Dynamics of a host–parasitoid interaction clarified by modelling and DNA sequencing

Abstract It has been hypothesised that the 2-year oscillations in abundance of Xestia moths are mediated by interactions with 1-year Ophion parasitoid wasps. We tested this hypothesis by modelling a 35-year time series of Xestia and Ophion from Northern Finland. Additionally, we used DNA barcoding t...

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Bibliographic Details
Published in:Ecology Letters
Main Authors: Mutanen, Marko, Ovaskainen, Otso, Várkonyi, Gergely, Itämies, Juhani, Prosser, Sean W. J., Hebert, Paul D. N., Hanski, Ilkka
Other Authors: Organismal and Evolutionary Biology Research Programme, Research Centre for Ecological Change, Ecology and Evolutionary Biology
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2020
Subjects:
1181 Ecology
evolutionary biology
DNA barcoding
MAPL
Ophion
periodic occurrence
population dynamics
Xestia
POPULATION
HYMENOPTERA
FLIES DIPTERA
LEPIDOPTERA
NOCTUIDAE
Northern Finland
Online Access:http://hdl.handle.net/10138/317021
Description
Summary:Abstract It has been hypothesised that the 2-year oscillations in abundance of Xestia moths are mediated by interactions with 1-year Ophion parasitoid wasps. We tested this hypothesis by modelling a 35-year time series of Xestia and Ophion from Northern Finland. Additionally, we used DNA barcoding to ascertain the species diversity of Ophion and targeted amplicon sequencing of their gut contents to confirm their larval hosts. Modelling of the time-series data strongly supported the hypothesised host?parasitoid dynamics and that periodic occurrence of Xestia moths is mediated by Ophion. DNA barcodes revealed that Ophion included five species rather than just one while targeted amplicon sequencing verified that Ophion does parasitise Xestia. At least one Ophion species employs 1-year Syngrapha interrogationis as an alternate host, but it did not detectably affect Xestia?Ophion dynamics. We also demonstrate the previously unrecognised complexity of this system due to cryptic parasitoid diversity. Peer reviewed

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