病原体介导的入侵社会性昆虫自然和人为种群崩溃。

Pathogen-mediated natural and manipulated population collapse in an invasive social insect.

机构信息

Brackenridge Field Laboratory, Department of Integrative Biology, The University of Texas at Austin, Austin, TX 78703.

Texas Parks and Wildlife Department, Estero Llano Grande State Park, Weslaco, TX 78596.

出版信息

Proc Natl Acad Sci U S A. 2022 Apr 5;119(14):e2114558119. doi: 10.1073/pnas.2114558119. Epub 2022 Mar 28.

DOI:10.1073/pnas.2114558119

PMID:35344435

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9168452/

Abstract

SignificanceInvasive social insects are among the most damaging of invasive organisms and have proved universally intractable to biological control. Despite this, populations of some invasive social insects collapse from unknown causes. We report long-term studies demonstrating that infection by a microsporidian pathogen causes populations of a globally significant invasive ant to collapse to local extinction, providing a mechanistic understanding of a pervasive phenomenon in biological invasions: the collapse of established populations from endogenous factors. We apply this knowledge and successfully eliminate two large, introduced populations of these ants. More broadly, microsporidian pathogens should be evaluated for control of other supercolonial invasive social insects. Diagnosing the cause of unanticipated population collapse in invasive organisms can lead to applied solutions.

摘要

意义

入侵的社会性昆虫是最具破坏性的入侵生物之一，事实证明，它们普遍难以进行生物防治。尽管如此，一些入侵的社会性昆虫种群还是会由于未知原因而崩溃。我们报告了长期研究结果，证明一种微孢子虫病原体的感染会导致一种具有全球重要意义的入侵蚂蚁种群崩溃并局部灭绝，为生物入侵中的一个普遍现象（即由内在因素导致已建立的种群崩溃）提供了机制上的理解。我们应用这一知识并成功地消灭了这两种蚂蚁的两个大型引入种群。更广泛地说，应该评估微孢子虫病原体对其他超级群居入侵社会性昆虫的控制作用。诊断入侵生物中意外种群崩溃的原因可以带来实际的解决方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6829/9168452/544d71aa0b73/pnas.2114558119fig01.jpg

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病原体介导的入侵社会性昆虫自然和人为种群崩溃。

Pathogen-mediated natural and manipulated population collapse in an invasive social insect.

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