Prenuptial agreements: mating frequency predicts gift-giving in Heliconius species

Theory predicts that when males provision females with nuptial gifts that include nutrients, the degree of polyandry should be positively correlated with the size or quality of the gift. This is because larger and more nutritious gifts tend to increase female refractory period, reducing the chances the female will remate soon. This decreases the likelihood of sperm competiton and consequently increases the donor male fitness. Butterflies in the genus Heliconius Kluk (Lepidoptera: Nymphalidae: Heliconini) exhibit variable mating systems that include monandry and polyandry. In addition to protein in the spermatophore, males increase gift quality by providing females with cyanide, which may contribute to protection of the female or her eggs. We tested whether degree of polyandry and gift quality (spermatophore weight and cyanide content) were correlated in nine Heliconius species from greenhouse populations. As predicted, both spermatophore weight and cyanide content were correlated with mating frequency. This is the first report to show that degree of polyandry correlates with allocation of defensive chemical as part of a nuptial gift.     

Mating frequency and reproductive success in an income breeding moth,Mnesampela privata

The frequency of mating in insects is often an important determinant of female reproductive output and male sperm competition. In Lepidoptera that provide male nutrients to the female when mating, it is hypothesized that polyandry may be more prevalent. This is thought to be especially so among species described as income breeders; that is, in species who do not derive all their nutrients for reproductive output entirely from the resources obtained during the larval stage. We selected the geometrid moth, Mnesampela privata (Guenée) (Lepidoptera: Geometridae), to examine this hypothesis further. We found this species was best characterized as an income breeder with female weight on emergence positively correlated with total egg load but not with the number of eggs laid. Further, in accord with income breeders, females emerged with a partially developed egg load and lifetime fecundity was positively correlated with the number of oviposition days. However, in the laboratory we found that incidence of repeated matings or polyandry was rare. When moths were paired singly over their lifetime, only 4% of mated females multiple mated. When females were paired with three males concurrently, female mating success increased from 60 to 81% with multiple mating among mated females increasing to just 15%. Dissection of wild caught M. privata found that polyandry levels were also low with a maximum of 16.4% of females collected at any one time being multiple mated. In accord with theory, mating significantly increased the longevity of females, but not of males, suggesting that females acquire essential resources from male ejaculates. Despite this, multiple mated females showed a trend toward decreasing rather than increasing female reproductive output. Spermatophore size, measured on death of the female, was not correlated with male or female forewing length but was negatively correlated with the number of fertile eggs laid and female longevity. Smaller spermatophore width may be related to uptake of more nutrients by the female from a spermatophore. We discuss our findings in relation to income breeding and its relationship to polyandry in Lepidoptera.     

Evolution of Classical Polyandry: Three Steps to Female Emancipation

Abstract In classical polyandry, sex roles are reversed and a female reproduces with several males, each of whom raises his offspring with little or no help from her. This mating system occurs in some fishes and birds, and it is of great interest in relation to parental investment, sex role and sexual selection theory. The evolution of classical polyandry, however, is debated and not well understood. It is here suggested to generally take place in three main steps. (1) First evolves male care for eggs, for reasons that differ between fishes and birds. (2) Second, a female becomes able to lay more eggs than a male can accommodate. This can happen, for example, by evolution of male pregnancy or smaller body size, or by female production of more or larger eggs, made possible by larger female body size or more food. Polyandry in several taxa is associated with shift to a habitat rich in food during the breeding season, to novel specialised foraging methods, or to both. A favourable food situation may be crucial for evolution of classical polyandry. (3) In step three, females compete to lay two or more clutches in sequence for different males. Successful polyandrous females obtain more offspring, spreading traits that enhance success in competition over males. Step three may be most likely in species with small body size, for reasons of reproductive constraints and seasonality. Evolution of classical polyandry appears to have followed these steps in shorebirds, coucals and pipefishes, but the reasons why certain species differ from their close phylogenetic relatives in being polyandrous are far from clear. Behavioural and ecological studies of additional species, and detailed phylogenies of taxa with diverse mating systems including polyandry, are needed for testing these ideas.     

On the functional significance of juvenile hormone in the accessory sex glands of male Heliothis virescens

The storage of large quantities of juvenile hormone (JH) in male abdomens is a phenomenon known from some species of moths. Juvenile hormone, stored in male accessory sex glands (ASG), may be transferred to the female during copulation, but the physiological significance of the JH transfer remains unclear. Here, using the moth Heliothis virescens as a model, we show that JH transferred from male to the promiscuous female promotes JH synthesis and egg development in the female. We propose that this explains the functional significance of JH transfer in species that exhibit last male sperm precedence, and that this hormone acts as a bioactive substance which the first male to mate uses for co-opting and regulating the female's gonadotropic mechanisms, thereby ensuring that despite last male sperm precedence he will sire a significant number of viable offspring.     

Early manipulation of juvenile hormone has sexually dimorphic effects on mature adult behavior in Drosophila melanogaster

Hormones are critical for the development, maturation, and maintenance of physiological systems; therefore, understanding their involvement during maturation of the brain is important for the elucidation of mechanisms by which adults become behaviorally competent. Changes in exogenous and endogenous factors encountered during sexual maturation can have long lasting effects in mature adults. In this study, we investigated the role of the gonadotropic hormone, juvenile hormone (JH), in the modulation of adult behaviors in Drosophila. Here we utilized methoprene (a synthetic JH analog) and precocene (a JH synthesis inhibitor) to manipulate levels of JH in sexually immature male and female Drosophila with or without decreased synthesis of neuronal dopamine (DA). Locomotion and courtship behavior were assayed once the animals had grown to sexual maturity. The results demonstrate a sexually dimorphic role for JH in the modulation of these centrally controlled behaviors in mature animals that is dependent on the age of the animals assayed, and present DA as a candidate neuronal factor that differentially interacts with JH depending on the sex of the animal. The data also suggest that JH modulates these behaviors through an indirect mechanism. Since gonadotropic hormones and DA interact in mammals to affect brain development and later function, our results suggest that this mechanism for the development of adult behavioral competence may be evolutionarily conserved.     

BENEFITS OF MULTIPLE MATES IN THE CRICKET GRYLLUS BIMACULATUS

Despite the importance of polyandry for sexual selection, the reasons why females frequently mate with several males remain poorly understood. A number of genetic benefits have been proposed, based on the idea that by taking multiple mates, females increase the likelihood that their offspring will be sired by genetically more compatible or superior males. If certain males have intrinsically “good genes,” any female mating with them will produce superior offspring. Alternatively, if some males have genetic elements that are incompatible with a particular female, then she may benefit from polyandry if the sperm of such males are less likely to fertilize her eggs. We examined these hypotheses in the field cricket Gryllus bimaculatus (Orthoptera: Gryllidae). By allocating females identical numbers of matings but different numbers of mates we investigated the influence of number of mates on female fecundity, and both short- and long-term offspring fitness. This revealed no effect of number of mates on number of eggs laid. However, hatching success of eggs increased with number of mates. This effect could not be attributed to nongenetic effects such as the possibility that polyandry reduces variance in the quantity or fertilizing ability of sperm females receive, because a control group receiving half the number of copulations showed no drop in hatching success. Offspring did not differ in survival, adult mass, size, or development time with treatment. When males were mated to several different females there were no repeatable differences between individual males in the hatching success of their mate's eggs. This suggests that improved hatching success of polyandrous females is not due to certain males having genes that improve egg viability regardless of their mate. Instead, our results support the hypothesis that certain males are genetically more compatible with certain females, and that this drives polyandry through differential fertilization success of sperm from more compatible males.     

Juvenile hormone in earwigs: Roles in oogenesis,mating, and maternal behaviors

The role of juvenile hormone (JH) in courtship, mating, maternal behavior, and the ovarian cycle was studied in the ring-legged earwig, Euborellia annulipes (Lucas). The single, median corpus allatum makes and secretes JH III. JH III production was low in newly eclosed adult females, increasing as oocytes developed, maximal at about the time of oviposition, and low again in brooding females. Application of 35 or 122 μg JH III to newly eclosed females hastened the onset of courtship behavior, but had no effect on the age at which females first mated nor on the duration of mating, though the trend is toward advanced onset. Hormone treatment advanced the age of first oviposition and reduced clutch size and the proportion of eggs hatching but did not affect the interval from oviposition of the first clutch to oviposition of the second clutch, nor the size and proportion hatching of the second clutch. Acetone treatment and treatment with 6 μg JH III did not affect these parameters. Application of 50 μg JH III to females on the day of oviposition shortened the duration of maternal care and advanced the onset of the second gonadotropic cycle, compared with that of acetone-treated and precocene II-treated females. The duration of maternal care was positively correlated with the proportion of eggs hatching. JH titer analysis confirmed JH III to be the predominant hormone in this species and clearly demonstrated the absence of other homologues. This work also confirmed our hypothesis that intermediate to high levels of JH are associated with oocyte growth, mating, and cessation of maternal care; low levels of JH are associated with the period of maternal behavior and slow ovarian development. We are currently investigating factors which might regulate corpus allatum activity during the reproductive cycle and the subsequent period of maternal care. Arch. Insect Biochem. Physiol. 35:427–442, 1997. © 1997 Wiley-Liss, Inc.     

Evolutionary causes and consequences of sequential polyandry in anuran amphibians

Among anuran amphibians (frogs and toads), there are two types of polyandry: simultaneous polyandry, where sperm from multiple males compete to fertilize eggs, and sequential polyandry, where eggs from a single female are fertilized by multiple males in a series of temporally separate mating events, and sperm competition is absent. Here we review the occurrence of sequential polyandry in anuran amphibians, outline theoretical explanations for the evolution of this mating system and discuss potential evolutionary implications. Sequential polyandry has been reported in a limited number of anurans, but its widespread taxonomic and geographic distribution suggests it may be common. There have been no empirical studies that have explicitly investigated the evolutionary consequences of sequential polyandry in anurans, but species with this mating pattern share an array of behavioural, morphological and physiological characteristics, suggesting that there has been common sexual selection on their reproductive system. Sequential polyandry may have a number of adaptive benefits, including spreading the risk of brood failure in unpredictable environments, insuring against male infertility, or providing genetic benefits, either through good genes, intrinsic compatibility or genetic diversity effects. Anurans with sequential polyandry provide untapped opportunities for innovative research approaches that will contribute significantly to understanding anuran evolution and also, more broadly, to the development of sexual‐selection and life‐history theory.     

Insect juvenile hormone mimics: A structural basis for gonadotropic activity in a cockroach and a moth

Exogenously applied natural juvenile hormones (JH) and some synthetic JH mimetic substances resulted in dose-related gonadotropic responses and were able to fully substitute for the absence of endogenous JH in a moth and a cockroach. Aliphatic methyl and ethyl esters, thio esters, and amides were most active. Some aromatic JH mimics with high activity in morphogenetic assays on a variety of insects showed little activity in the gonadotropic bioassay. This suggests that the ovaries of the moth Manduca sexta and the cockroach Nauphoeta cinerea respond primarily to the intrinsic JH activity of the test substances.     

Polyandry across Behavioral Classes in Female Spruce Budworm

Reproduction in spruce budworm, Choristoneura fumiferana (Clem.) (Lepidoptera: Tortricidae), is characterized by sedentary oviposition in the natal forest patch early in life (gravid females are incapable of flight due to their heavy abdomen) followed by windborne migrations among females that have laid >50% of their eggs; the nature of migrations (facultative or obligatory) remains unknown. The incidence of polyandry (females with more than one spermatophore in their reproductive tract) was evaluated for several thousand field-collected female budworms (data professionally archived at Canadian Forest Service) using an array of sampling procedures that can be delineated along four behavioral classes: (1) resident females collected on host trees; (2) in-flight females captured while foraging in forest canopies; (3) migrant females captured above tree canopies; and (4) females collected postmortem on drop trays. Overall, polyandry increased over time (reflecting the ageing of local populations) and with female body size (likely due to male mating preference for large, most fecund females). Polyandry did not increase postmortem realized fecundity of females. The level of polyandry was lowest among migrants, intermediate for in-flight and resident females, and highest for naturally dead females. Sedentary reproduction among young female budworms may limit gene flow and increase the risk of inbreeding; a low level of polyandry among migrants may thus be due to females not only seeking novel habitats for their progeny but also mating partners that are not closely related genetically.     

Juvenile hormones: Their role in the regulation of the pheromonal communication system of the armyworm moth,Pseudaletia unipuncta

Recently, much effort has been devoted to the elucidation of the neuro-endocrine mechanisms regulating the biosynthesis and emission of sex pheromones in the Lepidoptera. The available data indicate that the hormonal mechanisms involved vary considerably among species. For example, compelling evidence that juvenile hormones (JH) play a role in the control of sex pheromone production has been presented only for the armyworm moth, Pseudaletia unipuncta. In this species, females that are allatectomized at emergence neither produce nor release pheromone, but both activities are restored following replacement therapy with synthetic JH. However, injection of synthetic JH into neck-ligated females does not induce pheromone biosynthesis, whereas treatment with either a brain homogenate or synthetic PBAN results in a rise in the pheromone titer. These results indicate that the role played by JH is an indirect one and that the tropic factor is a PBAN-like substance. Studies on in vitro JH biosynthesis by isolated corpora allata of P. unipuncta have shown that the low JH output observed early in the life of adult females coincides with the absence of both calling behavior and pheromone production. The subsequent increase in the rates of JH biosynthesis correlates with the onset of pheromone production and release. We have therefore proposed that JH titers must pass a threshold level before the circadian release of PBAN and calling behavior can begin. Furthermore, recent experiments suggest that the continuous presence of JH is necessary for calling behavior to be maintained once initiated. Lastly, we present data suggesting a role for JH or JH acids in the receptivity of P. unipuncta males to the female sex pheromone. © 1994 Wiley-Liss, Inc.     

Intergenerational effect of juvenile hormone on offspring in <Emphasis Type="Italic">Pogonomyrmex</Emphasis> harvester ants

Parents can influence the phenotypes of their offspring via a number of mechanisms. In harvester ants, whether female progeny develop into workers or daughter queens is strongly influenced by the age and temperature conditions experienced by their mother, which is associated with variation in maternal ecdysteroid deposition in fertilized eggs. In many insects, juvenile hormone (JH) is antagonistic to ecdysteroid release, suggesting that seasonal and age-based variation in maternal JH titers may explain maternal effects on offspring size and reproductive caste. To test this hypothesis, we artificially increased maternal JH titers with methoprene, a JH analog, in laboratory colonies of two Pogonomyrmex populations exhibiting genetic caste determination. Increasing maternal JH resulted in a 50% increase in worker body size, as well as a sharp reduction in total number of progeny reared, but did not alter the genotype of progeny reared to adulthood. The intergenerational effect of JH manipulation was not mediated by a reduction in ecdysteroid deposition into eggs; instead, changes in egg size, trophic egg availability or brood/worker ratio may have altered the nutritional environment of developing larvae. Egg ecdysteroid content was significantly negatively correlated with natural variation in worker body size, however, suggesting that there are multiple independent routes by which queens can modify offspring phenotypes.     

Aquatic eggs are fertilised by multiple males not engaged in amplexus in a stream-breeding frog

In anuran amphibians, multiple males amplexing a single female to fertilise her eggs has been found for less than 25 species, whereas matings without amplexus are known for less than five species. Here we provide a new example of simultaneous polyandry with multiple males not engaged in amplexus, in Feirana taihangnicus, a stream-dwelling, explosive breeder endemic to central China. Laboratory experiments showed that when one female was kept with one male in a vessel with elevated, flat stones, the female stood on her head with her swollen cloaca against the undersurface of the stone substrate to lay eggs (clutch size ranged from 371 to 533, n = 7 females). Then, 10–102 min after oviposition began, the male stood on his head and released sperm over the eggs distributed as a single layer on the stone surfaces. It took about 3 h for the female to finish oviposition and for the male to finish fertilisation. On average, 96% of eggs were fertilised. In natural oviposition habitats, stream sections with slow flowing, we observed that 1 up to 15 males (8.7 ± 6.6, n = 6 cases), none in amplexus, participated in fertilising the eggs deposited by a single female. Evolutionary implications of this unusual reproductive strategy remain to be explored.     

Copulation reduces male but not female longevity in Saltella sphondylli (Diptera: Sepsidae)

Mating more than once is extremely costly for females in many species, making the near ubiquity of polyandry difficult to understand. However, evidence of mating costs for males is much rarer. We investigated the effects of copulation on longevity of male and female flies (Saltella sphondylli). We also scrutinized potential fecundity and fertility benefits to females with differing mating history. Copulation per se was found to decrease the longevity of males but not that of females. However, when females were allowed to lay eggs, females that mated died earlier than virgin females, indicating costs of egg production and/or oviposition. Thus, although longevity costs of copulation are higher for males, reproduction is nevertheless costly for females. We also found no differences in fecundity or fertility relative to female mating history. Results suggest that polyandry may be driven by minor costs rather than by major benefits in this species.     

Influence of ecdysterone, precocene and compounds with juvenile hormone activity on induction, termination and maintenance of diapause in the parasitoid wasp, Nasonia vitripennis

ABSTRACT. Using the Galleria bioassay, no difference could be found between the JH titre of diapausing and developing Nasonia larvae. Compared to the values found in some Lepidoptera, the JH titres in Nasonia larvae are low, c. 14 Galleria units/g live weight. Induction of diapause could not be brought about by topical application of JH I, JH analogues, precocene, or ecdysterone to the maternal generation, nor by treating eggs or larvae with compounds with JH activity. Diapause was easily terminated by topical application of ecdysterone, however. If ecdysterone treatment was preceded by JH-treatment, the percentage of larvae terminating diapause was reduced: JH II seems to be more potent than JH I or JH III in this effect if the interval between JH and ecdysterone treatment is 72 h.     

A comparison of the morphogenetic and sterilizing activities of juvenile hormone mimics on Aedes aegypti

At 25°C, adult female aedes aegypti are most sensitive to sterilization by juvenile hormone (JH) mimics when such chemicals are applied 32 to 36 hr after the blood meal (when the ovaries are at late stage III to early stage IV). Application of JH mimics during this period reduces egg fertility and female fecundity and induces the production of large numbers of visually abnormal eggs. As the most sensitive phase for sterilization with JH mimics is well before oviposition, and as many abnormal eggs are laid following JH mimic treatment, it is likely that in this species sterilization effects are induced by some action on the developing oöcyte rather than on embryonic development.The relative activities of several JH mimics in sterilizing adult female A. aegypti are very similar to their relative activities in inhibiting metamorphosis. Thus the sterilizing action of JH mimics is likely to be a true JH effect and can be used as a test for JH activity for A. aegypti.     

Don'T put all your eggs in one nest: spread them and cut time at risk

Abstract In many egg-laying animals, some females spread their clutch among several nests. The fitness effects of this reproductive tactic are obscure. Using mathematical modeling and field observations, we analyze an unexplored benefit of egg spreading in brood parasitic and other breeding systems: reduced time at risk for offspring. If a clutch takes many days to lay until incubation and embryo development starts after the last egg, by spreading her eggs a parasitic female can reduce offspring time in the vulnerable nest at risk of predation or other destruction. The model suggests that she can achieve much of this benefit by spreading her eggs among a few nests, even if her total clutch is large. Field data from goldeneye ducks Bucephala clangula show that egg spreading enables a fecund female to lay a clutch that is much larger than average without increasing offspring time at risk in a nest. This advantage increases with female condition (fecundity) and can markedly raise female reproductive success. These results help explain the puzzle of nesting parasites in some precocial birds, which lay eggs in the nests of other females before laying eggs in their own nest. Risk reduction by egg spreading may also play a role in the evolution of other breeding systems and taxa-for instance, polyandry with male parental care in some birds and fishes.     

Hormonal control of egg maturation in the corn earworm, Heliothis zea

At eclosion, the ovaries of female Corn earworm Heliothis zea do not contain mature eggs. Virgin-unfed females produced approximately 400 mature eggs in 8 days; mating or feeding doubled this number, and mating plus feeding more than tripled it. Females allatectomized or decapitated at day O matured few eggs. Egg production was restored by implantation of active corpora allata (CA) or by treatment with the juvenile hormone (JH) analogue methoprene at day 0. 20-Hydroxyecdysone, on the other hand, had no effect. Females in which the CA had been denervated or in which the median neurosecretory cells of the brain had been ablated at day O produced fewer eggs than sham-operated animals. These results indicate that egg maturation is controlled by JH and that continuous input from the brain is required for sustained CA activity for maintaining a high rates of egg maturation.The rate of JH biosynthesis by CA in vitro was determined with a radiochemical assay. The major hormones produced were JH-II and JH-III with small quantities of JH-I. The rates of JH synthesis were similar in all experimental groups which may indicate that the in vitro rate of JH synthesis does not reflect the actual state of CA activity in the female.     

Different female mating rates in different populations do not reflect the benefits the females gain from polyandry in the adzuki bean beetle

The question why females in many species mate with several males (polyandry) has engaged the interest of evolutionary biologists for many years, and many studies have been conducted on the nature of the benefits that the females gain from polyandry. To understand the variation of female mating rates among species and populations it is indispensable to test the prediction that females of more polyandrous populations experience larger fitness benefit than those of less polyandrous populations. We compared the fitness components of two strains of the adzuki bean beetle Callosobruchus chinensis that have genetically different female mating rates. We measured the number of hatched eggs of once-copulated females and twice-copulated females in each strain. The statistical interaction for the number of hatched eggs between the number of matings and strains was determined. The increase in the number of hatched eggs is larger for the lower mating-rate strain than for the higher mating rate strain. This means that females of the lower mating-rate strain would have larger fitness gain from polyandry than those of the higher mating-rate strain. The actual mating rates of females did not reflect female interests in adzuki bean beetles, suggesting they are affected by sexual conflict.     

Effects of repeated mating and polyandry on the fecundity, fertility and maternal behaviour of female earwigs,Euborellia plebeja

I examined multiple mating and its function in female earwigs, Euborellia plebeja (Dermaptera: Anisolabididae). Like other earwigs, females of this species care for their eggs and intermittently lay eggs in clutches (iteroparity). Analysis of two polymorphic allozyme loci revealed that wild-caught adult females laid clutches with low within-brood genetic relatedness (0.210), indicating that females were promiscuous under natural conditions. Rearing experiments in the laboratory revealed that: (1) repeated mating with a single male increased female fecundity (number of clutches laid) and hence the number of hatchlings produced; (2) estimated sperm number was positively correlated with hatchability; (3) when frequency of mating was controlled, polyandry enhanced hatchability, although this effect was not statistically significant; (4) duration of maternal care varied for clutches with low hatchability, and sometimes exceeded the mean interclutch interval. Thus, although a possible benefit of polyandry is suggested, the greater beneficial effect of repeated mating on female fecundity can explain polyandrous mating in this species. Because female earwigs invest considerable effort in brooding their clutches, it may be adaptive to suppress oviposition unless stored sperm ensures high fertility. Copyright 2003 The Association for the Study of Animal Behaviour. Published by Elsevier Science Ltd. All rights reserved.