Publications

RESEARCH

Landscape composition mediates suppression of major pests by natural enemies in conventional cruciferous vegetables

Zhang, J., You, S., Niu, D., Gavilanez Guaman, K.G., Wang, A., Saqib, H.S.A., He, W., Yu, Y., Yang, G., Pozsgai, G. & You, M. (2021) Landscape composition mediates suppression of major pests by natural enemies in conventional cruciferous vegetables.

Agriculture, Ecosystems & Environment, 316, 107455. DOI:10.1016/j.agee.2021.107455 (IF2020 5,567; Q1 Ecology)
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  • Nov, 2021

Summary

Background

Conservation biological control provides an environment-friendly approach to improve the efficacy of natural enemies. Although numerous studies have demonstrated the potential of semi-natural habitats in promoting biological control in organic or unsprayed agroecosystems, few studies were conducted in conventional agricultural fields. In this study, we investigated the effects of landscape composition on the major pests of cruciferous vegetables and on the assemblages of their natural enemies in southeastern China.

Results

Habitat diversity, particularly increasing grassland proportion in the landscape, had a positive impact in controlling both small-sized pests (aphids, leaf miners, thrips and flea beetles) and Plutella xylostella. This increasing proportion also promoted greater abundance and diversity of canopy-dwelling predators, more forests supported a higher diversity of airborne enemies (parasitoids and canopy-dwelling predators) as well as a higher abundance of ground-dwelling predators. A general increase in habitat diversity was beneficial to parasitoids and ground-dwelling predators. Additionally, the proportion of forest, grassland, and non-cruciferous vegetable area, as well as habitat diversity, affected the compositions of natural enemy communities. Moreover, inconsistent effects of non-cruciferous and grassland habitats were found between sampling locations for small-sized pests and canopy-dwelling predators. Moreover, the scale at which pests' and natural enemies’ abundance and richness responded most to landscape composition varied with their feeding range and dispersal ability.

Conclusion

Our study provides evidence that increasing the amount of semi-natural habitats and habitat diversity can result in lower pest and higher natural enemy abundance in conventional cruciferous agroecosystems. Regional conditions and spatial scales also should be considered in designing the agricultural landscape mosaic.


https://www.sciencedirect.com/science/article/pii/S0167880921001596!