通过建模和 DNA 测序阐明了宿主-寄生蜂相互作用的动态。

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

机构信息

Ecology and Genetics Research Unit, University of Oulu, FI-90014, Finland, Oulu.

Organismal and Evolutionary Biology Research Programme, University of Helsinki, FI-00014, Finland, Helsinki.

出版信息

Ecol Lett. 2020 May;23(5):851-859. doi: 10.1111/ele.13486. Epub 2020 Mar 23.

DOI:10.1111/ele.13486

PMID:32207239

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7187309/

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.

摘要

人们假设，斑蛾数量的 2 年波动是由与 1 年的 Ophion 寄生蜂相互作用所介导的。我们通过对来自芬兰北部的斑蛾和 Ophion 的 35 年时间序列进行建模来检验这一假设。此外，我们使用 DNA 条形码来确定 Ophion 的物种多样性，并对其肠道内容物进行靶向扩增子测序以确认其幼虫宿主。时间序列数据分析强烈支持了假设的宿主-寄生蜂动态，即斑蛾的周期性发生是由 Ophion 介导的。DNA 条形码显示，Ophion 包括五种而不仅仅是一种物种，而靶向扩增子测序则证实了 Ophion 确实会寄生斑蛾。至少有一种 Ophion 物种会利用 1 年的 Syngrapha interrogationis 作为替代宿主，但它不会对斑蛾-Ophion 动态产生可察觉的影响。我们还展示了由于寄生蜂多样性的隐蔽性，该系统以前未被认识到的复杂性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8df/7187309/4df478c81c41/ELE-23-851-g001.jpg

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通过建模和 DNA 测序阐明了宿主-寄生蜂相互作用的动态。

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

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