Landscape heterogeneity filters functional traits of rice arthropods in tropical agroecosystems

Biological control services of agroecosystems depend on the functional diversity of species traits. However, the relationship between arthropod traits and landscape heterogeneity is still poorly understood, especially in tropical rice agroecosystems, which harbor a high diversity of often specialize...

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Bibliographic Details
Published in:Ecological applications 2022-04, Vol.32 (3), p.1-15
Main Authors: Dominik, Christophe, Seppelt, Ralf, Horgan, Finbarr G., Settele, Josef, Václavík, Tomáš
Format: Article
Language:English
Subjects:
Agricultural ecosystems
Animals
Arthropoda
Arthropods
Beneficial arthropods
Biodiversity
Biological control
Body size
Composition
Configurations
Dispersal
Ecosystem
fourth‐corner analyses
Functional groups
functional traits
Habitat fragmentation
Habitats
Heterogeneity
Land management
landscape heterogeneity
Natural enemies
Oryza
Predators
Rice
RLQ analyses
Species
Species diversity
Vertical distribution
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Summary:Biological control services of agroecosystems depend on the functional diversity of species traits. However, the relationship between arthropod traits and landscape heterogeneity is still poorly understood, especially in tropical rice agroecosystems, which harbor a high diversity of often specialized species. We investigated how landscape heterogeneity, measured by three metrics of landscape composition and configuration, influenced body size, functional group composition, dispersal ability, and vertical distribution of rice arthropods in the Philippines. We found that landscape composition and configuration acted to filter arthropod traits in tropical rice agroecosystems. Landscape diversity and rice habitat fragmentation were the two main gradients influencing rice-arthropod traits, indicating that different rice arthropods have distinct habitat requirements. Whereas small parasitoids and species mostly present in the rice canopy were favored in landscapes with high compositional heterogeneity, predators and medium-sized species occupying the base of the rice plant, including planthoppers, mostly occurred in highly fragmented rice habitats. We demonstrate the importance of landscape heterogeneity as an ecological filter for rice arthropods, identifying how the different components of landscape heterogeneity selected for or against specific functional traits. However, the contrasting effects of landscape parameters on different groups of natural enemies indicate that not all beneficial rice arthropods can be promoted at the same time when using a single land management strategy. Increasing compositional heterogeneity in rice landscapes can promote parasitoids but may also negatively affect predators. Future research should focus on identifying tradeoffs between fragmented rice habitats and structurally diverse landscapes to maximize the presence of multiple groups of beneficial arthropods.
ISSN:1051-0761
1939-5582
DOI:10.1002/eap.2560