The James Hutton Institute, Craigiebuckler, Aberdeen AB15 8QH, UK.
Parasitology. 2013 Feb;140(2):247-57. doi: 10.1017/S0031182012001400. Epub 2012 Sep 3.
Parasite-mediated apparent competition occurs when one species affects another through the action of a shared parasite. One way of controlling the parasite in the more susceptible host is to manage the reservoir host. Culling can cause issues in terms of ethics and biodiversity impacts, therefore we ask: can treating, as compared to culling, a wildlife host protect a target species from the shared parasite? We used Susceptible Infected Recovered (SIR) models parameterized for the tick-borne louping ill virus (LIV) system. Deer are the key hosts of the vector (Ixodes ricinus) that transmits LIV to red grouse Lagopus lagopus scoticus, causing high mortality. The model was run under scenarios of varying acaricide efficacy and deer densities. The model predicted that treating deer can increase grouse density through controlling ticks and LIV, if acaricide efficacies are high and deer densities low. Comparing deer treated with 70% acaricide efficacy with a 70% cull rate suggested that treatment may be more effective than culling if initial deer densities are high. Our results will help inform tick control policies, optimize the targeting of control methods and identify conditions where host management is most likely to succeed. Our approach is applicable to other host-vector-pathogen systems.
寄生虫介导的表型竞争发生在一个物种通过共享寄生虫的作用影响另一个物种时。控制更易感宿主中寄生虫的一种方法是管理储存宿主。扑杀在伦理和生物多样性影响方面会引发问题,因此我们会问:与扑杀相比,治疗野生动物宿主是否可以保护目标物种免受共享寄生虫的侵害?我们使用了针对蜱传卢普氏病毒(LIV)系统的易感感染恢复(SIR)模型进行参数化。鹿是传播 LIV 给红松鸡(Lagopus lagopus scoticus)的媒介(Ixodes ricinus)的关键宿主,会导致高死亡率。该模型在不同杀蜱剂功效和鹿密度的情景下进行了运行。如果杀蜱剂功效高且鹿密度低,该模型预测治疗鹿可以通过控制蜱虫和 LIV 来增加松鸡的密度。与 70%杀蜱剂功效的 70%扑杀率相比,如果初始鹿密度较高,则治疗可能比扑杀更有效。我们的研究结果将有助于为蜱虫控制政策提供信息,优化控制方法的目标,并确定宿主管理最有可能成功的条件。我们的方法适用于其他宿主-媒介-病原体系统。
