Review on ecological interactions of the Cochliomyia hominivorax fly and assessment of the possible impacts of its eradication in Uruguay

I. Etchevers, M. V. Iriarte, L. Marqués, A. Ferenczi, M. Dalla Rizza, J. Marzaroli, A. Saravia, P. Fresia
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Abstract

Controlling a pest species raises questions about the harmful effects its eradication could cause in ecosystems. Currently, in Uruguay are being analyzed strategies to eradicate the New World Screwworm (NWS), Cochliomyia hominivorax (Diptera: Calliphoridae), an obligatory ectoparasite that causes myiasis in warm-blooded vertebrates, including humans. The loss of a species implies a risk of secondary extinctions and cascading effects that depend on the ecological function of the species and the capacity of the rest of the species with which it interacts to compensate for its loss. To assess the ecological impact of the NWS eradication, we analyzed its ecological redundancy, its effect as an indirect regulatory agent for other species, and its participation in critical ecosystem functions. We conclude that the NWS presents high functional redundancy in most ecological interactions. It does not play an essential role as a regulatory agent of other species and does not play an important role in critical ecosystem functions. Without ignoring the information gaps that certainly exist about the ecological interactions network of the NWS in Uruguay, we estimate that its eradication is unlikely to cause secondary extinctions or cascading effects in the networks it integrates. In order to timely detect possible impacts during the course of the program, it is recommended to monitor the ecosystems using indicators related to direct and indirect partners in the ecological interactions of the NWS.
乌拉圭人沟蜗蝇的生态相互作用综述及根除其可能产生的影响评估
控制一种有害物种引发了对其根除可能对生态系统造成有害影响的问题。目前,乌拉圭正在分析消灭新世界螺旋虫(NWS)的策略,这是一种导致温血脊椎动物(包括人类)蝇蛆病的强制性外寄生虫。一个物种的消失意味着二次灭绝的风险和级联效应,这取决于该物种的生态功能和与其相互作用的其他物种补偿其损失的能力。为了评估消灭NWS的生态影响,我们分析了NWS的生态冗余,作为其他物种的间接调节因子的作用,以及它对关键生态系统功能的参与。我们得出结论,NWS在大多数生态相互作用中表现出高度的功能冗余。它不作为其他物种的调节因子发挥重要作用,也不发挥关键生态系统功能的重要作用。在不忽视乌拉圭NWS生态相互作用网络中肯定存在的信息缺口的情况下,我们估计其根除不太可能在其整合的网络中引起二次灭绝或级联效应。为了及时发现项目实施过程中可能产生的影响,建议使用与自然保护区生态相互作用中的直接和间接伙伴相关的指标来监测生态系统。
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