A diverse parasite pool can improve effectiveness of biological control constrained by genotype-by-genotype interactions

IF 3.5 2区 生物学 Q1 EVOLUTIONARY BIOLOGY
Fabiane M. Mundim, Amanda K. Gibson
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引用次数: 0

Abstract

The outcomes of biological control programs can be highly variable, with natural enemies often failing to establish or spread in pest populations. This variability has posed a major obstacle in use of the bacterial parasite Pasteuria penetrans for biological control of Meloidogyne species, economically devastating plant‐parasitic nematodes for which there are limited management options. A leading hypothesis for this variability in control is that infection is successful only for specific combinations of bacterial and nematode genotypes. Under this hypothesis, failure of biological control results from the use of P. penetrans genotypes that cannot infect local Meloidogyne genotypes. We tested this hypothesis using isofemale lines of M. arenaria derived from a single field population and multiple sources of P. penetrans from the same and nearby fields. In strong support of the hypothesis, susceptibility to infection depended on the specific combination of host line and parasite source, with lines of M. arenaria varying substantially in which P. penetrans source could infect them. In light of this result, we tested whether using a diverse pool of P. penetrans could increase infection and thereby control. We found that increasing the diversity of the P. penetrans inoculum from one to eight sources more than doubled the fraction of M. arenaria individuals susceptible to infection and reduced variation in susceptibility across host lines. Together, our results highlight genotype‐by‐genotype specificity as an important cause of variation in biological control and call for the maintenance of genetic diversity in natural enemy populations.
多样化的寄生虫库可以提高受基因型间相互作用约束的生物防治效果
生物防治计划的结果可能变化很大,天敌往往无法在害虫种群中建立或传播。这种可变性对利用穿透性巴氏菌细菌寄生虫生物防治具有经济破坏性的植物寄生线虫造成了重大障碍,对这些线虫的管理选择有限。对于这种控制变异的主要假设是,只有细菌和线虫基因型的特定组合才能成功感染。在这一假设下,生物防治的失败是由于使用了穿透性假单胞菌基因型,而这些基因型不能感染当地的旋律雌性基因型。我们使用来自单一田间种群的沙粒棘球蚴的同雌性系和来自同一及附近田间的渗透棘球蚴的多个来源来检验这一假设。对感染的易感性取决于宿主系和寄生虫源的特定组合,对沙粒支原体的感染能力有很大的不同。根据这一结果,我们测试了使用不同的P. penetrans是否会增加感染,从而控制感染。我们发现,增加从一种到八种来源的渗透单胞菌接种物的多样性,使沙粒单胞菌易感染的个体比例增加了一倍以上,并减少了不同寄主系之间的易感性差异。总之,我们的研究结果强调了基因型特异性是生物防治变化的重要原因,并呼吁维持天敌种群的遗传多样性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Evolutionary Applications
Evolutionary Applications 生物-进化生物学
CiteScore
8.50
自引率
7.30%
发文量
175
审稿时长
6 months
期刊介绍: Evolutionary Applications is a fully peer reviewed open access journal. It publishes papers that utilize concepts from evolutionary biology to address biological questions of health, social and economic relevance. Papers are expected to employ evolutionary concepts or methods to make contributions to areas such as (but not limited to): medicine, agriculture, forestry, exploitation and management (fisheries and wildlife), aquaculture, conservation biology, environmental sciences (including climate change and invasion biology), microbiology, and toxicology. All taxonomic groups are covered from microbes, fungi, plants and animals. In order to better serve the community, we also now strongly encourage submissions of papers making use of modern molecular and genetic methods (population and functional genomics, transcriptomics, proteomics, epigenetics, quantitative genetics, association and linkage mapping) to address important questions in any of these disciplines and in an applied evolutionary framework. Theoretical, empirical, synthesis or perspective papers are welcome.
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