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Detecting host-parasitoid interactions in an invasive Lepidopteran using nested tagging DNA metabarcoding

Detecting host-parasitoid interactions in an invasive Lepidopteran using nested tagging DNA metabarcoding
Detecting host-parasitoid interactions in an invasive Lepidopteran using nested tagging DNA metabarcoding

Determining the host-parasitoid interactions and parasitism rates for invasive species entering novel environments is an important first step in assessing potential routes for biocontrol and integrated pest management. Conventional insect rearing techniques followed by taxonomic identification are widely used to obtain such data, but this can be time-consuming and prone to biases. Here, we present a next-generation sequencing approach for use in ecological studies which allows for individual-level metadata tracking of large numbers of invertebrate samples through the use of hierarchically organised molecular identification tags. We demonstrate its utility using a sample data set examining both species identity and levels of parasitism in late larval stages of the oak processionary moth (Thaumetopoea processionea-Linn. 1758), an invasive species recently established in the United Kingdom. Overall, we find that there are two main species exploiting the late larval stages of oak processionary moth in the United Kingdom with the main parasitoid (Carcelia iliaca-Ratzeburg, 1840) parasitising 45.7% of caterpillars, while a rare secondary parasitoid (Compsilura concinnata-Meigen, 1824) was also detected in 0.4% of caterpillars. Using this approach on all life stages of the oak processionary moth may demonstrate additional parasitoid diversity. We discuss the wider potential of nested tagging DNA metabarcoding for constructing large, highly resolved species interaction networks.

Biocontrol, Invasive species, Nested tagging, Parasitism, Species interactions
0962-1083
Kitson, James J.N.
c9c3a3bb-d4b2-4700-9643-239cfed15101
Hahn, Christoph
5b66693f-a327-49f9-9b3e-571b89eb64fc
Sands, Richard J.
221004ef-f2ca-47ae-9037-0c328f514dfe
Straw, Nigel A.
43322e9c-3c2f-4679-bf3d-522d189277a4
Evans, Darren M.
2eda668a-26e8-4ddf-8df1-f890ea810922
Lunt, David H.
535502ad-741c-4854-9acf-99de75eb101a
Kitson, James J.N.
c9c3a3bb-d4b2-4700-9643-239cfed15101
Hahn, Christoph
5b66693f-a327-49f9-9b3e-571b89eb64fc
Sands, Richard J.
221004ef-f2ca-47ae-9037-0c328f514dfe
Straw, Nigel A.
43322e9c-3c2f-4679-bf3d-522d189277a4
Evans, Darren M.
2eda668a-26e8-4ddf-8df1-f890ea810922
Lunt, David H.
535502ad-741c-4854-9acf-99de75eb101a

Kitson, James J.N., Hahn, Christoph, Sands, Richard J., Straw, Nigel A., Evans, Darren M. and Lunt, David H. (2018) Detecting host-parasitoid interactions in an invasive Lepidopteran using nested tagging DNA metabarcoding. Molecular Ecology. (doi:10.1111/mec.14518).

Record type: Article

Abstract

Determining the host-parasitoid interactions and parasitism rates for invasive species entering novel environments is an important first step in assessing potential routes for biocontrol and integrated pest management. Conventional insect rearing techniques followed by taxonomic identification are widely used to obtain such data, but this can be time-consuming and prone to biases. Here, we present a next-generation sequencing approach for use in ecological studies which allows for individual-level metadata tracking of large numbers of invertebrate samples through the use of hierarchically organised molecular identification tags. We demonstrate its utility using a sample data set examining both species identity and levels of parasitism in late larval stages of the oak processionary moth (Thaumetopoea processionea-Linn. 1758), an invasive species recently established in the United Kingdom. Overall, we find that there are two main species exploiting the late larval stages of oak processionary moth in the United Kingdom with the main parasitoid (Carcelia iliaca-Ratzeburg, 1840) parasitising 45.7% of caterpillars, while a rare secondary parasitoid (Compsilura concinnata-Meigen, 1824) was also detected in 0.4% of caterpillars. Using this approach on all life stages of the oak processionary moth may demonstrate additional parasitoid diversity. We discuss the wider potential of nested tagging DNA metabarcoding for constructing large, highly resolved species interaction networks.

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More information

Accepted/In Press date: 30 January 2018
e-pub ahead of print date: 27 February 2018
Keywords: Biocontrol, Invasive species, Nested tagging, Parasitism, Species interactions
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Identifiers

Local EPrints ID: 422604
URI: http://eprints.soton.ac.uk/id/eprint/422604
DOI: doi:10.1111/mec.14518
ISSN: 0962-1083
PURE UUID: e5b7ad90-398e-4ffb-ae58-367abab070ca

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Date deposited: 26 Jul 2018 16:30
Last modified: 10 May 2024 16:57

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Contributors

Author: James J.N. Kitson
Author: Christoph Hahn
Author: Richard J. Sands
Author: Nigel A. Straw
Author: Darren M. Evans
Author: David H. Lunt

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