The importance of species addition ‘versus’ replacement varies over succession in plant communities after glacier retreat
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Published:2024-01-17
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ISSN:2055-0278
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Container-title:Nature Plants
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language:en
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Short-container-title:Nat. Plants
Author:
Cantera IsabelORCID, Carteron AlexisORCID, Guerrieri AlessiaORCID, Marta SilvioORCID, Bonin AurélieORCID, Ambrosini RobertoORCID, Anthelme Fabien, Azzoni Roberto Sergio, Almond Peter, Alviz Gazitúa Pablo, Cauvy-Fraunié Sophie, Ceballos Lievano Jorge Luis, Chand PritamORCID, Chand Sharma Milap, Clague John, Cochachín Rapre Justiniano Alejo, Compostella Chiara, Cruz Encarnación Rolando, Dangles OlivierORCID, Eger Andre, Erokhin Sergey, Franzetti Andrea, Gielly Ludovic, Gili FabrizioORCID, Gobbi Mauro, Hågvar Sigmund, Khedim Norine, Meneses Rosa Isela, Peyre Gwendolyn, Pittino Francesca, Rabatel AntoineORCID, Urseitova Nurai, Yang Yan, Zaginaev Vitalii, Zerboni AndreaORCID, Zimmer AnaïsORCID, Taberlet Pierre, Diolaiuti Guglielmina Adele, Poulenard Jerome, Thuiller Wilfried, Caccianiga MarcoORCID, Ficetola Gentile Francesco
Publisher
Springer Science and Business Media LLC
Reference95 articles.
1. Connell, J. H. & Slatyer, R. O. Mechanisms of succession in natural communities and their role in community stability and organization. Am. Nat. 111, 1119–1144 (1977). 2. Prach, K. & Walker, L. R. Comparative Plant Succession among Terrestrial Biomes of the World (Cambridge Univ. Press, 2020). 3. Walker, L. R. & del Moral, R. Primary Succession and Ecosystem Rehabilitation (Cambridge Univ. Press, 2003). 4. Clements, F. E. Plant Succession: An Analysis of the Development of Vegetation (Carnegie Institution of Washington, 1916). 5. Pulsford, S. A., Lindenmayer, D. B. & Driscoll, D. A. A succession of theories: purging redundancy from disturbance theory. Biol. Rev. 91, 148–167 (2016).
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