What's on the Menu? A Novel Molecular Gut Content Analysis to Investigate the Feeding Behavior of Phytophagous Insects

Overview

Journal Ecol Evol

Date 2024 Sep 25

PMID 39318529

Authors

Maja Fluch

Marta Chignola

Erika Corretto

Manfred Wolf

Stefanie Fischnaller

Luigimaria Borruso

Hannes Schuler

Affiliations

Soon will be listed here.

Abstract

The relationship between phytophagous insects and plants is a central aspect of food webs and ecosystem functioning. The introduction of new species into an environment can have significant impacts on the food web of a native ecosystem. In many cases, there is a lack of knowledge on the biology and feeding behavior of invasive species prior their introduction and in the invaded regions. Gut content analyses of insects have provided valuable information on the host spectrum of insects. However, current approaches are time-consuming and costly. Here, we describe a new molecular gut content analysis (GCA) approach using the Oxford Nanopore (ONT) Flongle sequencing platform to characterize the plant DNA present in the gut of the highly polyphagous insect species . We demonstrate that this technique efficiently amplifies and correctly identifies plant DNA in a mock community. We performed a feeding experiment to determine the sensitivity of this approach and to assess how long the plant DNA can be detected. All plants used in the feeding experiment were correctly identified and detected after 56 days. Surprisingly, we also detected various plant genera that were not included in the feeding experiment and thus were likely ingested months before the experiment. Our study suggests that the GCA using the ONT Flongle sequencing platform represents a rapid and cost-efficient diagnosis of the dietary preferences, host range, and the diversity of consumed plant species of pest insects with high precision.

Citing Articles

What's on the menu? A novel molecular gut content analysis to investigate the feeding behavior of phytophagous insects.

Fluch M, Chignola M, Corretto E, Wolf M, Fischnaller S, Borruso L Ecol Evol. 2024; 14(9):e70071.

PMID: 39318529 PMC: 11421882. DOI: 10.1002/ece3.70071.

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