宿主遗传多样性限制了寄生虫在农业系统之外的成功:一项荟萃分析

A. Ekroth, Charlotte Rafaluk-Mohr, K. King
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引用次数: 55

摘要

有证据表明,人类活动正在减少世界范围内物种的种群遗传多样性。鉴于寄生虫能更好地利用基因同质宿主种群的预测,许多物种可能容易受到疾病暴发的影响。虽然农业研究表明传染病对单一栽培作物的破坏性影响,但这种多样性-疾病关系的广泛性质在自然系统中仍不清楚。在这里,我们通过对23项研究进行荟萃分析,总共有67个效应量,为高种群遗传多样性可以预防传染病提供广泛的支持。我们发现,寄生虫的功能群(微型或大型寄生虫)影响效果的存在,研究环境(野外或实验室环境)影响程度。我们的研究还表明,无论宿主繁殖、寄生虫宿主范围、寄生虫多样性、毒力和记录寄生虫成功的方法如何,宿主遗传多样性总体上都是抵御感染的强大防御。综上所述,这些结果突出了监测宿主种群遗传多样性下降的重要性,因为寄生虫分布的变化可能对自然界中处于危险中的种群产生破坏性影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Host genetic diversity limits parasite success beyond agricultural systems: a meta-analysis
There is evidence that human activities are reducing the population genetic diversity of species worldwide. Given the prediction that parasites better exploit genetically homogeneous host populations, many species could be vulnerable to disease outbreaks. While agricultural studies have shown the devastating effects of infectious disease in crop monocultures, the widespread nature of this diversity–disease relationship remains unclear in natural systems. Here, we provide broad support that high population genetic diversity can protect against infectious disease by conducting a meta-analysis of 23 studies, with a total of 67 effect sizes. We found that parasite functional group (micro- or macroparasite) affects the presence of the effect and study setting (field or laboratory-based environment) influences the magnitude. Our study also suggests that host genetic diversity is overall a robust defence against infection regardless of host reproduction, parasite host range, parasite diversity, virulence and the method by which parasite success was recorded. Combined, these results highlight the importance of monitoring declines of host population genetic diversity as shifts in parasite distributions could have devastating effects on at-risk populations in nature.
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