Can heteronomous hyperparasitoids recognize host abundance and adjust offspring ratio?

IF 5.6 1区农林科学 Q1 ENTOMOLOGY

Entomologia Generalis Pub Date : 2024-09-05 DOI:10.1127/entomologia/2024/2508

Xiao-Ming Man, Li-Ying Sun, Frédéric Francis, Nian-Wan Yang, Wan-Xue Liu

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Abstract

Sex ratio is crucial in the reproductive dynamics of bisexual insects. In the Aphelinidae family, heteronomous hyperparasitoids like Encarsia sophia show distinct behaviors where females (from fertilized eggs) target primary hosts, and males (from unfertilized eggs) parasitize secondary hosts. This sex determination pattern means that host resource abundance significantly impacts sex ratio, affecting population dynamics. However, the sex distribution of these parasitoids remains a topic of debate. This study examined E. sophia targeting Bemisia tabaci, adjusting host densities (30, 50, 70 hosts/9.6 cm²) and secondary host ratios (0.2, 0.5, 0.8). Females were observed for recognition of varying host conditions and adjustments in offspring sex ratio and behavior. When ratio of secondary hosts surpassed that of primary hosts or in cases of low host density (host limitation), E. sophia’s offspring sex ratio adapted according to the relative abundance of primary and secondary hosts. Conversely, with low secondary host ratios (< 0.5) and higher host density, the sex ratio approached 1:1. Observations showed that females quickly perceived host density, increasing oviposition on secondary hosts with higher density, resulting in more males, and increasing feeding on primary hosts, reducing female offspring. Importantly, by examining oviposition and feeding under different host resource conditions, we identified the optimal rearing strategy: a secondary host ratio of 0.2 and a host density of 30 hosts/9.6 cm². This study not only introduces the sex ratio theory for heteronomous hyperparasitoids but also provides a framework for more accurately assessing their environmental adaptability and for large-scale production.

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异源寄生虫能否识别宿主的丰度并调整后代比例？

性别比例对双性昆虫的繁殖动态至关重要。在 Aphelinidae 科中，像 Encarsia sophia 这样的异性超寄生虫表现出独特的行为：雌性（来自受精卵）以主要寄主为目标，雄性（来自未受精卵）寄生于次要寄主。这种性别决定模式意味着寄主资源的丰富程度会对性别比例产生重大影响，从而影响种群动态。然而，这些寄生虫的性别分布仍是一个争论不休的话题。本研究考察了针对烟粉虱的 E. sophia，调整了寄主密度（30、50、70 个寄主/9.6 平方厘米）和次要寄主比率（0.2、0.5、0.8）。观察雌虫对不同寄主条件的识别以及对后代性别比例和行为的调整。当次要寄主比例超过主要寄主比例或寄主密度较低时（寄主限制），诡唇娥的后代性别比例会根据主要寄主和次要寄主的相对丰度进行调整。相反，在次要寄主比率较低（< 0.5）和寄主密度较高的情况下，性别比接近 1:1。观察结果表明，雌虫很快就能感知寄主密度，在密度较高的次要寄主上增加产卵，从而产生更多的雄虫，并增加对主要寄主的取食，减少雌虫的后代。重要的是，通过研究不同寄主资源条件下的产卵和取食情况，我们确定了最佳饲养策略：次要寄主比率为0.2，寄主密度为30个/9.6平方厘米。这项研究不仅介绍了异源超寄生虫的性别比理论，还为更准确地评估其环境适应性和大规模生产提供了一个框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Entomologia Generalis 生物-昆虫学

CiteScore

7.10

自引率

18.80%

发文量

审稿时长

>12 weeks

期刊介绍： Its scope covers all aspects of basic and applied research dealing with insects and more broadly with arthropods inhabiting wild, agricultural and/or urban habitats. The journal also considers research integrating various disciplines and issues within the broad field of entomology and ecology. Entomologia Generalis publishes high quality research articles on advances in knowledge on the ecology and biology of arthropods, as well as on their importance for key ecosystems services, e.g. as biological control and pollination. The journal devotes special attention to contributions providing significant advances (i) on the fundamental knowledge and on sustainable control strategies of arthropod pests (including of stored products) and vectors of diseases, (ii) on the biology and ecology of beneficial arthropods, (iii) on the spread and impact of invasive pests, and (iv) on potential side effects of pest management methods. Entomologia Generalis welcomes review articles on significant developments in the field of entomology. These are usually invited by the editorial board, but proposals may be sent to the Editor-in-Chief for preliminary assessment by the editorial board before formal submission to the journal. The journal also considers comments on papers published in Entomologia Generalis, as well as short notes on topics that are of broader interest.