Floral presence and flower identity alter cereal aphid endosymbiont communities on adjacent crops

Author:

Zytynska Sharon E.12ORCID,Sturm Sarah2,Hawes Cathy3,Weisser Wolfgang W.2ORCID,Karley Alison3ORCID

Affiliation:

1. Department of Evolution, Ecology, and Behaviour, Institute of Infection, Veterinary and Ecological Sciences University of Liverpool Liverpool UK

2. Terrestrial Ecology Research Group, Department of Life Science Systems, School of Life Sciences Technical University of Munich Freising Germany

3. Ecological Sciences Department The James Hutton Institute Dundee UK

Abstract

Abstract Floral plantings adjacent to crops fields can recruit populations of natural enemies by providing flower nectar and non‐crop prey to increase natural pest regulation. Observed variation in success rates might be due to changes in the unseen community of endosymbionts hosted by many herbivorous insects, of which some can confer resistance to natural enemies, for example, parasitoid wasps. Reduced insect control may occur if highly protective symbiont combinations increase in frequency via selection effects, and this is expected to be stronger in lower diversity systems. We used a large‐scale field trial to analyse the bacterial endosymbiont communities hosted by cereal aphids Sitobion avenae collected along transects into strip plots of barley plants managed by either conventional or integrated (including floral field margins and reduced inputs) methods. In addition, we conducted an outdoor pot experiment to analyse endosymbionts in S. avenae aphids collected on barley plants that were either grown alone or alongside one of three flowering plants, across three time points. In the field, aphids hosted up to four symbionts. The abundance of aphids and parasitoid wasps was reduced towards the middle of all fields while aphid symbiont species richness and diversity decreased into the field in conventional, but not integrated, field‐strips. The proportion of aphids hosting different symbiont combinations varied across cropping systems, with distances into the fields, and were correlated with parasitoid wasp abundances. In the pot experiment, aphids hosted up to six symbionts. Flower presence increased natural enemy abundance and diversity, and decreased aphid abundance. The proportion of aphids hosting different symbiont combinations varied across the flower treatment and time, and were correlated with varying abundances of the different specialist parasitoid wasp species recruited by different flowers. Synthesis and applications. Floral plantings and flower identity had community‐wide impacts on the combinations of bacterial endosymbionts hosted by herbivorous insects, which correlated with natural enemy diversity and abundance. We recommend that integrated management practices incorporate floral resources within field areas to support a more functionally diverse and resilient natural enemy community to mitigate selection for symbiont‐mediated pest resistance throughout the cropping area.

Funder

British Ecological Society

Publisher

Wiley

Subject

Ecology

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