Mate Discrimination of Colocasiomyia xenalocasiae and C. alocasiae (Diptera: Drosophilidae) as a Possible Factor Contributing to their Co-Existence on the Same Host Plant

IF 1 3区 农林科学 Q3 ENTOMOLOGY Journal of Insect Behavior Pub Date : 2022-06-12 DOI:10.1007/s10905-022-09798-0
Ryoya Tanaka, Hiroki Takekata, Yuki Ishikawa, Azusa Kamikouchi
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Abstract

Mate discrimination contributes to the co-existence of related species by reducing the risk of interspecific copulation. In pollination mutualistic systems where pollinators utilize host plants as mating places, sharing of host plants with other related species could increase non-adaptive interspecific copulation. Although such host-sharing species are expected to have strong mate discrimination systems, little is known about whether and how they discriminate species for mating. Here, we investigate mate discrimination of two fly species, Colocasiomyia xenalocasiae and C. alocasiae (Diptera: Drosophilidae), which share host plants; they are essentially anthophilous, depending exclusively on specific aroid host plants throughout their entire life cycles. Our field observations showed that the males of C. alocasiae and C. xenalocasiae preferentially paired with conspecific, but not heterospecific, females. This indicates that they discriminate species for mating in the natural habitat. Such mate discrimination was also observed under laboratory conditions. To investigate how these flies discriminate species, we defined distinct behavioral elements in courtship sequence in both species, and compared sexual interactions in each element between conspecific and heterospecific pairs. We found that males discriminate female whilst tapping, whereas females discriminate male before or during males’ attempted mounting. This suggests that mate discrimination systems in both males and females reduce the incidence of heterospecific mounting; mounting is a necessary step in the sequence of courtship for successful copulation. The mate discrimination system found in this study potentially allows for the co-existence of C. xenalocasiae and C. alocasiae on the same host plant by effectively suppressing interspecific copulation.

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异种野猫蝇和野猫蝇(双翅目:果蝇科)在同一寄主植物上共存的可能因素
配偶歧视通过降低种间交配的风险,有助于相关物种的共存。在授粉互惠系统中,传粉者利用寄主植物作为交配场所,与其他相关物种共享寄主植物可能会增加非适应性种间交配。虽然这样的寄主共享物种被认为具有强烈的配偶歧视系统,但人们对它们是否以及如何在交配时歧视物种知之甚少。本文研究了共享寄主植物的两种蝇类——异种巨蝇(Colocasiomyia xenalocasiae)和巨蝇(C. alocasiae)的配偶识别;它们基本上是嗜花植物,在整个生命周期中完全依赖于特定的避免宿主植物。我们的野外观察表明,白花蓟马和异花蓟马的雄性偏好与同种而非异种的雌性配对。这表明它们在自然栖息地对物种进行交配区分。在实验室条件下也观察到这种配偶歧视。为了研究这些果蝇是如何区分物种的,我们定义了两种果蝇求偶过程中不同的行为因素,并比较了同种和异种果蝇在每个因素中的性互动。我们发现雄性在轻拍时歧视雌性,而雌性在雄性试图上马之前或过程中歧视雄性。这表明雄性和雌性的配偶歧视系统降低了异种繁殖的发生率;攀爬是求爱过程中成功交配的必要步骤。本研究中发现的配偶歧视系统通过有效抑制种间交配,可能允许异种假单胞菌和假单胞菌在同一寄主植物上共存。
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来源期刊
Journal of Insect Behavior
Journal of Insect Behavior 生物-昆虫学
CiteScore
1.50
自引率
0.00%
发文量
16
审稿时长
6-12 weeks
期刊介绍: Journal of Insect Behavior offers peer-reviewed research articles and short critical reviews on all aspects of the behavior of insects and other terrestrial arthropods such as spiders, centipedes, millipedes, and isopods. An internationally renowned editorial board discusses technological innovations and new developments in the field, emphasizing topics such as behavioral ecology, motor patterns and recognition, and genetic determinants.
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