Simulated effects of fire,dispersal and spatial pattern on competition within forest mosaics |
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Authors: | David G. Green |
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Affiliation: | (1) Ecosystem Dynamics Group, Research School of Biological Sciences, Australian National University, GPO Box 475, 2601 Canberra, Australia |
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Abstract: | Simulations representing tree locations on a rectangular grid (cellular automaton) imply that spatial patterns associated with fire, seed dispersal, and the distributions of plants and resources affect forest dynamics profoundly. Simulated fires ignited at random locations in a uniform environment create non-uniform habitats and lead to patches dominated by different vegetation types. Short-range seed dispersal promotes vegetation clumping; fires cause these clumps to coalesce into vegetation zones separated by sharp borders, especially across an environmental gradient. In simulation of competition within vegetation mosaics, tree populations with a competitive advantage still require the intervention of fire to eliminate rivals. Also, the availability of local seed sources enables established tree populations to exclude invaders, but fires can trigger sudden changes in the composition of such systems. In models of simple succession systems, climax vegetation tends to displace pioneer vegetation, even under harsh fire regimes. |
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Keywords: | Fire effect Invasion Simulation Stability Succession |
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