A theoretical framework of ecological phase transitions for characterizing tree-grass dynamics |
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Authors: | Li Bai-Lian |
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Institution: | (1) Ecological Complexity and Modeling Laboratory, Department of Botany and Plant Sciences, University of California, Riverside, California 92521-0124, USA |
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Abstract: | This paper describes a theoretical framework of ecological phase transitions for modeling tree-grass dynamics and analyzing the shifts or phase transitions from one vegetation structure to another in the southern Texas landscape. This framework implements the integration of percolation theory, fractal geometry and phase transition theory as a method for modeling the spatial patterns of tree-grass dynamics, and nonlinear Markov non-equilibrium thermodynamic stability theory as a method for characterizing temporal tree-grass dynamics and phase transition. An historical sequence of aerial photographs at a Prosopis - thornscrub savanna parkland site in southern Texas was used to determine the parameters of the models. The preliminary analytical result accords well with current understanding and field survey of vegetation dynamics in the southern Texas landscape. The potential of such approaches and other relevant theories such as self-organized criticality and synergetics to vegetation dynamics is also discussed. |
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Keywords: | Ecological phase transitions fractals nonequilibrium thermodynamics percolation theory savanna spatial patterns stability analysis tree-grass dynamics vegetation change |
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