Agricultural landscape simplification reduces natural pest control: a quantitative synthesis
CHAPLIN-KRAMER, Rebecca
Stanford Woods Institute for the Environment
University of California [Berkeley] [UC Berkeley]
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Stanford Woods Institute for the Environment
University of California [Berkeley] [UC Berkeley]
CHAPLIN-KRAMER, Rebecca
Stanford Woods Institute for the Environment
University of California [Berkeley] [UC Berkeley]
Stanford Woods Institute for the Environment
University of California [Berkeley] [UC Berkeley]
WEISSER, Wolfgang W.
Technische Universität Munchen - Technical University Munich - Université Technique de Munich [TUM]
< Reduce
Technische Universität Munchen - Technical University Munich - Université Technique de Munich [TUM]
Language
en
Article de revue
This item was published in
Agriculture, Ecosystems & Environment. 2016, vol. 221, p. 198-204
Elsevier
English Abstract
Numerous studies show that landscape simplification reduces abundance and diversity of natural enemies in agroecosystems, but its effect on natural pest control remains poorly quantified. Further, natural enemy impacts on ...Read more >
Numerous studies show that landscape simplification reduces abundance and diversity of natural enemies in agroecosystems, but its effect on natural pest control remains poorly quantified. Further, natural enemy impacts on pest populations have usually been estimated for a limited number of taxa and have not considered interactions among predator species. In a quantitative synthesis with data collected from several cropping systems in Europe and North America, we analyzed how the level and within-field spatial stability of natural pest control services was related to the simplification of the surrounding landscape. All studies used aphids as a model species and exclusion cages to measure aphid pest control. Landscape simplification was quantified by the proportion of cultivated land within a 1 km radius around each plot. We found a consistent negative effect of landscape simplification on the level of natural pest control, despite interactions among enemies. Average level of pest control was 46% lower in homogeneous landscapes dominated by cultivated land, as compared with more complex landscapes. Landscape simplification did not affect the amount of positive or negative interactions among ground-dwelling and vegetation-dwelling predators, or the within-field stability of pest control. Our synthesis demonstrates that agricultural intensification through landscape simplification has negative effects on the level of natural pest control with important implications for management to maintain and enhance ecosystem services in agricultural landscapes. Specifically, preserving and restoring semi-natural habitats emerges as a fundamental first step to maintain and enhance pest control services provided by predatory arthropods to agriculture.Read less <
English Keywords
crop protection
biological control
arthropods intraguild predation
ecosystem services
landscape management
spatial stability
Origin
Hal imported