Spatial heterogeneity and irreversible vegetation change in semiarid grazing systems

J. van de Koppel*, M. Rietkerk, F. van Langevelde, L. Kumar, C.A. Klausmeier, J.M. Fryxell, J.W. Hearne, J. van Andel, N. de Ridder, A. Skidmore, L. Stroosnijder, H.H.T. Prins

*Corresponding author for this work

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    Abstract

    Recent theoretical studies have shown that spatial redistribution of surface water may explain the occurrence of patterns of alternating vegetated and degraded patches in semiarid grasslands. These results implied, however, that spatial redistribution processes cannot explain the collapse of production on coarser scales observed in these systems. We present a spatially explicit vegetation model to investigate possible mechanisms explaining irreversible vegetation collapse on coarse spatial scales. The model results indicate that the dynamics of vegetation on coarse scales are determined by the interaction of two spatial feedback processes. Loss of plant cover in a certain area results in increased availability of water in remaining vegetated patches through run-on of surface water, promoting within-patch plant production. Hence, spatial redistribution of surface water creates negative feedback between reduced plant cover and increased plant growth in remaining vegetation. Reduced plant cover, however, results in focusing of herbivore grazing in the remaining vegetation. Hence, redistribution of herbivores creates positive feedback between reduced plant cover and increased losses due to grazing in remaining vegetated patches, leading to collapse of the entire vegetation. This may explain irreversible vegetation shifts in semiarid grasslands on coarse spatial scales.

    Original languageEnglish
    Pages (from-to)209-218
    Number of pages10
    JournalAmerican Naturalist
    Volume159
    Issue number2
    DOIs
    Publication statusPublished - Feb-2002

    Keywords

    • grazing
    • herbivory
    • positive feedback
    • spatially explicit model
    • vegetation collapse
    • vegetation patterns
    • POPULATION-DYNAMICS
    • RANGE CONDITION
    • STABLE STATES
    • ECOLOGY
    • SOIL
    • PRODUCTIVITY
    • THRESHOLDS
    • VIEWPOINT
    • STABILITY
    • RHODESIA

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