毛纹蝶的假头和性行为(鳞翅目:蛱蝶科)

IF 1.3 3区 农林科学 Q2 Agricultural and Biological Sciences
C. Medina, C. Cordero
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引用次数: 0

摘要

在一些蝴蝶中,当蝴蝶闭着翅膀栖息时,后翅的后端就像蝴蝶的头。有证据表明,这种“假头”(FH)使捕食者的攻击转向了身体的非重要部位。如果FH能够保护蝴蝶免受捕食者的伤害,那么单个蝴蝶的FH状况就可以为未来的配偶提供有关其质量的信息。在配对实验中,我们通过比较具有完整FH和具有切除FH的Callophrys xami (Lycaenidae)雌性的交配概率、交配持续时间和射精大小来验证基于这一想法的两个假设。FH的缺失对交配的可能性没有影响,但是FH切除的雌性交配时间更长,射精量更大,这支持了雄性更喜欢FH受损的雌性的假设,因为这显示了雌性逃避攻击的能力。男性或女性(或两者都有)的隐性选择也可以解释我们的结果,但需要更多的研究来验证这一点。*通讯作者;骗术在自然界是普遍存在的(Wickler, 1968;Ruxton et al., 2004;Howse, 2014;史蒂文斯,2016)。在一些物种中,一些个体提供了误导性的信息,导致他们的健康收益和“被欺骗”的生物的健康成本(Ruxton et al., 2014;史蒂文斯,2016)。一个典型的欺骗例子是“假头”存在于许多蝴蝶科的蝴蝶物种中(罗宾斯,1980)。在这些物种中,后翅的后端类似于蝴蝶的头部,它的翅膀是关闭栖息。这种相似性通过特定的行为得到加强,例如后翅的前后运动,帮助后翅的尾巴(“假天线”)模拟真实天线的运动(López-Palafox等人,2015)。这种假头(下文简称FH)被解释为一种适应,将捕食者的攻击转移到身体的非重要部位(Robbins, 1980;Cordero, 2001)。对这一观点只有两次实验测试,使用的是Lycaenidae的物种(Sourakov, 2013;López Palafox & Cordero, 2017),在一个案例中,结果与假设不一致(López Palafox & Cordero, 2017)。然而,关于捕食者攻击后翅失败的比较数据支持了这一预测。[j] .中国生物医学工程学报,2016,33 (2):394-398 . doi: 10.14411/eje.2021.040
本文章由计算机程序翻译,如有差异,请以英文原文为准。
False heads and sexual behaviour in a hairstreak butterfly, Callophrys xami (Lepidoptera: Lycaenidae)
In several butterfl ies, the posterior end of the hindwings resembles a butterfl y head when the butterfl y is perched with its wings closed. There is evidence that this “false head” (FH) defl ects predator attacks towards non-vital parts of the body. If the FH protects from visually oriented predators, its condition in an individual butterfl y could provide information about its quality to prospective mates. We tested two hypotheses based on this idea by comparing the probability of mating, duration of copulation and size of the ejaculate received by females of Callophrys xami (Lycaenidae) with an intact FH and those with an ablated FH in a paired experiment. The absence of a FH had no effect on the probability of mating, but females with an ablated FH copulated for longer and received larger ejaculates, which supports the hypothesis that males prefer females with damaged FHs because this reveals the female’s ability to defl ect attacks. Male or female (or both) cryptic choice could also account for our results, but more studies are needed to test this. * Corresponding author; e-mail: cordero@ecologia.unam.mx INTRODUCTION Deception is widespread in nature (Wickler, 1968; Ruxton et al., 2004; Howse, 2014; Stevens, 2016). In several species, some individuals provide misleading information that results in fi tness benefi ts for them and fi tness costs for the “tricked” organisms (Ruxton et al., 2014; Stevens, 2016). A classic example of deception is the “false head” present in many butterfl y species of the family Lycaenidae (Robbins, 1980). In these species, the posterior end of the hindwings resembles the head of a butterfl y that is perching with its wings closed. This resemblance is reinforced by specifi c behaviour, such as the back and forth movement of the hindwings that helps the hindwings tails (the “false antennae”) simulate the movements of real antennae (López-Palafox et al., 2015). This false head (FH hereafter) is explained as an adaptation that defl ects attacks from predators to non-vital parts of the body (Robbins, 1980; Cordero, 2001). There are only two experimental tests of this idea using species of Lycaenidae (Sourakov, 2013; López Palafox & Cordero, 2017), and in one case the results were inconsistent with the hypothesis (López Palafox & Cordero, 2017). However, comparative data on failed predator attacks on the hindwings support the predictions Eur. J. Entomol. 118: 394–398, 2021 doi: 10.14411/eje.2021.040
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来源期刊
CiteScore
2.30
自引率
7.70%
发文量
43
审稿时长
6-12 weeks
期刊介绍: EJE publishes original articles, reviews and points of view on all aspects of entomology. There are no restrictions on geographic region or taxon (Myriapoda, Chelicerata and terrestrial Crustacea included). Comprehensive studies and comparative/experimental approaches are preferred and the following types of manuscripts will usually be declined: - Descriptive alpha-taxonomic studies unless the paper is markedly comprehensive/revisional taxonomically or regionally, and/or significantly improves our knowledge of comparative morphology, relationships or biogeography of the higher taxon concerned; - Other purely or predominantly descriptive or enumerative papers [such as (ultra)structural and functional details, life tables, host records, distributional records and faunistic surveys, compiled checklists, etc.] unless they are exceptionally comprehensive or concern data or taxa of particular entomological (e.g., phylogenetic) interest; - Papers evaluating the effect of chemicals (including pesticides, plant extracts, attractants or repellents, etc.), irradiation, pathogens, or dealing with other data of predominantly agro-economic impact without general entomological relevance.
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