Arthropod communities and biological control in soybean fields: Forest cover at landscape scale is more influential than forest proximity

•Natural enemy richness and abundance increased with forest cover and proximity.•Herbivores benefited from larger forest cover only during soybean flowering.•Forest cover and soybean phenology influenced composition of both functional groups.•Stink bugs were less abundant at the closest distance to...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2017-02, Vol.239, p.359-367
Main Authors: González, Ezequiel, Salvo, Adriana, Valladares, Graciela
Format: Article
Language:English
Subjects:
Abundance
Agricultural land
Arthropods
Biodiversity
Biological control
Biological effects
Community composition
Crops
Ecosystem services
Eggs
Flowering
Forest management
Forests
Functional groups
Glycine max
Habitats
Herbivores
Insect control
Insects
Landscape
Landscape preservation
Natural enemies
Pentatomidae
Plants (botany)
Proximity
Soybean
Soybeans
Stink bugs
Wildlife conservation
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Summary:•Natural enemy richness and abundance increased with forest cover and proximity.•Herbivores benefited from larger forest cover only during soybean flowering.•Forest cover and soybean phenology influenced composition of both functional groups.•Stink bugs were less abundant at the closest distance to the forest.•Biological control of stink bugs was higher in sites with larger forest cover. Natural habitats surrounding annual crops influence biodiversity and the provision of ecosystem services within the cultivated habitats. Soybean, an important crop worldwide and the main crop in Argentina, is affected by several pest species, including stink-bugs that damage soybean pods. Here, we studied the effects of Chaco Serrano forests on arthropod herbivores and natural enemies and on biological control of stink bugs on soybean, at landscape (forest cover) and local (forest proximity) scales. We sampled arthropods on soybean plants by using the beating-sheet method, on nine landscapes (with low and high forest cover) and at 5, 25, 50 and 100m from the forest, during soybean flowering and pod-filling stages. Biological control of stink bug eggs was assessed via sentinel-egg experiments in soybean and forest habitats. We found that landscapes with high forest cover presented higher richness and abundance of natural enemies and higher levels of biological control on stink bug eggs (both in the cropland and in the forest), while a similar trend for herbivores was restricted to soybean flowering stage. Community composition of both functional groups was also affected by forest cover and crop phenological stage. Forest proximity had more limited effects: natural enemies showed more species and individuals at 5m from the forest than at larger distances and, conversely, stink bug abundance was lower at the closest distance to the forest. We conclude than forest amount at landscape scale is more influential for arthropod biodiversity and biological control in soybean than forest proximity. Moreover, our results suggest that maintaining remnants of forest in agricultural landscapes can be effective for conservation of arthropod biodiversity while contributing to biological control of stink bugs in soybean fields.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2017.02.002