Egg parasitoid assemblages and their effectiveness against the Lepidoptera soybean defoliators in Argentina's subtropical production region

IF 1.4 3区农林科学 Q2 ENTOMOLOGY

Entomologia Experimentalis et Applicata Pub Date : 2024-03-20 DOI:10.1111/eea.13435

Liliana Valverde, Guido A. Van Nieuwenhove, Eduardo G. Virla

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Abstract

Soybean, Glycine max (L.) Merr. (Fabaceae), is one of the most important crops worldwide, but caterpillars of various species (Lepidoptera) may greatly reduce its annual yield. Nowadays, the main method of controlling these pest species is based on the use of broad-spectrum insecticides, which are harmful to human health and increase environmental contamination. Therefore, other sustainable methods of control, such as biological control, are in increasing demand. The present study aimed to identify the egg parasitoid species that attack lepidopterans defoliating soybeans in South America's subtropical regions, as well as evaluate their effectiveness at various stages of soybean development. The research was conducted in a commercial soybean field (80 ha) located in Tucumán, Argentina, which was surrounded by wild vegetation as a way to promote biological control. Every week, throughout three consecutive soybean seasons, 20 soybean plants were randomly selected and brought to the laboratory in search of lepidopteran eggs. Over the course of the three crop seasons, the soybean plants were attacked by Anticarsia gemmatalis Hübner (Erebidae), Rachiplusia nu (Guenée), and Chrysodeixis includens (Walker) (both Noctuidae). Six egg parasitoid species were identified, but only three of them were frequently found during the current study. Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) was the most predominant species attacking all lepidopteran pests across all soybean phenological stages. Encarsia porteri (Mercet) (Hymenoptera: Aphelinidae) preferred to attack R. nu eggs, whereas Telenomus cyamophylax Polaszek (Hymenoptera: Scelionidae) parasitized only A. gemmatalis and R. nu eggs. Despite the use of insecticides in the soybean field, the parasitism rates recorded were high. This suggests that using conservation tactics such as native vegetation patches and surrounding alternative crops may result in higher rates of natural control.

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阿根廷亚热带产区鳞翅目大豆落叶害虫的卵寄生虫群落及其防治效果

大豆（Glycine max (L.) Merr.）（豆科）是世界上最重要的农作物之一，但各种类型的毛虫（鳞翅目）可能会大大降低其年产量。目前，控制这些害虫的主要方法是使用广谱杀虫剂，但这些杀虫剂对人类健康有害，而且会加剧环境污染。因此，对生物防治等其他可持续控制方法的需求越来越大。本研究旨在确定在南美洲亚热带地区攻击使大豆落叶的鳞翅目昆虫的卵寄生虫种类，并评估它们在大豆发育不同阶段的效果。研究是在阿根廷图库曼的一块商业大豆田（80 公顷）中进行的，这块大豆田被野生植被包围，以促进生物防治。在连续三个大豆收获季节中，每周随机选取 20 株大豆植株带到实验室寻找鳞翅目昆虫卵。在这三个作物季节中，大豆植株受到了 Anticarsia gemmatalis Hübner（Erebidae）、Rachiplusia nu（Guenée）和 Chrysodeixis includens（Walker）（均为夜蛾科）的攻击。共鉴定出六种卵寄生虫，但在本次研究中只有三种经常被发现。Trichogramma pretiosum Riley（膜翅目：Trichogrammatidae）是在大豆所有物候期攻击所有鳞翅目害虫的最主要物种。Encarsia porteri（Mercet）（膜翅目：Aphelinidae）喜欢攻击 R. nu 的卵，而 Telenomus cyamophylax Polaszek（膜翅目：Scelionidae）只寄生于 A. gemmatalis 和 R. nu 的卵。尽管在大豆田里使用了杀虫剂，但记录到的寄生率还是很高。这表明，使用原生植被补丁和周围替代作物等保护策略可能会提高自然控制率。

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来源期刊

Entomologia Experimentalis et Applicata 生物-昆虫学

CiteScore

3.90

自引率

5.30%

发文量

138

审稿时长

4-8 weeks

期刊介绍： Entomologia Experimentalis et Applicata publishes top quality original research papers in the fields of experimental biology and ecology of insects and other terrestrial arthropods, with both pure and applied scopes. Mini-reviews, technical notes and media reviews are also published. Although the scope of the journal covers the entire scientific field of entomology, it has established itself as the preferred medium for the communication of results in the areas of the physiological, ecological, and morphological inter-relations between phytophagous arthropods and their food plants, their parasitoids, predators, and pathogens. Examples of specific areas that are covered frequently are: host-plant selection mechanisms chemical and sensory ecology and infochemicals parasitoid-host interactions behavioural ecology biosystematics (co-)evolution migration and dispersal population modelling sampling strategies developmental and behavioural responses to photoperiod and temperature nutrition natural and transgenic plant resistance.