Forest and woodland replacement patterns following drought-related mortality

Forest and woodland replacement patterns following drought-related mortality

Forests are experiencing growing risks of drought-induced mortality in a warming world. Yet, ecosystem dynamics following drought mortality remain unknown, representing a major limitation to our understanding of the ecological consequences of climate change. We provide an emerging picture of postdro...

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Hauptverfasser: Batllori, Enric, Lloret Maya, Francisco, Aakala, Tuomas, Anderegg, William R. L, Aynekulu, Ermias, Bendixsen, Devin P, Bentouati, Abdallah, Bigler, Christof, Burk, C. John, Camarero, Jesús Julio, Colangelo, Michele, Coop, Jonathan D, Fensham, Roderick, Floyd, M. Lisa, Galiano, Lucía, Ganey, Joseph L, Gonzalez, Patrick, Jacobsen, Anna L, Kane, Jeffrey Michael, Kitzberger, Thomas, Linares Calderón, Juan Carlos, Marchetti, Suzanne B, Matusick, George, Michaelian, Michael, Navarro-Cerrillo, Rafael M, Pratt, Robert Brandon, Redmond, Miranda D, Rigling, Andreas, Ripullone, Francesco, Sangüesa-Barreda, Gabriel, Sasal, Yamila, Saura-Mas, Sandra, Suarez, Maria Laura, Veblen, Thomas T, Vilà-Cabrera, Albert, Vincke, Caroline, Zeeman, Ben
Format: Artikel
Sprache:eng
Schlagworte:
Climate change
Drought-induced mortality
Forest dynamics
Forest resilience
Global tree mortality
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Zusammenfassung:Forests are experiencing growing risks of drought-induced mortality in a warming world. Yet, ecosystem dynamics following drought mortality remain unknown, representing a major limitation to our understanding of the ecological consequences of climate change. We provide an emerging picture of postdrought ecological trajectories based on field indicators of forest dynamics. Replacement patterns following mortality indicate limited short-term persistence of predrought dominant tree species, highlighting the potential for major ecosystem reorganization in the coming decades. The great variability of the observed dynamics within and among species reinforces the primary influence of drought characteristics and ecosystem legacies, modulated by land use, management, and past disturbances, on ongoing drought-related species turnover and their potential implications for future forest biodiversity and ecosystem services. Forest vulnerability to drought is expected to increase under anthropogenic climate change, and drought-induced mortality and community dynamics following drought have major ecological and societal impacts. Here, we show that tree mortality concomitant with drought has led to short-term (mean 5 y, range 1 to 23 y after mortality) vegetation-type conversion in multiple biomes across the world (131 sites). Self-replacement of the dominant tree species was only prevalent in 21% of the examined cases and forests and woodlands shifted to nonwoody vegetation in 10% of them. The ultimate temporal persistence of such changes remains unknown but, given the key role of biological legacies in long-term ecological succession, this emerging picture of postdrought ecological trajectories highlights the potential for major ecosystem reorganization in the coming decades. Community changes were less pronounced under wetter postmortality conditions. Replacement was also influenced by management intensity, and postdrought shrub dominance was higher when pathogens acted as codrivers of tree mortality. Early change in community composition indicates that forests dominated by mesic species generally shifted toward more xeric communities, with replacing tree and shrub species exhibiting drier bioclimatic optima and distribution ranges. However, shifts toward more mesic communities also occurred and multiple pathways of forest replacement were observed for some species. Drought characteristics, species-specific environmental preferences, plant traits, and ecosystem legacies