Recurrent Habitat Disturbance and Species Diversity in a Multiple-Competitive Species System

Authors: OHSAWA K.¹; KAWASAKI K.²; TAKASU F.¹; SHIGESADA N.¹

Source: Journal of Theoretical Biology, Volume 216, Number 2, May 2002 , pp. 123-138(16)

Publisher: Academic Press

Abstract:

To address how species interactions, dispersal and environmental disturbances interplay to affect the spatial distribution and diversity of species, we present a compartment model in which multiple species undergo competitive interaction of Lotka–Volterra type in a patchy environment arranged in a square lattice. Dispersal of species occurs between adjacent patches. Disturbances are periodically imposed on a central part of the environment in a belt-like block or an island-like block of various sizes where each species is killed for a certain time interval and then allowed to recover for the rest of a disturbance cycle. We deal with a case in which the local population dynamics within each patch is analytically determinable and has multiple locally stable equilibrium states in the absence of environmental disturbance. We further assume a trade-off between the reproductive rate of species and its dispersal ability. With these settings, we numerically examine how the spatio-temporal distributions of species are affected by changes in the pattern, size and duration of disturbances. The results demonstrate that: (1) in the undisturbed area, environmental disturbances could generate spatially segregated distributions of species; (2) in the disturbed area, species with higher dispersal abilities quickly invade and preferentially recover their population during the post-disturbance period, being temporarily relieved of competition from other species. These mechanisms collectively lead to increased species diversity in the whole habitat, functioning best when both the size and duration of disturbances are intermediate. In particular, the belt-like disturbance is more effective than the island-like disturbance in sustaining spatial heterogeneity for a wider range of duration of disturbance. Copyright 2002 Elsevier Science Ltd. All rights reserved.

Language: English

Document Type: Research article

Affiliations: 1: Department of Information and Computer Sciences, Nara Women's University, Kita-Uoya Nishimachi, Nara, 630-8506, Japan 2: Department of Knowledge Engineering and Computer Sciences, Doshisha University, Kyo-Tanabe, 610-0321, Japan

Publication date: 2002-05-01

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• By this author: OHSAWA K. ;  KAWASAKI K. ;  TAKASU F. ;  SHIGESADA N.

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