What happens when the insecticide does not kill? A review of sublethal toxicology and insecticide resistance in triatomines.

IF 1.6 3区 农林科学 Q2 ENTOMOLOGY
Gastón Mougabure-Cueto, Georgina Fronza, Julieta Nattero
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Abstract

Chagas disease is considered one of the most important human parasitosis in the United States. This disease is mainly transmitted by insects of the subfamily Triatominae. The chemical vector control is the main tool for reducing the incidence of the disease. However, the presence of triatomines after pyrethroids spraying has been reported in some regions, as in the case of Triatoma infestans in Argentina and Bolivia. The presence of insects can be explained by the colonization from neighbouring areas, the reduction of insecticide dose to sublethal levels due to environmental factors, and/or by the evolution of insecticide resistance. In the last two scenarios, a proportion of the insects is not killed by insecticide and gives rise to residual populations. This article focuses on the toxicological processes associated with these scenarios in triatomines. Sublethal doses may have different effects on insect biology, that is, sublethal effects, which may contribute to the control. In addition, for insect disease vectors, sublethal doses could have negative effects on disease transmission. The study of sublethal effects in triatomines has focused primarily on the sequence of symptoms associated with nervous intoxication. However, the effects of sublethal doses on excretion, reproduction and morphology have also been studied. Rhodnius prolixus and T. infestans and pyrethroids insecticides were the triatomine species and insecticides, respectively, mainly studied. Insecticide resistance is an evolutionary phenomenon in which the insecticide acts as a selective force, concentrating on the insect population's pre-existing traits that confer resistance. This leads to a reduction in the susceptibility to the insecticide, which was previously effective in controlling this species. The evolution of resistance in triatomines received little attention before the 2000s, but after the detection of the first focus of resistance associated with chemical control failures in T. infestans from Argentina in 2002, the study of resistance increased remarkably. A significant number of works have studied the geographical distribution, the resistance mechanisms, the biological modifications associated with resistance, the environmental influences and the genetic of T. infestans resistant to pyrethroid insecticides. Currently, studies of insecticide resistance are gradually being extended to other areas and other species. The aim of this article was to review the knowledge on both phenomena (sublethal effects and insecticide resistance) in triatomines. For a better understanding of this article, some concepts and processes related to insect-insecticide interactions, individual and population toxicology and evolutionary biology are briefly reviewed. Finally, possible future lines of research in triatomine toxicology are discussed.

杀虫剂杀不死时会发生什么?三蠹亚致死毒理学和杀虫剂抗药性综述。
南美锥虫病被认为是美国最重要的人类寄生虫病之一。这种疾病主要由三足虫亚科昆虫传播。化学病媒控制是降低该病发病率的主要手段。然而,据报道,在某些地区喷洒除虫菊酯后会出现三蠹虫,如阿根廷和玻利维亚的 Triatoma infestans。昆虫出现的原因可能是来自邻近地区的定殖、环境因素导致杀虫剂剂量降低到亚致死水平,和/或杀虫剂抗药性的演变。在后两种情况下,一部分昆虫不会被杀虫剂杀死,从而产生残留种群。本文重点介绍与这些情况相关的三蠹虫毒理学过程。亚致死剂量可能会对昆虫生物学产生不同的影响,即亚致死效应,这可能有助于控制。此外,对于昆虫病媒来说,亚致死剂量可能会对疾病传播产生负面影响。对三翅目昆虫亚致死效应的研究主要集中在与神经中毒相关的症状序列上。不过,亚致死剂量对排泄、繁殖和形态的影响也有研究。主要研究的对象分别是 Rhodnius prolixus 和 T. infestans 以及拟除虫菊酯类杀虫剂。杀虫剂抗药性是一种进化现象,在这种现象中,杀虫剂作为一种选择性力量,集中作用于昆虫种群原有的抗性特征。这导致昆虫对杀虫剂的易感性降低,而杀虫剂之前对该物种的控制是有效的。2000 年代以前,人们很少关注三蠹类昆虫的抗药性演变,但 2002 年在阿根廷发现首个与化学防治失败相关的抗药性病灶后,抗药性研究显著增加。大量工作研究了抗药性的地理分布、抗药性机制、与抗药性相关的生物变化、环境影响以及对拟除虫菊酯杀虫剂产生抗药性的褐飞虱的遗传。目前,对杀虫剂抗性的研究正逐渐扩展到其他地区和其他物种。本文旨在回顾有关三蠹虫这两种现象(亚致死效应和杀虫剂抗性)的知识。为了更好地理解这篇文章,本文简要回顾了与昆虫-杀虫剂相互作用、个体和种群毒理学以及进化生物学相关的一些概念和过程。最后,还讨论了三蠹毒理学未来可能的研究方向。
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来源期刊
Medical and Veterinary Entomology
Medical and Veterinary Entomology 农林科学-昆虫学
CiteScore
3.70
自引率
5.30%
发文量
65
审稿时长
12-24 weeks
期刊介绍: Medical and Veterinary Entomology is the leading periodical in its field. The Journal covers the biology and control of insects, ticks, mites and other arthropods of medical and veterinary importance. The main strengths of the Journal lie in the fields of: -epidemiology and transmission of vector-borne pathogens changes in vector distribution that have impact on the pathogen transmission- arthropod behaviour and ecology- novel, field evaluated, approaches to biological and chemical control methods- host arthropod interactions. Please note that we do not consider submissions in forensic entomology.
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