(Systemic) Insecticides in plants: Phytotoxicity, bioactivation, or hormesis?

Raul Narciso C. Guedes , Antonio Biondi , Evgenios Agathokleous , Adriano Nunes-Nesi
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引用次数: 2

Abstract

Insecticides are commonly associated with insects as the target of their activity. Curiously, the fact that insects are seldom the target of insecticide application is the object of frequent neglect, potentially leading to undesirable consequences. This concern is even more troubling when systemic insecticides are considered because the use of such compounds is on the rise and the popularity of preemptive seed coating with these compounds has greatly increased during the last decades. Thus, insecticide action is not limited to insects, but also affects crop plants, especially when systemic insecticides are considered. Plants are the primary target of application and venue to reach the arthropods targeted by the insecticidal molecule. Thus, they can retain and distribute insecticides and their byproducts, and eventually exhibit the consequences of such exposure. Consequently, phytotoxicity and/or bioactivation may ensue. The former response is better known although more frequently explored when herbicides are considered, while the latter is sparking more attention recently. These potential insecticide-mediated responses, particularly when systemic insecticides are considered, are here discussed individually and as a part of a biphasic continuum of response based on the hormesis phenomenon and its implications.

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(全身性)植物杀虫剂:植物毒性、生物活性还是刺激效应?
杀虫剂通常与作为其活动目标的昆虫有关。奇怪的是,昆虫很少成为杀虫剂应用的目标,这一事实经常被忽视,可能会导致不良后果。当考虑使用系统性杀虫剂时,这种担忧就更令人不安了,因为这种化合物的使用正在增加,而且在过去几十年中,用这些化合物预先包衣的普及率大大提高。因此,杀虫剂的作用不仅限于昆虫,还影响作物,尤其是在考虑使用系统杀虫剂时。植物是应用的主要目标,也是接触杀虫分子靶向节肢动物的场所。因此,他们可以保留和分发杀虫剂及其副产品,并最终表现出这种接触的后果。因此,可能会产生植物毒性和/或生物活性。前者的反应更为人所知,尽管在考虑除草剂时更为频繁,而后者最近引起了更多的关注。这些潜在的杀虫剂介导的反应,特别是当考虑系统性杀虫剂时,在这里单独讨论,并作为基于兴奋现象及其影响的双相连续反应的一部分。
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