Male approach to pupae in the yellow butterfly,Eurema hecabe

Journal of Ethology -     

Female mating biases for bright ultraviolet iridescence in the butterfly Eurema hecabe (Pieridae)

Exaggerated male-limited coloration is widespread among butterflies,yet convincing demonstrations of intraspecific mating preferencesfor signal brightness and/or chromaticity are relatively rarein this group. Here, I couple behavioral experiments involvingmanipulations of ambient light environments and male reflectancepatterns with observation of wild mating patterns to investigatevisual mating biases in the large grass yellow (Eurema hecabe).Males in this species possess exaggerated, limited-view ultraviolet(UV) iridescence across most of their dorsal wing surface thathas putative sexual signaling function. In the first experiment,conducted in small (0.7–m³) cages, individuals were significantlyless likely to copulate when the UV portion of natural ambientillumination (i.e., 300–400 nm) was strongly reduced.In 2 subsequent experiments, conducted under full-spectrum sunlightin small and large (5 x 6 x 4 m) cages, males with their UVsignal artificially dulled by 25% consistently copulated withfewer, and smaller, females than sham-control individuals. Importantly,the manipulated levels of UV brightness in these experimentsfall well within the naturally occurring bounds of variationin male UV reflectance. These findings therefore unanimouslysupport the presence of a UV signal–based female bias.In apparent contrast, comparison of 161 in-copula and 188 free-flyingmales from a high-density field assemblage revealed that copulatingmales were significantly older and henceforth actually possessed(subtly) less UV bright wings. Copulating male UV brightnesswas, however, positively related to the size of their mate,which echoes the experimental findings and may represent a signatureof mutual mate choice. I discuss these results in light of thefull complexities of the butterfly mating system and the potentialsignaling value of iridescent coloration in butterflies andanimals generally.     

Multiple infection with Wolbachia inducing different reproductive manipulations in the butterfly Eurema hecabe

Wolbachia are rickettsial intracellular symbionts of arthropods and nematodes. In arthropods, they act as selfish genetic elements and manipulate host reproduction, including sex-ratio distortion and cytoplasmic incompatibility (CI). Previous studies showed that infection of feminizing Wolbachia and CI Wolbachia sympatrically occurred in the butterfly Eurema hecabe. We demonstrate that feminization-infecting individuals can rescue sperm modified by CI-infecting males. Phylogenetic analysis revealed that feminized individuals are infected with two distinct Wolbachia strains: one is shared with CI-inducing matrilines, and the other is only found in feminized matrilines. Therefore, the simultaneous double manipulation, CI rescue and feminization, is caused by different Wolbachia strains in feminized individuals, not by a single Wolbachia with two functions. This is the first finding of double infection of Wolbachia with different reproductive manipulations.     

Role of photoperiod and temperature in seasonal morph determination of the butterfly Eurema hecabe

ABSTRACT. Environmental cues affecting seasonal morph determination of the pierid butterfly Eurema hecabe L. were examined in laboratory experiments and in the field. A sexual difference exists in the photoperiodic response for seasonal morph determination: in short days at 25C the proportion of the autumn morph is higher in females than in males, and as the rearing temperature is decreased the proportion of autumn morphs increases in both sexes. A 5C drop in temperature during the final larval stadium induces 100% autumn morph production in short-day animals. This increase in autumn morph production induced by temperature decrease explains the seasonal morph change of this butterfly occurring in early autumn in the field. The role of this sex-linked photoperiodic response is discussed as a seasonal strategy of reproduction.     

Control of reproduction and a survival cost to mating in female Bicyclus anynana butterflies

Abstract.  1. Given that sexual conflict is all pervasive, investigating potential costs to mating and the control of female reproduction are important issues.
2. Here, female reproductive output and longevity are investigated in relation to mating status (virgin vs. once-mated females) and host-plant availability in the tropical butterfly Bicyclus anynana .
3. Both factors significantly affected realised fecundity in a manner demonstrating that female reproduction is not entirely under control of the female herself, but is rather subject to additive contributions of the female, her male partner, and intrinsic physiological processes. As evident from the deposition of significant egg numbers by virgin, host-deprived females, B. anynana is effectively unable to completely inhibit oogenesis.
4. Mated females suffered a reduction in adult life span, which cannot be explained as a side-effect of variation in egg size, lifetime, or early fecundity.
5. Such detrimental effects of mating per se are indicative of the cooperation–conflict balance between sexes being shifted towards conflict in B. anynana .     

A natural population of the butterfly Eurema hecabe with Wolbachia-induced female-biased sex ratio not by feminization.

In butterflies, the adult sex ratio observed in the field is usually male-biased, although the sex ratio of their progeny is 1:1. This is due to the higher motility and larger behavioral range of males than females. As expected, the sex ratio of Eurema hecabe butterflies collected at 6 localities throughout Japan was male-biased. However, in Tsukuba, located in the central part of Japan, the sex ratio was found to be biased toward females. Their progeny reared in the laboratory also exhibited a female-biased sex ratio. A single strain of Wolbachia is considered to be the cause of the sex-ratio distortion, because antibiotic treatment reversed the sex ratio to 1:1, and only a single nucleotide sequence of wsp, a highly variable Wolbachia gene, was detected by molecular analysis. Cytogenetic analysis excluded the possibility of feminization as the underlying mechanism. In addition, when the wild-caught females that had already mated in nature were treated with antibiotics before oviposition, egg-hatch rates were extremely low, suggesting that the same Wolbachia strain also caused cytoplasmic incompatibility. Our findings suggest the possibility that a single strain of Wolbachia induces 2 distinct reproductive manipulations in the same host.     

A survival cost to mating in a polyandrous butterfly, Colias eurytheme

Adaptations that enhance fitness in one sex may be harmful to members of the opposite sex and lead to antagonistic coevolution between the sexes. In fruit flies, for example, selection for fertilization success has rendered the male ejaculate slightly toxic to females. Here we investigated whether mating imposes a cost upon female fitness in a polyandrous pierid butterfly ( Colias eurytheme ) by comparing life history traits between once-mated females and virgins. Mated females laid relatively more eggs early in their adult life, but suffered a reduction in longevity relative to virgins held under identical experimental conditions. The effect of mating on female survivorship was statistically independent of lifetime and early life fecundity. Moreover, lifetime fecundity co-varied positively with longevity across all females, and across females within each treatment group, hence there was no phenotypic trade-off between survival and reproduction. These results suggest that the observed longevity difference between virgin and mated females represents a true cost of mating, possibly arising from a toxic side effect of the male ejaculate. However, irrespective of this cost, virgin and mated females laid an equivalent lifetime number of eggs. Female C. eurytheme are also known to use nutrients from the male ejaculate to supplement their reproductive output, hence it is presently unclear how the observed longevity cost may have influenced the evolution of lifetime mating schedules in this polyandrous species.     

Unexpected mechanism of symbiont-induced reversal of insect sex: feminizing Wolbachia continuously acts on the butterfly Eurema hecabe during larval development

When the butterfly Eurema hecabe is infected with two different strains (wHecCI2 and wHecFem2) of the bacterial endosymbiont Wolbachia, genetic males are transformed into functional females, resulting in production of all-female broods. In an attempt to understand how and when the Wolbachia endosymbiont feminizes genetically male insects, larval insects were fed an antibiotic-containing diet beginning at different developmental stages until pupation. When the adult insects emerged, strikingly, many of them exhibited sexually intermediate traits in their wings, reproductive organs, and genitalia. The expression of intersexual phenotypes was strong in the insects treated from first instar, moderate in the insects treated from third instar, and weak in the insects treated from fourth instar. The insects treated from early larval instar grew and pupated normally but frequently failed to emerge and died in the pupal case. The dead insects in the pupal case contained lower densities of the feminizing Wolbachia endosymbiont than the successfully emerged insects, although none of them were completely cured of the symbiont infection. These results suggest the following: (i) the antibiotic treatment suppressed the population of feminizing Wolbachia endosymbionts; (ii) the suppression probably resulted in attenuated feminizing activity of the symbiont, leading to expression of intersexual host traits; (iii) many of the insects suffered pupal mortality, possibly due to either intersexual defects or Wolbachia-mediated addiction; and hence (iv) the feminizing Wolbachia endosymbiont continuously acts on the host insects during larval development for expression of female phenotypes under a male genotype. Our finding may prompt reconsideration of the notion that Wolbachia-induced reproductive manipulations are already complete before the early embryonic stage and provide insights into the mechanism underlying the symbiont-induced reversal of insect sex.     

Sex-specific response to nutrient limitation and its effects on female mating success in a gift-giving butterfly

Animals with complex life cycles respond to early food limitation by altering the way resources are allocated in the adult stage. Response to food limitation should differ between males and females, especially in organisms whose mating systems include nutritional nuptial gifts. In these organisms, males are predicted to keep their allocation to reproduction (sperm and nuptial gift production) constant, while females are predicted to sacrifice allocation to reproduction (egg production) since they can compensate by acquiring nuptial gifts when mating. In this study, we investigated how dietary nitrogen limitation during the larval stage affects sex-specific resource allocation in Pieris rapae butterflies. Also, we tested whether nutrient-limited females increased nuptial gift acquisition as a way to compensate for low allocation to reproduction. We found that as predicted females, but not males, sacrifice allocation to reproduction when larval dietary nitrogen is limited. However, females were unable to compensate for this low reproductive allocation by increasing their mating rate to acquire additional gifts. Females reared on low nitrogen diets also reduced wing coloration, a potential signal of female fecundity status. We suggest that female mating frequency is constrained by male mate choice based on females’ wing coloration. This study provides new insights into how larval dietary nitrogen, a key nutritional resource for all herbivores, alters male and female allocation to reproduction as well as to ornamentation.     

宽边黄粉蝶(Eurema hecabe)基因组Survey分析

宽边黄粉蝶(Eurema hecabe)是重要的传粉昆虫,广布于非洲热带区、东洋区、澳洲区及古北区东部,具有较高的学术价值和经济意义。为了深入研究其广泛适应性,确定适合该蝴蝶的全基因组的测序研究策略,我们首先做低覆盖度的基因组Survey测序,然后做大规模的全基因组深度测序。采用第二代高通量的测序技术作为该研究的研究方法,测定了宽边黄粉蝶基因组大小,并利用生物信息学方法估计该种的杂合率、重复序列和GC含量等基因组信息。结果表明:(1)宽边黄粉蝶的基因组大小估计为285.34 Mb,测序深度51×;(2)从K-mer分布曲线发现黄粉蝶基因组有明显的杂合峰,杂合率达1.97%,重复序列比例为35.37%。该研究结果对于揭示宽边黄粉蝶物种的起源和进化及适应性具有重要意义,为宽边黄粉蝶选择全基因组测序策略提供依据。     

Naturally occurring single and double infection with Wolbachia strains in the butterfly Eurema hecabe: transmission efficiencies and population density dynamics of each Wolbachia strain

Wolbachia belonging to Alphaproteobacteria are transovarially transmitted bacteria responsible for reproductive alterations in a wide range of arthropods. In natural populations of the butterfly Eurema hecabe, there are two different types of Wolbachia-infected individuals. Individuals singly infected with Wolbachia strain wHecCI exhibit strong cytoplasmic incompatibility, whereas those doubly infected with wHecCI and wHecFem exhibit feminization. Here, we examined the infection frequencies and population densities of each Wolbachia strain in different host tissues (ovary, testis, fat body, midgut, Malpighian tubule and leg), and the cost of infection in offspring produced by single-infected and double-infected mothers of E. hecabe. The vertical transmission rate of wHecCI was nearly 100%, and that of wHecFem was c. 80%. The wHecCI densities were 10(3)-10(4)-fold higher than the wHecFem densities. In most tissues, the wHecCI densities were significantly higher in offspring of single-infected mothers than in offspring of double-infected mothers. In offspring of double-infected mothers, however, the wHecCI densities were not affected by the presence of wHecFem, suggesting a lack of interaction between the wHecCI and wHecFem densities. The offspring development time was dependent on the infection status of the mothers. These results imply that the maternal infection status affects the Wolbachia densities and fitness of offspring.     

Wolbachia‐induced feminisation newly found in Eurema hecabe,a sibling species of Eurema mandarina (Lepidoptera: Pieridae)

1. Complete feminisation of genetic males into functional females, a unique case among insects, is known in Eurema mandarina (former Eurema hecabe Y type) that are infected with two strains of Wolbachia, wCI^Em and wFem^Em. 2. Here, we newly found that a proportion of wild‐caught E. hecabe (former E. hecabe B type) produced only female offspring. Cytogenetic observations indicated that individuals of E. hecabe displaying the all‐female trait were genetically male (i.e. feminisation). 3. Multilocus sequence typing analyses demonstrated that the feminised individuals of E. hecabe were infected with two Wolbachia strains, wCI^Eh and wFem^Eh, that were indistinguishable from wCI^Em and wFem^Em, respectively. 4. Even identical strains of Wolbachia can be regulated differently depending on the host genetic background. Therefore, we compared the infection densities and vertical transmission efficiencies of Wolbachia between feminised E. mandarina and E. hecabe, but detected no significant differences in these traits. 5. The possible routes by which the two Wolbachia strains have transferred between E. mandarina and E. hecabe are discussed.     

Delayed mating and reproduction in the autumn gum moth Mnesampela privata

• 1 The success of mating disruption using synthetic sex pheromones depends not only on preventing mating, but also on delaying mating in the target insect. Using the geometrid pest of Eucalyptus plantations, Mnesampela privata (Guenée), we determined the effect of delaying mating when imposed on males only, females only or on both sexes simultaneously, for 1, 3, 5 and 7 days.
• 2 Delayed mating had a significant negative impact on reproduction, with a 0.89‐fold decrease in the likelihood of mating and a 0.67‐fold decrease in the likelihood of that mating resulting in fertile eggs for every day that mating is delayed. A mating delay of 7 days reduced the mean number of viable eggs laid to 4–13% of that laid by moths paired immediately after emergence.
• 3 Male only imposed mating delays had a significantly lower effect on reducing the likelihood of pairs mating than when both sexes were delayed. A delay imposed on one sex only or on both sexes simultaneously, however, had a similar negative impact on the proportion of fertile matings as well as on the total number of fertile eggs laid.
• 4 Longevity of mated female and male M. privata was significantly different between mating delay treatments, with a significant decline in female longevity when they mated with older males.
• 5 The underlying mechanisms causing a decline in female reproductive output when a mating delay was imposed on males versus females are discussed in relation to the reproductive biology of M. privata and the potential of using mating disruption strategies to control populations in Eucalyptus plantations.

     

Delayed female reproduction in equilibrium and chaotic populations

Behavioural and life history polymorphisms are often observed in animal populations. We analyse the timing of maturation and reproduction in risky and resource-limited environments. Field and laboratory evidence suggests that female voles and mice, for example, can adjust their breeding according to the level of risk to their own survival and to survival probabilities and recruitment of young produced under different environmental conditions. Under risky or harsh conditions breeding can be postponed until later in the current breeding season or even to the next breeding season. We develop a population dynamics and life history model for polymorphism in reproduction (co-existence of breeding and non-breeding behaviours) of females in an age-structured population, with two temporally distinct mating events within the breeding season. We assume that, after overwintering, the females can breed in spring and again in summer or they can delay breeding in spring and breed in summer only. Young females born in spring can either mature and breed in summer or stay immature and postpone breeding over the winter to the next breeding season. We show that an evolutionarily stable breeding strategy is either an age-structured combination of pure breeding behaviours (old females breed and young delay maturity) or a mixed breeding behaviour within age-classes (a fraction of females breed and the rest of the age class postpones breeding). Co-occurrence of mixed reproductive behaviour in spring and summer within a single breeding season is observed in fluctuating populations only. The reproductive patterns depend on intraspecific, possibly interspecific, and ecological factors. The density dependence (e.g. social suppression) and predation risk are shown to be possible evolutionary mechanisms in adjusting the relative proportions of the different but co-existing reproductive behaviours.     

韭菜迟眼蕈蚊雄虫日龄对其交配能力和雌虫生殖力的影响

为了提高韭菜迟眼蕈蚊性信息素监控水平,本文在25℃、RH70%±5%、光周期L∶D=14∶10的条件下研究韭菜迟眼蕈蚊不同日龄雄虫的交配能力及其对雌虫生殖力的影响。结果表明,未交配雄虫平均寿命4.5d,雌虫4.2d,雌雄成虫的平均寿命无显著差异。雄虫一生最多可交配13次,且随着雄虫日龄增加,雌虫交配成功率逐渐减少。随着雄虫交配经历的增加,雌虫交配的时间延长,最长达97min。雄虫的日龄并不影响与之交配雌虫的产卵量和卵孵化率,但是雄虫的交配经历与雌虫的产卵量和卵孵化率相关,尤其当雄虫交配经历超过8次时,与之交配的雌虫的产卵量和卵孵化率显著下降。研究阐明了韭菜迟眼蕈蚊的生殖行为特征,为其性信息素应用提供了参考。     

Low cost of reproduction in female stalk-eyed flies, Cyrtodiopsis dalmanni

We investigated the effect of exposure to males on female longevity and egg production in the stalk-eyed fly, Cyrtodiopsis dalmanni. In this species, females typically mate several times each morning over a lifetime that can span several months. We hypothesised that high costs of mating with males would be incompatible with the life history of this species. We predicted that 1) female longevity costs of exposure to males would be low, and 2) that the magnitude of mating-induced fecundity increases in C. dalmanni, if present, would also be low. We tested the predictions by comparing the longevity and lifetime fecundity of virgin and mated females. In line with prediction 1), the longevity difference between virgin and fully reproductive females was small and of borderline significance. In line with prediction 2), egg production was not significantly higher in females continually exposed to males than for virgin females. Our results suggest that costs of reproduction resulting from exposure to males are low in species that mate promiscuously at high rates.     

Effects of adult-derived carbohydrates, amino acids and micronutrients on female reproduction in a fruit-feeding butterfly

It is generally believed that butterflies (and other holometabolous insects) rely primarily on reserves accumulated during the larval stage for reproduction, whereas the carbohydrate-rich adult diet is thought to mainly cover energy requirements. In at least some species though, realization of the full reproductive potential is extensively affected by post-eclosion nutrition. While the importance of carbohydrates is fairly well understood, the role of adult-derived amino acids and micronutrients is controversial and largely unknown, respectively. We here focus on the effects of different adult diets on female reproduction in the tropical, fruit-feeding butterfly Bicyclus anynana (Nymphalidae). Carbohydrates were the most important adult-derived nutrients affecting reproduction. Adding amino acids, vitamins or minerals to sucrose-based solutions did not yield a reproductive output equivalent to that of fruit-fed females, which showed the highest performance throughout. This suggests that either not yet identified compounds of fruit substantially contribute to reproduction, or that resource congruence (the use of nutrient types in a specified ratio) rather than any specific nutrient component is of key importance. Apart from adult income, realized fecundity depended on egg size and longevity, with the former dominating when dietary quality was low, but the latter when quality was high. Thus, the egg size-number trade-off seems to be affected by female nutrition.