Disentangling higher trophic level interactions in the cabbage aphid food web using high-throughput DNA sequencing

Marie Caroline Lefort*, Stephen D. Wratten, Antonino Cusumano, Yann David Varennes, Stephane Boyer

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

6 Citations (Scopus)

Abstract

The lack of understanding of complex food-web interactions has been a major gap in the history of biological control. In particular, a better understanding of the functioning of pest food-webs and how they vary between native and invaded geographical ranges is of prime interest for biological control research and associated integrated pest management. Technical limitations associated with the deciphering of complex food-webs can now be largely overcome by the use of high throughput DNA sequencing techniques such as Illumina MiSeq. We tested the efficiency of this next generation sequencing technology in a metabarcoding approach, to study aphid food-webs using the cabbage aphid as model. We compared the variations in structure and composition of aphid food-webs in the species' native range (United Kingdom, UK) and in an invaded range (New Zealand, NZ). We showed that Illumina MiSeq is a well suited technology to study complex aphid food-webs from aphid mummies. We found an unexpectedly high top down pressure in the NZ cabbage aphid food-web, which coupled to a large ratio of consumer species / prey species and a lack of potential inter-specific competition between primary parasitoids, could cause the NZ food-web to be more vulnerable than the UK one. This study also reports for the first time the occurrence of a new hyperparasitoid species in NZ, as well as new associations between hyperparasitoids parasitoids and the cabbage aphid in this country. We conclude that the complexity of aphid food-webs in agricultural systems could often be underestimated, particularly at higher trophic levels; and that the use of high throughput DNA sequencing tools, could largely help to overcome this impediment.

Original languageEnglish
Article numbere13709
JournalMetabarcoding and Metagenomics
Volume1
DOIs
Publication statusPublished - 18 Oct 2017

Keywords

  • Biological control
  • Competition
  • Enemy release hypothesis
  • Hyperparasitism
  • Hyperparasitoids
  • Metabarcoding
  • Parasitoids

Fingerprint Dive into the research topics of 'Disentangling higher trophic level interactions in the cabbage aphid food web using high-throughput DNA sequencing'. Together they form a unique fingerprint.

Cite this