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Title (Primary) Towards a new generation of trait-flexible vegetation models
Author Berzaghi, F.; Wright, I.J.; Kramer, K.; Oddou-Muratorio, S.; Bohn, F.J.; Reyer, C.P.O.; Sabaté, S.; Sanders, T.G.M.; Hartig, F.;
Journal Trends in Ecology & Evolution
Year 2020
Department OESA;
Volume 35
Issue 3
Language englisch;
POF III (all) T53;
Keywords highlight; plant traits; intraspecific variation; vegetation modeling; eco-evolution; plant genetics
Abstract Plant trait variability, emerging from eco-evolutionary dynamics that range from alleles to macroecological scales, is one of the most elusive, but possibly most consequential, aspects of biodiversity. Plasticity, epigenetics, and genetic diversity are major determinants of how plants will respond to climate change, yet these processes are rarely represented in current vegetation models. Here, we provide an overview of the challenges associated with understanding the causes and consequences of plant trait variability, and review current developments to include plasticity and evolutionary mechanisms in vegetation models. We also present a roadmap of research priorities to develop a next generation of vegetation models with flexible traits. Including trait variability in vegetation models is necessary to better represent biosphere responses to global change.
ID 22603
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=22603
Berzaghi, F., Wright, I.J., Kramer, K., Oddou-Muratorio, S., Bohn, F.J., Reyer, C.P.O., Sabaté, S., Sanders, T.G.M., Hartig, F. (2020):
Towards a new generation of trait-flexible vegetation models
Trends Ecol. Evol. 35 (3), 191 - 205