Using high-throughput amplicon sequencing to determine diet of generalist lady beetles in agricultural landscapes

•High-throughput amplicon sequencing (HTS) was used to characterize lady beetle diets.•Prey detection was observed in 33–55% of field and lab specimens, respectively.•Omnivory was prevalent in corn where prey richness and breadth were low.•Omnivory was lower in prairie where prey richness and breadt...

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Bibliographic Details
Published in:Biological control 2022-07, Vol.170 (C), p.104920, Article 104920
Main Authors: Kim, Tania N., Bukhman, Yury V., Jusino, Michelle A., Scully, Erin D., Spiesman, Brian J., Gratton, Claudio
Format: Article
Language:English
Subjects:
BASIC BIOLOGICAL SCIENCES
Biological control
Biotechnology & Applied Microbiology
Diet analyses
Entomology
Intraguild predation
Metabarcoding
Next generation sequencing
Omnivory
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Summary:•High-throughput amplicon sequencing (HTS) was used to characterize lady beetle diets.•Prey detection was observed in 33–55% of field and lab specimens, respectively.•Omnivory was prevalent in corn where prey richness and breadth were low.•Omnivory was lower in prairie where prey richness and breadth were high.•HTS is a useful tool for assessing biocontrol potential of predators in the field. Determining feeding relationships is central to understanding biological control potential in the field. However, methods to differentiate actual (or realized) feeding relationships from potential feeding relationships is lacking especially for small, generalist predators such as lady beetles. In this study, we used DNA metabarcoding approaches to characterize actual feeding relationships of lady beetles (Coccinellidae) in the field and validated our methods with a lab study. We first asked whether high-throughput amplicon sequencing (HTS) can characterize diets of lady beetles ranging from monotypic diets to diverse diet mixtures in the lab. We then examined whether diet composition and breadth of lady beetles collected from different habitat types in southern WI varied between monocultures of soybean and corn, diverse tallgrass prairie, and urban habitats. Lastly, we asked whether different body or tissue types (partial-body versus whole-body specimens) would change the likelihood of prey detection for both studies. In our controlled lab study, we found that HTS can accurately assess diet composition and diet breadth for lady beetle populations, but at the individual level, HTS has limitation for individuals feeding on more than three species of prey at any given time. In our field study, we documented lower prey richness and diet breadth in corn compared to soybean and grassland, and greater prey DNA in regurgitants than in whole-body specimens. Finally, we found that reduced diet diversity was associated with an increased prevalence of intraguild predation, but that habitat and prey diversity are not necessarily correlated. The prey detection rates (proportion of specimens with prey DNA) in our study were comparable to other studies (55% in the lab study, 33% in field study) and varied with diet composition and habitat type. The relatively low detection rates suggest that many consumer individuals would need to be assayed to fully assess diet diversity, especially in diverse systems.
ISSN:1049-9644
1090-2112
DOI:10.1016/j.biocontrol.2022.104920