetation index (NDVI) from MODIS. Using generalized additive models and deviation partitioning, we estimated the contributions of trait CWM and FD to the variation in annual maximum NDVI, while controlling for climatic variables and spatial structure. Results: Grassland communities dominated by relatively tall species with acquisitive traits had higher NDVI values, suggesting the prevalence of dominance effects for BEF relationships. We found no support for niche partitioning for the functional traits analysed, because NDVI remained unaffected by FD. Most of the predictive power of traits was shared by climatic predictors and spatial coordinates. This highlights the importance of community assembly processes for BEF relations

Published
2023

130. Climate-trait relationships exhibit strong habitat specificity in plant communities across Europe

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Kambach, Stephan, Sabatini, Francesco Maria, Attorre, Fabio, Biurrun Galarraga, Miren Idoia, Boenisch, Gerhard, Bonari, Gianmaria, Čarni, Andraž, Carranza, María Laura, Chiarucci, Alessandro, Chytrý, Milan, Dengler, Jürgen, Garbolino, Emmanuel, Golub, Valentin, Güler, Behlül, Jandt, Ute, Jansen, Jan, Jašková, Anni, Jiménez Alfaro, Borja, Karger, Dirk Nikolaus, Kattge, Jens, Knollová, Ilona, Midolo, Gabriele, Moeslund, Jesper Erenskjold, Pielech, Remigiusz, Rašomavičius, Valerijus, Rūsiņa, Solvita, Šibík, Jozef, Stančić, Zvjezdana, Stanisci, Angela, Svenning, Jens-Christian, Yamalov, Sergey, Zimmermann, Niklaus E., Bruelheide, Helge, Biología vegetal y ecología, Landaren biologia eta ekologia, Kambach, Stephan, Sabatini, Francesco Maria, Attorre, Fabio, Biurrun Galarraga, Miren Idoia, Boenisch, Gerhard, Bonari, Gianmaria, Čarni, Andraž, Carranza, María Laura, Chiarucci, Alessandro, Chytrý, Milan, Dengler, Jürgen, Garbolino, Emmanuel, Golub, Valentin, Güler, Behlül, Jandt, Ute, Jansen, Jan, Jašková, Anni, Jiménez Alfaro, Borja, Karger, Dirk Nikolaus, Kattge, Jens, Knollová, Ilona, Midolo, Gabriele, Moeslund, Jesper Erenskjold, Pielech, Remigiusz, Rašomavičius, Valerijus, Rūsiņa, Solvita, Šibík, Jozef, Stančić, Zvjezdana, Stanisci, Angela, Svenning, Jens-Christian, Yamalov, Sergey, Zimmermann, Niklaus E., and Bruelheide, Helge

Abstract

Ecological theory predicts close relationships between macroclimate and functional traits. Yet, global climatic gradients correlate only weakly with the trait composition of local plant communities, suggesting that important factors have been ignored. Here, we investigate the consistency of climate-trait relationships for plant communities in European habitats. Assuming that local factors are better accounted for in more narrowly defined habitats, we assigned>300,000 vegetation plots to hierarchically classified habitats and modelled the effects of climate on the community-weighted means of four key functional traits using generalized additive models. We found that the predictive power of climate increased from broadly to narrowly defined habitats for specific leaf area and root length, but not for plant height and seed mass. Although macroclimate generally predicted the distribution of all traits, its effects varied, with habitat-specificity increasing toward more narrowly defined habitats. We conclude that macroclimate is an important determinant of terrestrial plant communities, but future predictions of climatic effects must consider how habitats are defined.

Published
2023

131. Ellenberg-type indicator values for European vascular plant species

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Tichý, Lubomír, Axmanova, Irena, Dengler, Jürgen, Guarino, Riccardo, Jansen, Florian, Midolo, Gabriele, Nobis, Michael P. P., Van Meerbeek, Koenraad, Acic, Svetlana, Attorre, Fabio, Bergmeier, Erwin, Biurrun Galarraga, Miren Idoia, Bonari, Gianmaria, Bruelheide, Helge, Campos Prieto, Juan Antonio, Čarni, Andraž, Chiarucci, Alessandro, Ćuk, Mirjana, Ćušterevska, Renata, Didukh, Yakiv, Dítě, Daniel, Dítě, Zuzana, Dziuba, Tetiana, Fanelli, Giuliano, Fernández Pascual, Eduardo, Garbolino, Emmanuel, Gavilán, Rosario G. G., Gégout, Jean-Claude, Graf, Ulrich, Güler, Behlül, Hájek, Michal, Hennekens, Stephan M., Jandt, Ute, Jašková, Anni, Jiménez Alfaro, Borja, Julve, Philippe, Kambach, Stephan, Karger, Dirk Nikolaus, Karrer, Gerhard, Kavgacı, Ali, Knollová, Ilona, Kuzemko, Anna, Küzmič, Filip, Landucci, Flavia, Lengyel, Attila, Lenoir, Jonathan, Marcenò, Corrado, Moeslund, Jesper Erenskjold, Novák, Pavel, Pérez Haase, Aaron, Peterka, Tomáš, Pielech, Remigiusz, Pignatti, Alessandro, Rašomavičius, Valerijus, Rūsiņa, Solvita, Saatkamp, Arne, Šilc, Urban, Škvorc, Željko, Theurillat, Jean-Paul, Wohlgemuth, Thomas, Chytrý, Milan, Biología vegetal y ecología, Landaren biologia eta ekologia, Tichý, Lubomír, Axmanova, Irena, Dengler, Jürgen, Guarino, Riccardo, Jansen, Florian, Midolo, Gabriele, Nobis, Michael P. P., Van Meerbeek, Koenraad, Acic, Svetlana, Attorre, Fabio, Bergmeier, Erwin, Biurrun Galarraga, Miren Idoia, Bonari, Gianmaria, Bruelheide, Helge, Campos Prieto, Juan Antonio, Čarni, Andraž, Chiarucci, Alessandro, Ćuk, Mirjana, Ćušterevska, Renata, Didukh, Yakiv, Dítě, Daniel, Dítě, Zuzana, Dziuba, Tetiana, Fanelli, Giuliano, Fernández Pascual, Eduardo, Garbolino, Emmanuel, Gavilán, Rosario G. G., Gégout, Jean-Claude, Graf, Ulrich, Güler, Behlül, Hájek, Michal, Hennekens, Stephan M., Jandt, Ute, Jašková, Anni, Jiménez Alfaro, Borja, Julve, Philippe, Kambach, Stephan, Karger, Dirk Nikolaus, Karrer, Gerhard, Kavgacı, Ali, Knollová, Ilona, Kuzemko, Anna, Küzmič, Filip, Landucci, Flavia, Lengyel, Attila, Lenoir, Jonathan, Marcenò, Corrado, Moeslund, Jesper Erenskjold, Novák, Pavel, Pérez Haase, Aaron, Peterka, Tomáš, Pielech, Remigiusz, Pignatti, Alessandro, Rašomavičius, Valerijus, Rūsiņa, Solvita, Saatkamp, Arne, Šilc, Urban, Škvorc, Željko, Theurillat, Jean-Paul, Wohlgemuth, Thomas, and Chytrý, Milan

Abstract

Aims: Ellenberg-type indicator values are expert-based rankings of plant species according to their ecological optima on main environmental gradients. Here we extend the indicator-value system proposed by Heinz Ellenberg and co-authors for Central Europe by incorporating other systems of Ellenberg-type indicator values (i.e., those using scales compatible with Ellenberg values) developed for other European regions. Our aim is to create a harmonized data set of Ellenberg-type indicator values applicable at the European scale.Methods: We collected European data sets of indicator values for vascular plants and selected 13 data sets that used the nine-, ten- or twelve-degree scales defined by Ellenberg for light, temperature, moisture, reaction, nutrients and salinity. We compared these values with the original Ellenberg values and used those that showed consistent trends in regression slope and coefficient of determination. We calculated the average value for each combination of species and indicator values from these data sets. Based on species' co-occurrences in European vegetation plots, we also calculated new values for species that were not assigned an indicator value.Results: We provide a new data set of Ellenberg-type indicator values for 8908 European vascular plant species (8168 for light, 7400 for temperature, 8030 for moisture, 7282 for reaction, 7193 for nutrients, and 7507 for salinity), of which 398 species have been newly assigned to at least one indicator value.Conclusions: The newly introduced indicator values are compatible with the original Ellenberg values. They can be used for large-scale studies of the European flora and vegetation or for gap-filling in regional data sets. The European indicator values and the original and taxonomically harmonized regional data sets of Ellenberg-type indicator values are available in the Supporting Information and the Zenodo repository.

Published
2023

132. ReSurveyGermany : vegetation-plot time-series over the past hundred years in Germany

Author

Jandt, Ute, Bruelheide, Helge, Berg, Christian, Bernhardt-Römermann, Markus, Blüml, Volker, Bode, Frank, Dengler, Jürgen, Diekmann, Martin, Dierschke, Hartmut, Doerfler, Inken, Döring, Ute, Dullinger, Stefan, Härdtle, Werner, Haider, Sylvia, Heinken, Thilo, Horchler, Peter, Jansen, Florian, Kudernatsch, Thomas, Kuhn, Gisbert, Lindner, Martin, Matesanz, Silvia, Metze, Katrin, Meyer, Stefan, Müller, Frank, Müller, Norbert, Naaf, Tobias, Peppler-Lisbach, Cord, Poschlod, Peter, Roscher, Christiane, Rosenthal, Gert, Rumpf, Sabine B., Schmidt, Wolfgang, Schrautzer, Joachim, Schwabe, Angelika, Schwartze, Peter, Sperle, Thomas, Stanik, Nils, Stroh, Hans-Georg, Storm, Christian, Voigt, Winfried, von Heßberg, Andreas, von Oheimb, Goddert, Wagner, Eva-Rosa, Wegener, Uwe, Wesche, Karsten, Wittig, Burghard, Wulf, Monika, Jandt, Ute, Bruelheide, Helge, Berg, Christian, Bernhardt-Römermann, Markus, Blüml, Volker, Bode, Frank, Dengler, Jürgen, Diekmann, Martin, Dierschke, Hartmut, Doerfler, Inken, Döring, Ute, Dullinger, Stefan, Härdtle, Werner, Haider, Sylvia, Heinken, Thilo, Horchler, Peter, Jansen, Florian, Kudernatsch, Thomas, Kuhn, Gisbert, Lindner, Martin, Matesanz, Silvia, Metze, Katrin, Meyer, Stefan, Müller, Frank, Müller, Norbert, Naaf, Tobias, Peppler-Lisbach, Cord, Poschlod, Peter, Roscher, Christiane, Rosenthal, Gert, Rumpf, Sabine B., Schmidt, Wolfgang, Schrautzer, Joachim, Schwabe, Angelika, Schwartze, Peter, Sperle, Thomas, Stanik, Nils, Stroh, Hans-Georg, Storm, Christian, Voigt, Winfried, von Heßberg, Andreas, von Oheimb, Goddert, Wagner, Eva-Rosa, Wegener, Uwe, Wesche, Karsten, Wittig, Burghard, and Wulf, Monika

Abstract

Vegetation-plot resurvey data are a main source of information on terrestrial biodiversity change, with records reaching back more than one century. Although more and more data from re-sampled plots have been published, there is not yet a comprehensive open-access dataset available for analysis. Here, we compiled and harmonised vegetation-plot resurvey data from Germany covering almost 100 years. We show the distribution of the plot data in space, time and across habitat types of the European Nature Information System (EUNIS). In addition, we include metadata on geographic location, plot size and vegetation structure. The data allow temporal biodiversity change to be assessed at the community scale, reaching back further into the past than most comparable data yet available. They also enable tracking changes in the incidence and distribution of individual species across Germany. In summary, the data come at a level of detail that holds promise for broadening our understanding of the mechanisms and drivers behind plant diversity change over the last century.

Published
2023

133. Global patterns of vascular plant alpha diversity

Author

Sabatini, Francesco Maria, Jiménez-Alfaro, Borja, Jandt, Ute, Chytrý, Milan, Field, Richard, Kessler, Michael, Lenoir, Jonathan, Schrodt, Franziska, Wiser, Susan K., Arfin Khan, Mohammed A. S., Attorre, Fabio, Cayuela, Luis, De Sanctis, Michele, Dengler, Jürgen, Haider, Sylvia, Hatim, Mohamed Z., Indreica, Adrian, Jansen, Florian, Pauchard, Aníbal, Peet, Robert K., Petřík, Petr, Pillar, Valério D., Sandel, Brody, Schmidt, Marco, Tang, Zhiyao, van Bodegom, Peter, Vassilev, Kiril, Violle, Cyrille, Alvarez-Davila, Esteban, Davidar, Priya, Dolezal, Jiri, Hérault, Bruno, Galán-de-Mera, Antonio, Jiménez, Jorge, Kambach, Stephan, Kepfer-Rojas, Sebastian, Kreft, Holger, Lezama, Felipe, Linares-Palomino, Reynaldo, Monteagudo Mendoza, Abel, N'Dja, Justin K., Phillips, Oliver L., Rivas-Torres, Gonzalo, Sklenář, Petr, Speziale, Karina, Strohbach, Ben J., Vásquez Martínez, Rodolfo, Wang, Hua-Feng, Wesche, Karsten, Bruelheide, Helge, Sabatini, Francesco Maria, Jiménez-Alfaro, Borja, Jandt, Ute, Chytrý, Milan, Field, Richard, Kessler, Michael, Lenoir, Jonathan, Schrodt, Franziska, Wiser, Susan K., Arfin Khan, Mohammed A. S., Attorre, Fabio, Cayuela, Luis, De Sanctis, Michele, Dengler, Jürgen, Haider, Sylvia, Hatim, Mohamed Z., Indreica, Adrian, Jansen, Florian, Pauchard, Aníbal, Peet, Robert K., Petřík, Petr, Pillar, Valério D., Sandel, Brody, Schmidt, Marco, Tang, Zhiyao, van Bodegom, Peter, Vassilev, Kiril, Violle, Cyrille, Alvarez-Davila, Esteban, Davidar, Priya, Dolezal, Jiri, Hérault, Bruno, Galán-de-Mera, Antonio, Jiménez, Jorge, Kambach, Stephan, Kepfer-Rojas, Sebastian, Kreft, Holger, Lezama, Felipe, Linares-Palomino, Reynaldo, Monteagudo Mendoza, Abel, N'Dja, Justin K., Phillips, Oliver L., Rivas-Torres, Gonzalo, Sklenář, Petr, Speziale, Karina, Strohbach, Ben J., Vásquez Martínez, Rodolfo, Wang, Hua-Feng, Wesche, Karsten, and Bruelheide, Helge

Abstract

Global patterns of regional (gamma) plant diversity are relatively well known, but whether these patterns hold for local communities, and the dependence on spatial grain, remain controversial. Using data on 170,272 georeferenced local plant assemblages, we created global maps of alpha diversity (local species richness) for vascular plants at three different spatial grains, for forests and non-forests. We show that alpha diversity is consistently high across grains in some regions (for example, Andean-Amazonian foothills), but regional 'scaling anomalies' (deviations from the positive correlation) exist elsewhere, particularly in Eurasian temperate forests with disproportionally higher fine-grained richness and many African tropical forests with disproportionally higher coarse-grained richness. The influence of different climatic, topographic and biogeographical variables on alpha diversity also varies across grains. Our multi-grain maps return a nuanced understanding of vascular plant biodiversity patterns that complements classic maps of biodiversity hotspots and will improve predictions of global change effects on biodiversity.

Published
2023

134. More losses than gains during one century of plant biodiversity change in Germany

Author

Jandt, Ute, Bruelheide, Helge, Jansen, Florian, Bonn, Aletta, Grescho, Volker, Klenke, Reinhard A., Sabatini, Francesco Maria, Bernhardt-Römermann, Markus, Blüml, Volker, Dengler, Jürgen, Diekmann, Martin, Doerfler, Inken, Döring, Ute, Dullinger, Stefan, Haider, Sylvia, Heinken, Thilo, Horchler, Peter, Kuhn, Gisbert, Lindner, Martin, Metze, Katrin, Müller, Norbert, Naaf, Tobias, Peppler-Lisbach, Cord, Poschlod, Peter, Roscher, Christiane, Rosenthal, Gert, Rumpf, Sabine B., Schmidt, Wolfgang, Schrautzer, Joachim, Schwabe, Angelika, Schwartze, Peter, Sperle, Thomas, Stanik, Nils, Storm, Christian, Voigt, Winfried, Wegener, Uwe, Wesche, Karsten, Wittig, Burghard, Wulf, Monika, Jandt, Ute, Bruelheide, Helge, Jansen, Florian, Bonn, Aletta, Grescho, Volker, Klenke, Reinhard A., Sabatini, Francesco Maria, Bernhardt-Römermann, Markus, Blüml, Volker, Dengler, Jürgen, Diekmann, Martin, Doerfler, Inken, Döring, Ute, Dullinger, Stefan, Haider, Sylvia, Heinken, Thilo, Horchler, Peter, Kuhn, Gisbert, Lindner, Martin, Metze, Katrin, Müller, Norbert, Naaf, Tobias, Peppler-Lisbach, Cord, Poschlod, Peter, Roscher, Christiane, Rosenthal, Gert, Rumpf, Sabine B., Schmidt, Wolfgang, Schrautzer, Joachim, Schwabe, Angelika, Schwartze, Peter, Sperle, Thomas, Stanik, Nils, Storm, Christian, Voigt, Winfried, Wegener, Uwe, Wesche, Karsten, Wittig, Burghard, and Wulf, Monika

Abstract

Long-term analyses of biodiversity data highlight a 'biodiversity conservation paradox': biological communities show substantial species turnover over the past century1,2, but changes in species richness are marginal1,3-5. Most studies, however, have focused only on the incidence of species, and have not considered changes in local abundance. Here we asked whether analysing changes in the cover of plant species could reveal previously unrecognized patterns of biodiversity change and provide insights into the underlying mechanisms. We compiled and analysed a dataset of 7,738 permanent and semi-permanent vegetation plots from Germany that were surveyed between 2 and 54 times from 1927 to 2020, in total comprising 1,794 species of vascular plants. We found that decrements in cover, averaged across all species and plots, occurred more often than increments; that the number of species that decreased in cover was higher than the number of species that increased; and that decrements were more equally distributed among losers than were gains among winners. Null model simulations confirmed that these trends do not emerge by chance, but are the consequence of species-specific negative effects of environmental changes. In the long run, these trends might result in substantial losses of species at both local and regional scales. Summarizing the changes by decade shows that the inequality in the mean change in species cover of losers and winners diverged as early as the 1960s. We conclude that changes in species cover in communities represent an important but understudied dimension of biodiversity change that should more routinely be considered in time-series analyses.

Published
2023

135. Disturbance indicator values for European plants

Author

Midolo, Gabriele, Herben, Tomáš, Axmanová, Irena, Marcenò, Corrado, Pätsch, Ricarda, Bruelheide, Helge, Karger, Dirk Nikolaus, Aćić, Svetlana, Bergamini, Ariel, Bergmeier, Erwin, Biurrun, Idoia, Bonari, Gianmaria, Čarni, Andraž, Chiarucci, Alessandro, De Sanctis, Michele, Demina, Olga, Dengler, Jürgen, Dziuba, Tetiana, Fanelli, Giuliano, Garbolino, Emmanuel, Giusso del Galdo, Gianpietro, Goral, Friedemann, Güler, Behlül, Hinojos‐Mendoza, Guillermo, Jansen, Florian, Jiménez‐Alfaro, Borja, Lengyel, Attila, Lenoir, Jonathan, Pérez‐Haase, Aaron, Pielech, Remigiusz, Prokhorov, Vadim, Rašomavičius, Valerijus, Ruprecht, Eszter, Rūsiņa, Solvita, Šilc, Urban, Škvorc, Željko, Stančić, Zvjezdana, Tatarenko, Irina, Chytrý, Milan, Midolo, Gabriele, Herben, Tomáš, Axmanová, Irena, Marcenò, Corrado, Pätsch, Ricarda, Bruelheide, Helge, Karger, Dirk Nikolaus, Aćić, Svetlana, Bergamini, Ariel, Bergmeier, Erwin, Biurrun, Idoia, Bonari, Gianmaria, Čarni, Andraž, Chiarucci, Alessandro, De Sanctis, Michele, Demina, Olga, Dengler, Jürgen, Dziuba, Tetiana, Fanelli, Giuliano, Garbolino, Emmanuel, Giusso del Galdo, Gianpietro, Goral, Friedemann, Güler, Behlül, Hinojos‐Mendoza, Guillermo, Jansen, Florian, Jiménez‐Alfaro, Borja, Lengyel, Attila, Lenoir, Jonathan, Pérez‐Haase, Aaron, Pielech, Remigiusz, Prokhorov, Vadim, Rašomavičius, Valerijus, Ruprecht, Eszter, Rūsiņa, Solvita, Šilc, Urban, Škvorc, Željko, Stančić, Zvjezdana, Tatarenko, Irina, and Chytrý, Milan

Abstract

Motivation: Indicator values are numerical values used to characterize the ecological niches of species and to estimate their occurrence along gradients. Indicator values on climatic and edaphic niches of plant species have received considerable attention in ecological research, whereas data on the optimal positioning of species along disturbance gradients are less developed. Here, we present a new data set of disturbance indicator values identifying optima along gradients of natural and anthropogenic disturbance for 6382 vascular plant species based on the analysis of 736,366 European vegetation plots and using expert-based characterization of disturbance regimes in 236 habitat types. The indicator values presented here are crucial for integrating disturbance niche optima into large-scale vegetation analyses and macroecological studies. Main types of variables contained: We set up five main continuous indicator values for European vascular plants: disturbance severity, disturbance frequency, mowing frequency, grazing pressure and soil disturbance. The first two indicators are provided separately for the whole community and for the herb layer. We calculated the values as the average of expert-based estimates of disturbance values in all habitat types where a species occurs, weighted by the number of plots in which the species occurs within a given habitat type. Spatial location and grain: Europe. Vegetation plots ranging in size from 1 to 1000 m2. Time period and grain: Vegetation plots mostly sampled between 1956 and 2013 (= 5th and 95th quantiles of the sampling year, respectively). Major taxa and level of measurement: Species-level indicator values for vascular plants. Software format: csv file.

Published
2023

136. Ellenberg‐type indicator values for European vascular plant species

Author

Tichý, Lubomír, Axmanová, Irena, Dengler, Jürgen, Guarino, Riccardo, Jansen, Florian, Midolo, Gabriele, Nobis, Michael P., Van Meerbeek, Koenraad, Aćić, Svetlana, Attorre, Fabio, Bergmeier, Erwin, Biurrun, Idoia, Bonari, Gianmaria, Bruelheide, Helge, Campos, Juan Antonio, Čarni, Andraž, Chiarucci, Alessandro, Ćuk, Mirjana, Ćušterevska, Renata, Didukh, Yakiv, Dítě, Daniel, Dítě, Zuzana, Dziuba, Tetiana, Fanelli, Giuliano, Fernández‐Pascual, Eduardo, Garbolino, Emmanuel, Gavilán, Rosario G., Gégout, Jean‐Claude, Graf, Ulrich, Güler, Behlül, Hájek, Michal, Hennekens, Stephan M., Jandt, Ute, Jašková, Anni, Jiménez‐Alfaro, Borja, Julve, Philippe, Kambach, Stephan, Karger, Dirk Nikolaus, Karrer, Gerhard, Kavgacı, Ali, Knollová, Ilona, Kuzemko, Anna, Küzmič, Filip, Landucci, Flavia, Lengyel, Attila, Lenoir, Jonathan, Marcenò, Corrado, Moeslund, Jesper Erenskjold, Novák, Pavel, Pérez‐Haase, Aaron, Peterka, Tomáš, Pielech, Remigiusz, Pignatti, Alessandro, Rašomavičius, Valerijus, Rūsiņa, Solvita, Saatkamp, Arne, Šilc, Urban, Škvorc, Željko, Theurillat, Jean‐Paul, Wohlgemuth, Thomas, Chytrý, Milan, Tichý, Lubomír, Axmanová, Irena, Dengler, Jürgen, Guarino, Riccardo, Jansen, Florian, Midolo, Gabriele, Nobis, Michael P., Van Meerbeek, Koenraad, Aćić, Svetlana, Attorre, Fabio, Bergmeier, Erwin, Biurrun, Idoia, Bonari, Gianmaria, Bruelheide, Helge, Campos, Juan Antonio, Čarni, Andraž, Chiarucci, Alessandro, Ćuk, Mirjana, Ćušterevska, Renata, Didukh, Yakiv, Dítě, Daniel, Dítě, Zuzana, Dziuba, Tetiana, Fanelli, Giuliano, Fernández‐Pascual, Eduardo, Garbolino, Emmanuel, Gavilán, Rosario G., Gégout, Jean‐Claude, Graf, Ulrich, Güler, Behlül, Hájek, Michal, Hennekens, Stephan M., Jandt, Ute, Jašková, Anni, Jiménez‐Alfaro, Borja, Julve, Philippe, Kambach, Stephan, Karger, Dirk Nikolaus, Karrer, Gerhard, Kavgacı, Ali, Knollová, Ilona, Kuzemko, Anna, Küzmič, Filip, Landucci, Flavia, Lengyel, Attila, Lenoir, Jonathan, Marcenò, Corrado, Moeslund, Jesper Erenskjold, Novák, Pavel, Pérez‐Haase, Aaron, Peterka, Tomáš, Pielech, Remigiusz, Pignatti, Alessandro, Rašomavičius, Valerijus, Rūsiņa, Solvita, Saatkamp, Arne, Šilc, Urban, Škvorc, Željko, Theurillat, Jean‐Paul, Wohlgemuth, Thomas, and Chytrý, Milan

Abstract

Aims: Ellenberg-type indicator values are expert-based rankings of plant species according to their ecological optima on main environmental gradients. Here we extend the indicator-value system proposed by Heinz Ellenberg and co-authors for Central Europe by incorporating other systems of Ellenberg-type indicator values (i.e., those using scales compatible with Ellenberg values) developed for other European regions. Our aim is to create a harmonized data set of Ellenberg-type indicator values applicable at the European scale. Methods: We collected European data sets of indicator values for vascular plants and selected 13 data sets that used the nine-, ten- or twelve-degree scales defined by Ellenberg for light, temperature, moisture, reaction, nutrients and salinity. We compared these values with the original Ellenberg values and used those that showed consistent trends in regression slope and coefficient of determination. We calculated the average value for each combination of species and indicator values from these data sets. Based on species’ co-occurrences in European vegetation plots, we also calculated new values for species that were not assigned an indicator value. Results: We provide a new data set of Ellenberg-type indicator values for 8908 European vascular plant species (8168 for light, 7400 for temperature, 8030 for moisture, 7282 for reaction, 7193 for nutrients, and 7507 for salinity), of which 398 species have been newly assigned to at least one indicator value. Conclusions: The newly introduced indicator values are compatible with the original Ellenberg values. They can be used for large-scale studies of the European flora and vegetation or for gap-filling in regional data sets. The European indicator values and the original and taxonomically harmonized regional data sets of Ellenberg-type indicator values are available in the Supporting Information and the Zenodo repository.

Published
2023

137. Carbon–biodiversity relationships in a highly diverse subtropical forest

Author

Schuldt, Andreas; https://orcid.org/0000-0002-8761-0025, Liu, Xiaojuan; https://orcid.org/0000-0002-9292-4432, Buscot, François; https://orcid.org/0000-0002-2364-0006, Bruelheide, Helge; https://orcid.org/0000-0003-3135-0356, Erfmeier, Alexandra; https://orcid.org/0000-0002-1002-9216, He, Jin‐Sheng; https://orcid.org/0000-0001-5081-3569, Klein, Alexandra‐Maria; https://orcid.org/0000-0003-2139-8575, Ma, Keping; https://orcid.org/0000-0001-9112-5340, Scherer‐Lorenzen, Michael; https://orcid.org/0000-0001-9566-590X, Schmid, Bernhard; https://orcid.org/0000-0002-8430-3214, Scholten, Thomas; https://orcid.org/0000-0002-4875-2602, Tang, Zhiyao; https://orcid.org/0000-0003-0154-6403, Trogisch, Stefan; https://orcid.org/0000-0002-1426-1012, Wirth, Christian; https://orcid.org/0000-0003-2604-8056, Wubet, Tesfaye; https://orcid.org/0000-0001-8572-4486, Staab, Michael; https://orcid.org/0000-0003-0894-7576, Schuldt, Andreas; https://orcid.org/0000-0002-8761-0025, Liu, Xiaojuan; https://orcid.org/0000-0002-9292-4432, Buscot, François; https://orcid.org/0000-0002-2364-0006, Bruelheide, Helge; https://orcid.org/0000-0003-3135-0356, Erfmeier, Alexandra; https://orcid.org/0000-0002-1002-9216, He, Jin‐Sheng; https://orcid.org/0000-0001-5081-3569, Klein, Alexandra‐Maria; https://orcid.org/0000-0003-2139-8575, Ma, Keping; https://orcid.org/0000-0001-9112-5340, Scherer‐Lorenzen, Michael; https://orcid.org/0000-0001-9566-590X, Schmid, Bernhard; https://orcid.org/0000-0002-8430-3214, Scholten, Thomas; https://orcid.org/0000-0002-4875-2602, Tang, Zhiyao; https://orcid.org/0000-0003-0154-6403, Trogisch, Stefan; https://orcid.org/0000-0002-1426-1012, Wirth, Christian; https://orcid.org/0000-0003-2604-8056, Wubet, Tesfaye; https://orcid.org/0000-0001-8572-4486, and Staab, Michael; https://orcid.org/0000-0003-0894-7576

Abstract

Carbon‐focused climate mitigation strategies are becoming increasingly important in forests. However, with ongoing biodiversity declines we require better knowledge of how much such strategies account for biodiversity. We particularly lack information across multiple trophic levels and on established forests, where the interplay between carbon stocks, stand age, and tree diversity might influence carbon–biodiversity relationships. Using a large dataset (>4600 heterotrophic species of 23 taxonomic groups) from secondary, subtropical forests, we tested how multitrophic diversity and diversity within trophic groups relate to aboveground, belowground, and total carbon stocks at different levels of tree species richness and stand age. Our study revealed that aboveground carbon, the key component of climate‐based management, was largely unrelated to multitrophic diversity. By contrast, total carbon stocks—that is, including belowground carbon—emerged as a significant predictor of multitrophic diversity. Relationships were nonlinear and strongest for lower trophic levels, but nonsignificant for higher trophic level diversity. Tree species richness and stand age moderated these relationships, suggesting long‐term regeneration of forests may be particularly effective in reconciling carbon and biodiversity targets. Our findings highlight that biodiversity benefits of climate‐oriented management need to be evaluated carefully, and only maximizing aboveground carbon may fail to account for biodiversity conservation requirements.

Published
2023

139. Positive biodiversity-productivity relationship predominant in global forests

Author

Liang, Jingjing, Crowther, Thomas W., Picard, Nicolas, Wiser, Susan, Zhou, Mo, Alberti, Giorgio, Schulze, Ernst-Detlef, McGuire, A. David, Bozzato, Fabio, Pretzsch, Hans, de-Miguel, Sergio, Paquette, Alain, Hérault, Bruno, Scherer-Lorenzen, Michael, Barrett, Christopher B., Glick, Henry B., Hengeveld, Geerten M., Nabuurs, Gert-Jan, Pfautsch, Sebastian, Viana, Helder, Vibrans, Alexander C., Ammer, Christian, Schall, Peter, Verbyla, David, Tchebakova, Nadja, Fischer, Markus, Watson, James V., Chen, Han Y. H., Lei, Xiangdong, Schelhaas, Mart-Jan, Lu, Huicui, Gianelle, Damiano, Parfenova, Elena I., Salas, Christian, Lee, Eungul, Lee, Boknam, Kim, Hyun Seok, Bruelheide, Helge, Coomes, David A., Piotto, Daniel, Sunderland, Terry, Schmid, Bernhard, Gourlet-Fleury, Sylvie, Sonké, Bonaventura, Tavani, Rebecca, Zhu, Jun, Brandl, Susanne, Vayreda, Jordi, Kitahara, Fumiaki, Searle, Eric B., Neldner, Victor J., Ngugi, Michael R., Baraloto, Christopher, Frizzera, Lorenzo, Bałazy, Radomir, Oleksyn, Jacek, Zawiła-Niedźwiecki, Tomasz, Bouriaud, Olivier, Bussotti, Filippo, Finér, Leena, Jaroszewicz, Bogdan, Jucker, Tommaso, Valladares, Fernando, Jagodzinski, Andrzej M., Peri, Pablo L., Gonmadje, Christelle, Marthy, William, O'Brien, Timothy, Martin, Emanuel H., Marshall, Andrew R., Rovero, Francesco, Bitariho, Robert, Niklaus, Pascal A., Alvarez-Loayza, Patricia, Chamuya, Nurdin, Valencia, Renato, Mortier, Frédéric, Wortel, Verginia, Engone-Obiang, Nestor L., Ferreira, Leandro V., Odeke, David E., Vasquez, Rodolfo M., Lewis, Simon L., and Reich, Peter B.

Published
2016

142. Plant diversity effects on grassland productivity are robust to both nutrient enrichment and drought

Author

Craven, Dylan, Isbell, Forest, Manning, Pete, Connolly, John, Bruelheide, Helge, Ebeling, Anne, Roscher, Christiane, van Ruijven, Jasper, Weigelt, Alexandra, Wilsey, Brian, Beierkuhnlein, Carl, de Luca, Enrica, Griffin, John N., Hautier, Yann, Hector, Andy, Jentsch, Anke, Kreyling, Jürgen, Lanta, Vojtech, Loreau, Michel, Meyer, Sebastian T., Mori, Akira S., Naeem, Shahid, Palmborg, Cecilia, Polley, H. Wayne, Reich, Peter B., Schmid, Bernhard, Siebenkäs, Alrun, Seabloom, Eric, Thakur, Madhav P., Tilman, David, Vogel, Anja, and Eisenhauer, Nico

Published
2016

144. Biotic homogenization can decrease landscape-scale forest multifunctionality

Author

van der Plas, Fons, Manning, Pete, Soliveres, Santiago, Allan, Eric, Scherer-Lorenzen, Michael, Verheyen, Kris, Wirth, Christian, Zavala, Miguel A., Ampoorter, Evy, Baeten, Lander, Barbaro, Luc, Bauhus, Jürgen, Benavides, Raquel, Benneter, Adam, Bonal, Damien, Bouriaud, Olivier, Bruelheide, Helge, Bussotti, Filippo, Carnol, Monique, Castagneyrol, Bastien, Charbonnier, Yohan, Coomes, David Anthony, Coppi, Andrea, Bastias, Cristina C., Dawud, Seid Muhie, De Wandeler, Hans, Domisch, Timo, Finér, Leena, Gessler, Arthur, Granier, André, Grossiord, Charlotte, Guyot, Virginie, Hättenschwiler, Stephan, Jactel, Hervé, Jaroszewicz, Bogdan, Joly, François-xavier, Jucker, Tommaso, Koricheva, Julia, Milligan, Harriet, Mueller, Sandra, Muys, Bart, Nguyen, Diem, Pollastrini, Martina, Ratcliffe, Sophia, Raulund-Rasmussen, Karsten, Selvi, Federico, Stenlid, Jan, Valladares, Fernando, Vesterdal, Lars, Zielínski, Dawid, and Fischer, Markus

Published
2016

145. Contributions of a global network of tree diversity experiments to sustainable forest plantations

Author

Verheyen, Kris, Vanhellemont, Margot, Auge, Harald, Baeten, Lander, Baraloto, Christopher, Barsoum, Nadia, Bilodeau-Gauthier, Simon, Bruelheide, Helge, Castagneyrol, Bastien, Godbold, Douglas, Haase, Josephine, Hector, Andy, Jactel, Hervé, Koricheva, Julia, Loreau, Michel, Mereu, Simone, Messier, Christian, Muys, Bart, Nolet, Philippe, Paquette, Alain, Parker, John, Perring, Mike, Ponette, Quentin, Potvin, Catherine, Reich, Peter, Smith, Andy, Weih, Martin, and Scherer-Lorenzen, Michael

Published
2016
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146. Functional dissimilarity in mixed forests promotes stem radial growth by mitigating tree water deficit.

Author

(张宏图), Hong-Tu Zhang, (艾尤尔.亥热提), Gheyur Gheyret, (白云昊), Yun-Hao Bai, (郭焱培), Yanpei Guo, (李珊), Shan Li, Schmid, Bernhard, Bruelheide, Helge, (马克平), Keping Ma, and (唐志尧), Zhiyao Tang

Subjects
MIXED forests, TREE growth, FOREST declines
Abstract

This article explores the relationship between tree water deficit (TWD) and stem radial growth in mixed forests. The study examines the effects of neighborhood composition and functional traits on TWD and stem radial growth using data from a tree diversity manipulation experiment in subtropical China. The results suggest that functional dissimilarity among trees at the neighborhood scale can mitigate water deficit and promote stem radial growth. The findings highlight the importance of considering functional diversity and species interactions in forest management practices. [Extracted from the article]

Published
2024
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148. Multiple plant diversity components drive consumer communities across ecosystems

Author

Schuldt, Andreas, Ebeling, Anne, Kunz, Matthias, Staab, Michael, Guimarães-Steinicke, Claudia, Bachmann, Dörte, Buchmann, Nina, Durka, Walter, Fichtner, Andreas, Fornoff, Felix, Härdtle, Werner, Hertzog, Lionel R., Klein, Alexandra-Maria, Roscher, Christiane, Schaller, Jörg, von Oheimb, Goddert, Weigelt, Alexandra, Weisser, Wolfgang, Wirth, Christian, Zhang, Jiayong, Bruelheide, Helge, and Eisenhauer, Nico

Published
2019
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149. Tree communities and functional traits determine herbivore compositional turnover.

Author

Wang, Ming-Qiang, Wen, Zhixin, Ke, Jinzhao, Chesters, Douglas, Li, Yi, Chen, Jing-Ting, Luo, Arong, Shi, Xiaoyu, Zhou, Qing-Song, Liu, Xiao-Juan, Ma, Keping, Bruelheide, Helge, Schuldt, Andreas, and Zhu, Chao-Dong

Subjects
FOREST biodiversity, ENDANGERED species, HERBIVORES, FOREST conservation, FOREST management, SPECIES diversity
Abstract

There are many factors known to drive species turnover, although the mechanisms by which these operate are less clear. Based on comprehensive datasets from the largest tree diversity experiment worldwide (BEF-China), we used shared herbivore species (zeta diversity) and multi-site generalized dissimilarity modelling to investigate the patterns and determinants of species turnover of Lepidoptera herbivores among study plots across a gradient in tree species richness. We found that zeta diversity declined sharply with an increasing number of study plots, with complete changes in caterpillar species composition observed even at the fine spatial scale of our study. Plant community characteristics rather than abiotic factors were found to play key roles in driving caterpillar compositional turnover, although these effects varied with an increasing number of study plots considered, due to the varying contributions of rare and common species to compositional turnover. Our study reveals details of the impact of phylogeny- and trait-mediated processes of trees on herbivore compositional turnover, which has implications for forest management and conservation and shows potential avenues for maintenance of heterogeneity in herbivore communities. [ABSTRACT FROM AUTHOR]

Published
2023
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