The control of receptivity and ovulation in the tsetse fly, Glossina morsitans

ABSTRACT. A rapid decline in receptivity of mated female Glossina morsitans morsitans Westwood is shown to depend on both physical and chemical stimuli associated with copulation. Radiolabelling revealed the transfer of substances from the male to the haemolymph of the female during copulation. Implantation of male tissues or their injection as homogenates into virgin females showed the chemical stimulus to come from the male accessory glands. Receptivity decreased in females mated to males with ejaculatory ducts severed or testes removed and also in females which had a glass bead inserted into their uterus and/or the tip of their abdomen covered with wax, suggesting that a physical stimulus inducing refractoriness is provided by distension of the uterus and/or stimulation of their terminalial setae. Exposing virgin females to daily short matings in which no male materials were transferred, confirmed this. Receptivity also declined slowly with age in unexposed virgin females. Transfusion of haemolymph from mated females (up to 11 days old) into virgins did not indicate the existence of a haemolymph-borne ovulation-inducing factor; apparently only physical stimuli from mating are involved in the induction of ovulation, and somehow prime the ovarian tissue so that it responds appropriately later when the egg has matured. Whether the stimulus is transmitted to the ovary neurally or hormonally is unknown.     

Strategic male mating effort and cryptic male choice in a scorpionfly

In animal species with high male mating effort, males often find themselves in a dilemma: by increasing their mating effort, the gain from each copulation increases but simultaneously reduces available resources and, thus, the opportunity for future copulations. Therefore, we expect males to spend less reproductive resources on matings that provide low reproductive potential, thereby saving resources for future copulations, possibly with high-quality females, a sort of cryptic male choice. However, the strength of the trade-off between investment in a current mating and resources available for future matings must not be the same for all males. Males with relatively high mating costs should allocate their limited resources more cautiously than males with more plentiful resources. Here, we examine this prediction in the scorpionfly Panorpa cognata. Prior to copulation, males produce a large salivary mass on which females feed during copulation. We show that the production of larger salivary masses leads to longer copulations. Moreover, the size of the salivary gland and salivary mass increases with increasing male condition. However, males in poor condition make a relatively higher mating investment than males in good condition. We therefore expect male condition to influence cryptic male choice. In accordance with our hypothesis, only males in poor condition choose cryptically, producing larger salivary masses in copulations with females of high fecundity.     

The effect of diet quality and wing morph on male and female reproductive investment in a nuptial feeding ground cricket

A common approach in the study of life-history trade-off evolution is to manipulate the nutrient content of diets during the life of an individual in order observe how the acquisition of resources influences the relationship between reproduction, lifespan and other life-history parameters such as dispersal. Here, we manipulate the quality of diet that replicate laboratory populations received as a thorough test of how diet quality influences the life-history trade-offs associated with reproductive investment in a nuptial feeding Australian ground cricket (Pteronemobius sp.). In this species, both males and females make significant contributions to the production of offspring, as males provide a nuptial gift by allowing females to chew on a modified tibial spur during copulation and feed directing on their haemolymph. Individuals also have two distinct wing morphs, a short-winged flightless morph and a long-winged morph that has the ability to disperse. By manipulating the quality of diet over seven generations, we found that the reproductive investment of males and females were affected differently by the diet quality treatment and wing morph of the individual. We discuss the broader implications of these findings including the differences in how males and females balance current and future reproductive effort in nuptial feeding insects, the changing nature of sexual selection when diets vary, and how the life-history trade-offs associated with the ability to disperse are expected to differ among populations.     

Mating interaction of the Japanese horned beetle Trypoxylus dichotomus septentrionalis: does male-excluding behavior induce female resistance?

Female resistance to male mating is thought to have developed as a mechanism to avoid multiple matings or to allow the choice of good quality males. Detailed mating behavior of the Japanese horned beetle Trypoxylus dichotomus septentrionalis (Kono) was examined under natural conditions to clarify the function of female resistance to mating. When a male recognized the presence of a female at the same feeding spot, it immediately began to court and mount the female and attempted to insert its genitalia. During the courtship, females performed intense resistance behavior against the mating, regardless of whether the female would eventually accept males or not. In T. dichotomus septentrionalis, it was observed that female resistance to mating did not occur for reasons of precopulatory mate choice or avoidance of multiple matings; however, additional studies on postcopulatory mate choice are needed. After copulation, males usually tried to keep females away from the sap site. Because of males' excluding behavior, females were able to stay at the sap site for feeding only when they were resisting or copulating. Females that showed resistance behavior before copulation stayed at the sap site 1.56 times longer than females that did not show the resistance behavior. Female resistance behavior in T. dichotomus septentrionalis is thus considered a tactic for prolonging their feeding duration, which is reduced by male-excluding behavior after mating.     

Sperm storage mediated by cryptic female choice for nuptial gifts

Polyandrous females are expected to discriminate among males through postcopulatory cryptic mate choice. Yet, there is surprisingly little unequivocal evidence for female-mediated cryptic sperm choice. In species in which nuptial gifts facilitate mating, females may gain indirect benefits through preferential storage of sperm from gift-giving males if the gift signals male quality. We tested this hypothesis in the spider Pisaura mirabilis by quantifying the number of sperm stored in response to copulation with males with or without a nuptial gift, while experimentally controlling copulation duration. We further assessed the effect of gift presence and copulation duration on egg-hatching success in matings with uninterrupted copulations with gift-giving males. We show that females mated to gift-giving males stored more sperm and experienced 17% higher egg-hatching success, compared with those mated to no-gift males, despite matched copulation durations. Uninterrupted copulations resulted in both increased sperm storage and egg-hatching success. Our study confirms the prediction that the nuptial gift as a male signal is under positive sexual selection by females through cryptic sperm storage. In addition, the gift facilitates longer copulations and increased sperm transfer providing two different types of advantage to gift-giving in males.     

The mating-induced refractoriness of Lucilia cuprina females: manipulating the male contribution

Abstract Three manipulations of the male contribution to copulation were used to investigate what determines the switch-off of female receptivity that follows mating in Lucilia cuprina. Multiple matings by males led to a reduction in their effectiveness at switching-off females: the first twelve matings caused more than 50% of females to be switched-off 1 day after mating, while the first four matings caused more than 50% of females to be switched-off for 7 days after mating. Males mated up to twenty-three times and on average ten times during 10 h of continuous access to virgin females. The number of sperm transferred declined logarithmically through a series of matings as did the quantity of material transferred from the male accessory gland (measured as radiolabeled material) through the first six matings. Overnight isolation of multiply-mated males led to considerable recovery of their ability to switch-off females, and to limited renewal of their ability to transfer sperm. Castrated males transferred similar quantities of accessory gland material to females as did sham-operated males during their first five matings and in their first three matings switched-off 95% of females for 1 day but only 48% for 7 days. When normal mating pairs were separated at increasing intervals after coupling, an increasing proportion of females were switched-off at 1 or 7 days afterward. 7 days after 2 min matings no females were switched-off though 40% of the number of sperm transferred in a full mating had been transferred by this time. The proposed explanation for these data is that both the initial switch-off and its duration are determined by the quantity of a receptivity-inhibiting substance that normally enters the female haemo-lymph after being injected by the male into the wall of the bursa copulatrix. It is proposed that when castrated males mate, an absence of sperm results in most accessory gland secretion entering the empty spermathecae (rather than the wall of the bursa as usually occurs) and hence being unable to reach the haemolymph and exert its influence. The effective dose of the receptivity-inhibiting substance is measured on a logarithmic scale.     

Role of the petasma and appendices masculinae during copulation and insemination in the penaeoid shrimp,Sicyonia dorsalis (Crustacea: Decapoda: Dendrobranchiata)

Summary

The role of presumed male gonopods in the insemination of females was investigated in the penaeoid shrimp Sicyonia dorsalis. Males with partially ablated petasmata or with ablated appendices masculinae did not copulate with females, while control males with exopods removed from the third pleopods copulated frequently and successfully inseminated females. However, males with petasmata altered by blockages at the tip or at the base did copulate with females but were unable to inseminate them. The hypothesis that the petasma of Sicyonia is a sperm injection device is rejected. Evidence against this hypothesis includes the structure of the gonopods, the position of the male at right angles below the female during copulation, the brevity of copulation, the frequency of copulation during normal matings, and the ability of males to inseminate only the spermatheca on one side per successful copulation. It is hypothesized that the male uses the petasma, supported by the endopods of the second pleopods, to hook onto the female thelycum, adjusting position so that one erect genital papilla directly injects sperm mass into the aperture of one of the paired spermathecae. It is suggested that female selection on male petasma structure and use has resulted in the complex form of the petasma, rather than a purely mechanical selection for an efficient sperm injection device.     

Nuptial gift consumption influences female remating in a scorpionfly: male or female control of mating rate?

In the scorpionfly Panorpa cognata, males provide females with saliva secretions as nuptial food gifts. Consequently, females derive material benefits and possibly also genetic benefits from multiple matings. Females therefore generally should have a high motivation to remate. Males, on the other hand, do not share this interest, which will generate a sexual conflict over remating interval, possibly leading to male adaptations that prevent females from remating with other males. In this study, I found that mated females were less prone to copulate than virgin females, despite female benefits of multiple matings. Further, I found that the remating interval was significantly longer if the first copulation was long compared to shorter matings. This effect does not entirely depend on copulation duration per se, but on the amount of saliva, that a female is consuming during copulation. These results suggest a mating-induced refractory period and can be interpreted as male manipulation of female remating behaviour mediated through substances in the nuptial gift. Alternatively, receiving large nuptial gifts may decrease the prospective direct fitness benefits from further copulations, and thus change optimal female remating rate. Furthermore, gift size has been shown to correlate with male nutritional condition, which may be an indicator of male genetic quality. Females may therefore benefit indirectly by not remating following copulations involving large saliva gifts. In this scenario, female remating interval would be an effect of cryptic female choice.     

A life-history perspective on strategic mating effort in male scorpionflies

In species with high male mating effort, there is a trade-offbetween mating effort spent in a current mating and resourcesleft for future matings. Consequently, to maximize their reproductivesuccess, males have to invest strategically, saving resourcesin matings with low reproductive gain for future, more valuablematings. However, as males age, the expected future reproductivesuccess constantly declines. Thus, the importance of resource rationing may drastically change during a lifetime. Males ofthe scorpionfly Panorpa cognata offer females a costly nuptialgift before copulation, which functions as male mating effort.Resources for the production of these salivary masses are severelylimited for males in poor condition. We found that males investedmore in copulations with high-quality females than in copulationswith low-quality females. However, males ceased to discriminateas they became older. Old males, with a relative small numberof expected future matings, did not invest differentially incopulations with high- versus low-quality females. In copulationswith low-quality females, males invested more in late thanin initial matings, whereas in matings with high-quality females,time of mating had no influence on mating effort. These resultsimply that males adaptively change their resource allocationstrategy during the course of the season. Initial matings seemto be characterized by male prudence; in later matings, malesseem to adopt a more opportunistic mating strategy.     

The copulation of a linyphiid spider, Baryphyma pratense: does a female receive a blood-meal from her mate?

Blest & Taylor (1977) noted that when the cephalic sulci of male Baryphyma pratense (Blackwall) are gripped by the fangs of females during copulation, the male heads bleed and the females ingest the blood. It has recently been suggested by Schaible, Gack & Paulus (1986) that 'blood' may in fact have been the secretion from the cephalic glands associated with the sulci. The early account is expanded, and the reasons for supposing the material to be haemolymph listed. Cephalic bleeding by males of B. pratense is suggested to be unusual, and to represent both a bizarre variant of courtship feeding, and a form of male parental investment.     

Females benefit from mating with different males in the scorpionfly Panorpa cognata

The adaptive significance of female polyandry has become a recurrentsubject of recent theoretical and empirical research. It hasbeen argued that in addition to direct benefits, such as nuptialgifts or an adequate sperm supply, females may gain geneticbenefits from mating with different males. Females of the scorpionflyPanorpa cognata mate with several males during their lifetime.In an experiment designed to rule out any direct nutritionalbenefit of multiple matings, I found that polyandrous femalesthat mated with two different males achieved a significantlyhigher egg-hatching success than monandrous females that matedtwice with the same male. However, individual males did nottrigger the same response in different females as the egg-hatchingsuccess of different females that mated with one and same maledid not correlate. The results, thus, do not conform to predictionsfrom hypotheses assuming that genetic benefits of polyandryare influenced by the intrinsic genetic quality of males. Theresults are, however, consistent with the genetic incompatibilityhypothesis. Nevertheless, substances from different males transferredduring copulation may synergistically affect zygote viability.Furthermore, I discuss why paternity studies can only explicitlytest the genetic incompatibility hypothesis if there are a prioriexpectations of female-male genome compatibilities.     

Lovesick: immunological costs of mating to male sagebrush crickets

A growing body of evidence suggests that resources invested in reproduction often come at the expense of the ability to mount an immune response. During mating, female sagebrush crickets, Cyphoderris strepitans, consume the ends of the male’s hind wings and ingest his haemolymph. Previous research has shown that this behaviour impairs the ability of males to secure additional matings. One hypothesis to account for this effect is that wing wounding triggers an energetically costly immune response, such that nonvirgin males are unable to sustain the costly acoustical signalling needed to attract additional females. To test this hypothesis, we injected virgin males with lipopolysaccharides (LPS) to provoke an immune response, and monitored their mating success in the field. LPS‐injected virgin males took significantly longer to mate than sham‐injected virgin males, and spent significantly less time calling. We also compared virgin, nonvirgin and experimentally wing‐wounded virgin males with respect to: (1) their ability to encapsulate a foreign invader via the accumulation of haemocytes and deposition of melanin and (2) baseline levels of phenoloxidase (PO), a key enzyme in the biochemical cascade leading to the production of melanin. Although encapsulation ability did not differ with reproductive experience, virgin males had significantly higher levels of PO than either nonvirgin or experimentally wing‐wounded virgin males. These results suggest that wing‐wounding alone is sufficient to impair male immunity, and that males trade‐off investment in reproduction and immunity.     

Influence of Nutrition on Courtship and Mating in the Scorpionfly Panorpa cognata (Mecoptera, Insecta)

Scorpionflies have been used as model organisms for the study of alternative male mating tactics as well as sexual conflict and coercive mating. Here we describe the courtship and mating behaviour of the scorpionfly Panorpa cognata at different levels of nutrition. Alternative mating tactics in scorpionflies involve nuptial food gifts, and we expected an effect of nutrient availability and male individual condition on the relative frequency of these mating tactics. Subsequent to female attraction by means of male pheromonal emission (calling) and a conspicuous pairing prelude, the majority of matings were initiated by male secretion of one relatively large salivary mass on which females feed during copulation. Usually, males produced only a single salivary mass per mating, and the copulation was terminated after the female had consumed the salivary mass. Alternatively, in 40% of the copulations, males offered females a dead arthropod as nuptial gift. However, these matings were neither preceded by male calling nor by the pairing prelude. Copulations with no gifts were extremely rare, and forced copulations were absent. The manipulation of the clamp‐like notal organ used by male scorpionflies in coercive matings had no effect on the duration of copulation, suggesting that P. cognata males are not able to enforce longer matings. Copulations involving salivary mass gifts were significantly longer than copulations with prey provided as gifts. Although contrary to our expectations, nutrition had no effect on the relative frequency of the different male mating tactics, it had several effects on courtship and mating. First, well‐fed individuals copulated significantly more often, both with prey and salivary secretions, than individuals with limited nutrient resources available. This was true for both sexes, although the effect was stronger for males. Higher availability of nutrients decreased the time until male and female sexual maturity and increased male calling duration per day. Furthermore, high nutrient availability decreased the duration of the pairing prelude, and consequently pairs started copulating earlier at night in the high nutrient treatment.     

Reproductive behavior of the dragonfly,Orthetrum japonicum (Odonata: Libellulidae)

The reproductive behavior of the dragonfly,Orthetrum japonicum, is described. Behavioral processes of turnover of territorial males, simultaneous guarding of 2 females by a male, and copulation by non-territorial males are described. The males with longer hind wings won the territorial conflicts more frequently. The total duration of territorial residence of a given male was correlated with the number of his matings, but not correlated with the length of his abdomen or hind wings. The territorial site with the lower degree of vegetation cover was occupied by males more consistently. Males in more consistently occupied territorial sites did not have longer abdomen and hind wings than males in less consistently occupied sites. The territorial site where the larger number of copulations was observed was not occupied more consistently. Selection episode analysis using the method of Arnold & Wade (1984a, b) showed that direct selection on the hind wing length favored the short wing and that direct selection on the abdomen length favored the long abdomen during mating.     

Indications for female mate choice in grey-cheeked mangabeys <Emphasis Type="Italic">Lophocebus albigena johnstoni</Emphasis> in Kibale National Park,Uganda

Female sexual strategies affect male strategies and can play an important role in shaping mating systems. We investigated female sexual behaviour within five groups of grey-cheeked mangabeys in Kibale National Park, Uganda, and tested the hypothesis that females exhibit mate choice using as indications the prevalence of (1) females soliciting matings by presenting to males and (2) females refusing to mate with approaching males. In addition, we describe how these behaviours as well as grooming and copulation calls are distributed over high-ranking, low-ranking and migrating males and discuss these patterns with regard to trade-offs that could play a roll in female mate choice in multi-male groups. Females were promiscuous and initiated almost half of the matings, with both resident and migrating males. More than half of male mating approaches were refused by peak females. Female mate choice in this species may depend on individual female preferences, oestrus phase and male tactic.     

Lack of behavioural evidence for kin avoidance in mate choice in a hymenopteran parasitoid (Hymenoptera: Braconidae)

Mechanisms for inbreeding avoidance should be prevalent in insects that reproduce by arrhenotokous haplodiploidy because of the higher potential production of unviable diploid males in inbred matings. Few studies have focused on mating strategies in insect parasitoids and even less on kinship relationships during mate choice. In this study we tested avoidance of kin as mate in the parasitic wasp Aphidius matricariae (Hymenoptera: Braconidae) using an ethological approach. Key mating parameters, such as male wing fanning, latent period before genitalia contact and duration of copulation were measured. No evidence for kin avoidance in mate choice in both A. matricariae males and females was observed in our behaviour (no choice or choice tests) tests. This lack of ethological sib mating avoidance could be due to different factors such as sex determination rule different than the single locus complementary sex determination, making lower the proportion of diploid males in case of sib matings and thus its negative consequence. The existence of other inbreeding avoidance strategies and mechanisms that reduce the probability of 2 receptive relatives meeting in nature may be common, for example, inbred mating may be rare through differential dispersal, delayed maturation, or protandry.     

Female hunger can explain variation in cannibalistic behavior despite male sacrifice in redback spiders

Male Australian redback spiders (Latrodtctus hasselti Thorell:Theriidae) place their abdomens directly over their mate's mouthpartsduring copulation, increasing the likelihood of sexual cannibalism.Male sacrifice may be adaptive because cannibalized males increasetheir paternity relative to those that are not eaten. Despitemale sacrifice behavior, however, up to 50% of laboratory matingsmay end without sexual cannibalism. Here, I report a similarpattern in the field, where males were not cannibalized in 35%of observed matings (6/17). I examined variation in female cannibalisticbehavior by evaluating the following three hypotheses for theoccurrence of cannibalism from the female perspective: (1) themistaken identity hypothesis proposes that females sometimescannibalize males because they mistake them for prey, (2) themate rejection hypothesis predicts that females cannibalizemales who are unacceptable as mates, and (3) the feeding opportunismhypothesis predicts that hungry females are more likely to becannibalistic Field observations refuted die first two hypotheses:females recognized males as potential mates (i.e., nonprey),and cannibalized and noncannibalized males were not phenotypicallydifferent. The feeding opportunism hypothesis was supported.In staged field matings, cannibalistic females were hungrierthan their noncannibaUstic counter-parts. Moreover, a logisticregression analysis indicated that hunger was a significantpredictor of cannibalism. Because redback males are below thetypical prey size that females accept, well-fed females areless likely to consume their mates, despite the vulnerable matingposture. These results indicate that, although males facilitatesexual cannibalism, their fate may depend on the female's physicalcondition.     

Sex before or after blood feeding: Mating activities of Aedes aegypti males under conditions of different densities and female blood feeding opportunities

Blood feeding and mating are critical behaviors that regulate both mosquito population maintenance and disease transmission. However, our understanding of mosquito mating systems remains incomplete. One of the most critical issues is a lack of understanding regarding how and where males and females encounter one another. This study was performed to investigate changes in key mating behaviors of Ae. aegypti relative to female blood feeding opportunities, taking into account male density. We compared courtship latency and copulation activity between single and pooled males in a range of assays performed in the presence or absence of a blood source and after blood feeding. The time taken by grouped males to initiate courtship in the presence of a host was much shorter than that in single males. There was no significant difference in courtship latency between pooled and single males in the absence of a blood source or after blood feeding. At low male density, the presence of the host and blood meal ingestion provided better conditions for copulation. At high male density, however, copulation activity was decreased after blood feeding, but remained high regardless of the presence or absence of the host. In addition to providing insight into the mating ecology of Aedes aegypti, this study indicated that the presence of a blood source influences how males encounter and copulate with females. The observation that copulation activity decreases after blood feeding when males are numerous provides new avenues for improving mass release programs of sterile mosquitoes.     

The effects of copulation duration in the bruchid beetle Callosobruchus maculatus

Control over copulation duration is a potentially importantgenerator of sexual conflict that has received little empiricalattention. The copulatory behavior of the bruchid beetle Callosobruchusmaculatus may reflect a sexual conflict over copulation duration.Males have spines on their intromittent organs that puncturethe female reproductive tract, and females kick their matesduring copulation. If females are prevented from kicking, copulationslast longer and the injuries females sustain are more severe.Males supposedly use the spines as anchors to prolong copulationduration, and females kick to terminate copulations. We manipulatedcopulation duration experimentally and quantified its effectson male and female fitness components to test whether or notthere is a conflict over copulation duration in C. maculatus.Females did not suffer from long copulations but instead experiencedincreased lifetime fecundity. Ejaculate size increased withcopulation duration, and females apparently derive materialbenefits from the ejaculates. Males that mated first and hadlong copulations were relatively unsuccessful when competingwith sperm from other males. However, there was a trend forfemale remating propensity to decrease with long copulationdurations, and first males may therefore also benefit from longcopulations. The copulation duration of the second male to matedid not have a significant effect on sperm precedence. We concludethat even though it seems likely that the male spines have evolvedto act as an anchor during copulation, there seems to be littleconflict over copulation duration per se in C. maculatus.     

The costs of avoiding matings in the dung fly Sepsis cynipsea

Mating is generally assumed to carry costs, particularly forfemales, which have to be traded off against each other andagainst the fitness benefits of mating. To understand any particularmating system and the evolution of sexual conflict, these costshave to be evaluated. Female dung flies, Sepsis cynipsea (Diptera:Sepsidae), typically attempt to dislodge mounted males by vigorousshaking. Such female reluctance to mate can only evolve if the cost of avoiding matings does not exceed the cost of copulation.We investigated female precopulatory costs of assessing andrejecting males in terms of increased predation, wing injuries,and (indirectly) energetics, all ultimately affecting mortality,and compared them to the costs of copulation assessed in thisand a companion study. Females housed with a male had lower survivorship than females housed with another female. This waslargely due to the costs of copulation rather than presumedenergetic costs of avoiding males, which were minor. Male harassmentaugmented female wing injuries, which accumulate with age inthe field and laboratory, but in laboratory experiments usingone common predator, wing injuries did not increase the susceptibility of S. cynipsea to predation, nor did their mating behavior perse. Instead, predation was highest and survivorship lowestin all-male groups, probably because males are more activein search of females and harass each other. Overall, the precopulatorycosts of mate assessment and rejection were low relative tothe costs of copulating, explaining female reluctance behavior in this and possibly other species.