Parasitoid diversity reduces the variability in pest control services across time on farms

Macfadyen, Sarina; Craze, Paul G.; Polaszek, Andrew; Achterberg, Kees van; Memmott, Jane

doi:10.1098/rspb.2010.2673

Cited by 49 publications

(48 citation statements)

References 28 publications

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“…Stability of ecosystem functions is thought to increase with species richness due to niche complementarity, facilitation, or sampling effects (Hooper et al, 2005); a positive relationship that has been found for a variety of ecosystem functions including biomass production, crop pollination, and pest control (Garibaldi et al, 2011;Isbell et al, 2009;MacFadyen et al, 2011). Studies linking natural enemy diversity to pest control services have focused on temporal stability, while spatial stability remains largely unexplored although considerable spatial heterogeneity in terms of abundance of natural enemies and their prey have been observed within fields (Holland et al, 2004;Winder et al, 2005;MacFadyen et al, 2011). Because landscape complexity is known to enhance natural enemy diversity and abundance, we expected to find a lower within-field stability (higher variability) in pest control in simple compared with more complex landscapes.…”

Section: Discussionmentioning

confidence: 99%

Agricultural landscape simplification reduces natural pest control: A quantitative synthesis

Rusch

Chaplin‐Kramer

Gardiner

et al. 2016

Agriculture, Ecosystems & Environment

438

319

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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.

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Section: Discussionmentioning

confidence: 99%

Agricultural landscape simplification reduces natural pest control: A quantitative synthesis

Rusch

Chaplin‐Kramer

Gardiner

et al. 2016

Agriculture, Ecosystems & Environment

438

319

View full text Add to dashboard Cite

show abstract

“…The effects of predator or parasitoid species richness on prey attack rates and stability have been tested previously (e.g., Cardinale et al 2003, Ives et al 2005, Snyder et al 2006, Tylianakis et al 2006, Macfadyen et al 2011, and we were interested here in whether trophic complementarity and redundancy provide more information than does simple, and more easily measured, species richness. Therefore, we also incorporated, in all the models, host species richness, parasitoid species richness, and the weighted number of different interactions (quantitative connectance; Bersier et al 2002) as covariates, so that we could test for effects of interaction structure on parasitism rates after accounting for the effects of the number of species in webs and the number of links between species.…”

Section: Analysesmentioning

confidence: 99%

Complementarity and redundancy of interactions enhance attack rates and spatial stability in host–parasitoid food webs

Peralta

Frost

Rand

et al. 2014

Ecology

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Complementary resource use and redundancy of species that fulfill the same ecological role are two mechanisms that can respectively increase and stabilize process rates in ecosystems. For example, predator complementarity and redundancy can determine prey consumption rates and their stability, yet few studies take into account the multiple predator species attacking multiple prey at different rates in natural communities. Thus, it remains unclear whether these biodiversity mechanisms are important determinants of consumption in entire predator-prey assemblages, such that food-web interaction structure determines community-wide consumption and stability. Here, we use empirical quantitative food webs to study the community-wide effects of functional complementarity and redundancy of consumers (parasitoids) on herbivore control in temperate forests. We find that complementarity in host resource use by parasitoids was a strong predictor of absolute parasitism rates at the community level and that redundancy in host-use patterns stabilized community-wide parasitism rates in space, but not through time. These effects can potentially explain previous contradictory results from predator diversity research. Phylogenetic diversity (measured using taxonomic distance) did not explain functional complementarity or parasitism rates, so could not serve as a surrogate measure for functional complementarity. Our study shows that known mechanisms underpinning predator diversity effects on both functioning and stability can easily be extended to link food webs to ecosystem functioning.

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“…; Macfadyen et al . ; Brittain, Kremen & Klein ). This is true for the stability of pollination services; if complementary pollinator functional groups visit different plant species, or the same plant species at different times, this can enhance the overall visitation and pollination of plant communities (Hoehn et al .…”

Section: Introductionmentioning

confidence: 99%

Modest enhancements to conventional grassland diversity improve the provision of pollination services

Orford

Murray

Vaughan

et al. 2016

Journal of Applied Ecology

Self Cite

107

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Summary Grassland for livestock production is a major form of land use throughout Europe and its intensive management threatens biodiversity and ecosystem functioning in agricultural landscapes. Modest increases to conventional grassland biodiversity could have considerable positive impacts on the provision of ecosystem services, such as pollination, to surrounding habitats.Using a field‐scale experiment in which grassland seed mixes and sward management were manipulated, complemented by surveys on working farms and phytometer experiments, the impact of conventional grassland diversity and management on the functional diversity and ecosystem service provision of pollinator communities were investigated.Increasing plant richness, by the addition of both legumes and forbs, was associated with significant enhancements in the functional diversity of grassland pollinator communities. This was associated with increased temporal stability of flower–visitor interactions at the community level. Visitation networks revealed pasture species Taraxacum sp. (Wigg.) (dandelion) and Cirsium arvense (Scop.) (creeping thistle) to have the highest pollinator visitation frequency and richness. Cichorium intybus (L.) (chichory) was highlighted as an important species having both high pollinator visitation and desirable agronomic properties.Increased sward richness was associated with an increase in the pollination of two phytometer species; Fragaria × ananassa (strawberry) and Silene dioica (red campion), but not Vicia faba (broad bean). Enhanced functional diversity, richness and abundance of the pollinator communities associated with more diverse neighbouring pastures were found to be potential mechanisms for improved pollination. Synthesis and applications. A modest increase in conventional grassland plant diversity with legumes and forbs, achievable with the expertise and resources available to most grassland farmers, could enhance pollinator functional diversity, richness and abundance. Moreover, our results suggest that this could improve pollination services and consequently surrounding crop yields (e.g. strawberry) and wildflower reproduction in agro‐ecosystems.

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Parasitoid diversity reduces the variability in pest control services across time on farms

Cited by 49 publications

References 28 publications

Agricultural landscape simplification reduces natural pest control: A quantitative synthesis

Agricultural landscape simplification reduces natural pest control: A quantitative synthesis

Complementarity and redundancy of interactions enhance attack rates and spatial stability in host–parasitoid food webs

Modest enhancements to conventional grassland diversity improve the provision of pollination services

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