Interacting effects of predation risk and male and female density on male/female conflicts and mating dynamics of stream water striders

We used a factorial experiment to examine interacting effectsof male density, female density, and sunfish (predation risk)on mating dynamics of the stream water strider (Aquarius remigis).Many of our results corroborated earlier studies on the isolatedeffects of each factor on mating behavior. The effect of eachfactor, however, depended on the other factors. For example,in low density pools, predation risk decreased male generalactivity, male/female harassment rates, mating activity, andmating duration and increased the large male mating advantage.At higher densities, however, water striders apparently enjoyed"safety in numbers" and did not alter their mating dynamicsin response to the presence of predators. Female activity showeda particularly complex response to male density and fish. Whenmales were scarce, fish caused females to reduce their activity.However, when males were abundant, fish increased female activity,probably because fish decreased male activity thus releasingfemales from harassment by males. The three treatment factorsalso had interacting effects on male mating success. In theabsence of fish, when females were scarce, increased male densityresulted in a decrease in mean male mating success; however,when females were abundant, increased male density enhancedmean male mating success. In contrast, in the presence of fish,male density had little effect on male mating success. Manyof the observed mating patterns can be explained by the effectsof ecological and social factors on male/female conflicts; thatis, on male harassment of females and female reluctance to mate.     

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.     

The costs of female choice in a lekking bird

We investigated the costs of active female choice in sage grouse,Centrocercus urophasianus, a lekking species in which femalesmake repeated, lengthy visits to leks to assess males beforemating. Several potential costs were measured by monitoringchanges in hens' ranging behavior, time budgets, and encounterrates with predators when they visited leks. Two costs wereidentified: hens moved further per day and encountered goldeneagles, Aquila chrysaetos, more frequently when visiting leks.However, extra travel due to visiting leks increased predicteddaily energetic expenditure by only about 1%, and the risk ofpredation by golden eagles over a typical series of lek visits(compared to a single short visit for mating) was estimatedto reduce annual survival by <0.1%. Two other potential costswere not supported: visiting leks did not depress foraging timeor conflict with nest defense. These results indicate that anycosts of mate choice are slight and imply that even very smallbenefits could be sufficient to maintain female choice. We presentcalculations which suggest that increased offspring viabilitydue to choosing fitter males could balance predation costs evenif the heritability of fitness is low and if females identifyfitter males with only moderate accuracy. Despite recent emphasison the direct benefits of mate choice, we conclude that eitherindirect or direct benefits could provide a plausible solutionto the lek paradox.     

Female preference for large males in sailfin mollies,<Emphasis Type="Italic"> Poecilia latipinna</Emphasis>: the importance of predation pressure and reproductive status

We examined the effect of predation risk on female association patterns in the live-bearing sailfin molly (Poecilia latipinna). We tested two classes of females, with and without the risk of predation by a green sunfish (Lepomis cyanellus): (1) postpartum females (maintained with males until visibly gravid, then isolated and tested within 24–48 h of dropping a brood); and (2) non-postpartum females (different females, isolated from males for >50 days). When there was no apparent risk of predation, postpartum females showed a significant preference for large over small males, whereas non-postpartum females showed no size preference at all. When there was an apparent risk of predation, postpartum females maintained their preference for larger males and non-postpartum females continued to show no preference for large or small males. These results suggest that reproductive status (receptivity) plays a greater role in mate preference than predation risk. For postpartum females, the cost of not choosing a preferred mate may outweigh the potential cost of predation. Non-postpartum females either do not benefit from mating or are being indecisive about mating and thus are less likely to be choosy whether or not a predator is present.Communicated by I. Schlupp     

Males,but not females,perform strategic mate searching movements between host plants in a leaf beetle with scramble competition polygyny

Mate searching is assumed to be performed mostly by males, but when females benefit from multiple mating or are under risk of failing to mate, they may also perform mate searching. This is especially important in scramble competition polygynies, in which mate searching is the main mechanism of mate competition. Typically, more mobile individuals are expected to achieve higher mating success because mobility increases their probability of finding mates. If we assume individual movements are mainly explained by mate searching in scramble competition polygynies, we can investigate searching strategies by asking when individuals should leave their location and where they should go. We hypothesize that individuals will leave their locations when mating opportunities are scarce and will seek spatially close sites with better mating opportunities. We tested these hypotheses for males and females of Leptinotarsa undecimlineata, a leaf beetle with scramble competition polygyny in which both sexes are promiscuous. Individuals mate and feed exclusively on Solanum plants, and thus, individual movements can be described as switches between plants. Females were less likely than males to leave isolated plants, and both males and females moved preferentially to neighboring plants. Males were more likely to leave when the local number of females was low, and the number of males was high. They moved to plants with more females, a behavior consistent with a mate searching strategy. Females were more likely to move to plants with fewer males and many females, a behavior consistent with male harassment avoidance. Strategic movement is widely considered in foraging context, but seldom in a mate searching context. Considering that selection to minimize searching costs, maximize mating success, and minimize harassment may be ubiquitous in nature, we argue that strategic movements by mate searching individuals are likely to occur in many species.     

Mechanisms and consequences of sexual conflict in garter snakes (Thamnophis sirtalis, Colubridae)

Red-sided garter snakes (Thamnophis sirtalis parietalis) courtand mate in early spring around large communal overwinteringdens in central Manitoba. Emerging females are immediately coveredby dozens or hundreds of vigorously-courting males, potentiallyimposing significant costs to the female. By manipulating numbersof courting males (both directly and by applying anticourtshippheromones), we quantified the degree to which female dispersalfrom the den is hindered by courtship. Courted females dispersedonly about half as fast as did solitary females. Blood lactatelevels were higher in mating than in courting or noncourtingsnakes of both sexes; the high levels of lactate in mating femalessupport the idea that courtship is physiologically stressfulto these animals, perhaps via constraints to female respiration.In arena trials, females that were exercised to exhaustion beforecourtship mated with smaller males than did control females.The spatial distribution of snakes around the den exhibits substantialheterogeneity, with densities often varying markedly betweenadjacent areas. Arena trials mimicking this heterogeneity showedthat unmated females avoided parts of the enclosure containingscent cues from males. Our data support the hypothesis thatcourtship in T. s. parietalis confers significant costs to females,and that female behaviors have evolved to reduce those costs.     

Behavioral responses of a sex-role reversed pipefish to a gradient of perceived predation risk

Conspicuous behaviors such as courtship and mating often makeanimals susceptible to predation. When perceiving themselvesat an elevated level of risk, animals frequently reduce conspicuousbehaviors in tradeoff for a decrease in probability of beingpreyed upon. In the present study, we used two experiments toexamine the effect of perceived predation risk from cod (Gadusmorhud) on nonreproductive and reproductive behaviors in thesex-role reversed pipefish (Syngnathus typhle). In the firstexperiment, no differences due to predation risk were detectedin the nonreproductive behaviors of either males or females.In the second experiment, predation risk had significant effectson reproductive behaviors. Pipefish were allowed to court andcopulate at four different predation levels. We created predationlevels differing in perceived predation risk by controllingthe number of sensory modes through which pipefish could detectthe presence of a cod. As predation risk increased, pipefishcopulated and courted less frequently, swam alone (displayedand searched for conspecifics) less often, and waited longerbefore commencing courtship. These changes in behavior minimizedthe amount of time spent above the eelgrass and presumably reducedconspicuousness to visual predators. Pipefish also copulatedafter a smaller amount of courtship as predation risk increased,indicating that they may trade information concerning mate qualityfor a reduction in predation risk. No differences were foundin any response variable between males and females. The roleof operational sex ratios and intersexual competition in determiningwhich sex assumes greater costs in mate acquisition is questioned.     

Female response to predation risk alters conspecific male behaviour during pre‐copulatory mate guarding

Mating behaviour often increases predation risk, but the vulnerability within mating pairs differs between the sexes. Such a sex difference is expected to lead to differences in responses to predation risk between the sexes. In the two‐spotted spider mite Tetranychus urticae, males engage in pre‐copulatory mate guarding because only the first mating results in fertilisation. We investigated (i) whether pre‐copulatory pairs are more conspicuous to the predatory mite Phytoseiulus persimilis than solitary females, (ii) whether the vulnerability to the predator differs between sexes within the pre‐copulatory pair, (iii) whether each sex of T. urticae responds to predation risk during pre‐copulatory mate guarding and (iv) whether T. urticae's response to predation risk affects predator behaviour. Because T. urticae females are immobile during pre‐copulatory mate guarding, we observed male behaviour to evaluate effects of predation risk. We found that the predators detect more pre‐copulatory pairs than solitary females and that more females than males of the pre‐copulatory pairs are preyed upon by the predators. The preference of spider mite males for pre‐copulatory pairs versus solitary females was affected by whether or not the female had been exposed to predators during development. Male T. urticae exposed to predation risk did not alter their behaviour. These results suggest that only the most vulnerable sex, that is the female, responds to predation risk, which modifies male behaviour. Regardless of T. urticae females’ experience, however, P. persimilis detected more T. urticae pre‐copulatory pairs than solitary females, suggesting that pre‐copulatory mate guarding itself is dangerous for T. urticae females when these predators are present. We discuss our results in the context of sex‐dependent differences in predation risk.     

Mate-choice copying under predation risk in the Trinigadian guppy (Poecilia reticulata)

Although females of numerous species possess genetically-basedpreferences for certain male trails and male preferentiallywith males possessing these traits, recent theoretical and experimentalevidence indicates that they may also copy (imitate) the matechoices of other females under certain circumstances. Such mate-choicecopying is expected to be most prevalent when females have theopportunity to observe the mate choices of others and when matechoice is costly to females. One potential direct fitness costof mate choice is increased individual risk of mortality dueto predation. Here, we investigate for the first time the effectof increasing the apparent risk of predation on the tendencyof females to copy the experimentally staged mate choice ofanother female. Using adult female guppies (Poecilia reticulata)originating from a Trinidadian population that experiences arelatively high fish predation pressure, we first establishthat they possess a preference for the more brighdy coloredof two simultaneously presented males in the absence of bothmate-copying opportunity and an immediate threat of predation.However, most females reversed their initial mate preferencewhen given an opportunity to copy the mate preference of anotherfemale in the absence of predation threat The proportion offemales reversing their preference when given the opportunityto do so was not affected by increasing the apparent risk of(fish) predation. This result may be owing either to femaleguppies tending to copy the mate choice of others whenever theopportunity arises because the benefits of doing so accrue irrespectiveof the ambient risk of predation or to females choosing randomlybetween males with respect to their color pattern in the presenceof the predator irrespective of mate-copying opportunity. Thesetwo explanations for the apparent lack of an effect of predationrisk on mate-choice copying per se are both plausible but unfortunatelycould not be easily distinguished here. It may thus be possible,and interesting, that individual female guppies chose randomlybetween the available males in the presence of the predatorbut otherwise copied the choice of others when given the opportunityto do so.     

Increased performance of offspring sired by parasitic males in bluegill sunfish

Males of many species are characterized by alternative matingtactics. In bluegill sunfish (Lepomis macrochirus), some malesdelay maturation and become "parentals" while other males matureprecociously and become "cuckolders." Parentals use an overt,territorial mating tactic, defending a nest and courting females.Cuckolders instead use a sneaking tactic to parasitize parentals.It has previously been shown that parentals that are heavilycuckolded provide less care to their young, yet females do notappear to discriminate against cuckolders, and they may actuallyrelease more eggs when a cuckolder is present than when spawningonly with a parental. Here I examined growth rate of fry ofknown paternity through the yolk-sac stage of development usingcomplementary laboratory and field studies to assess a potentialindirect benefit for females that mate with cuckolders. Comparisonof maternal half-siblings sired in vitro shows that cuckolderoffspring grow faster and to a larger size than parental offspringwhile feeding endogenously on their yolk sac. Because both foodresource and maternal genes are equivalent across treatments,these data indicate a genetic difference in growth between thetwo male life histories. In the field, fry from nests that haveproportionately more cuckolder offspring are larger when theyemerge from the nest. This increased size can lead to threefoldhigher survivorship for cuckolder offspring than parental offspringfrom Hydra canadensis predation, a major predator of bluegillfry. These results are discussed in the context of mate choicefor direct and indirect benefits and in the context of the evolutionof alternative mating tactics.     

Sexual Differences in the Behavioral Response of Túngara Frogs, Physalaemus pustulosus, to Cues Associated with Increased Predation Risk

Engaging in mating behaviors usually increases exposure to predators for both males and females. Anti‐predator strategies during reproduction may have important fitness consequences for prey. Previous studies have shown that individuals of several species adjust their reproductive behavior according to their assessment of predation risk, but few studies have explored potential sexual differences in these strategies. In this study, we investigate whether the acoustic cues associated with predatory attacks or those associated with predators themselves affect the mating behavior of female and male túngara frogs, Physalaemus pustulosus. We compared the responses of females approaching a mate and those of calling males when exposed to mating calls associated with sounds representing increased hazard. When presented with mating calls that differed only in whether or not they were followed by a predation‐related sound, females preferentially approached the call without predation‐related sounds. In contrast to females, calling males showed greater vocal response to calls associated with increased risk than to a call by itself. We found significant differences in the responses of females and males to several sounds associated with increased hazard. Females behaved more cautiously than males, suggesting that the sexes balance the risk of predation and the cost of cautious mating strategies differently.     

Does male-biased predation lead to male scarcity in viviparous fish?

Male predation risk due to ornaments seldom reduces female mating opportunities because males escape costs through alternative mating strategies and/or females cease to select for highly ornamented males. Males of the Amarillo fish Girardinichthys multiradiatus (Goodeidae) have large sexually selected fins that impair attack-avoidance manoeuvres. This fish was used to seek evidence that intersexual selection for handicapping traits can result in a deficit of acceptable mating partners. Also it was examined whether, under male scarcity, females remain choosy to the point of missing mating opportunities, and that they can exert effective control over matings, which is a pre-condition of effective female choice. It was found that snakes prey disproportionately on males, that it leads to female-biased sex ratios, and that highly ornamented males are more scarce after predation than males with small ornaments. Females can avoid being fertilized by unattractive males, and that missing one reproductive period can lead to infertility. Thus it appears that females have promoted the exaggeration of a male trait that increases predation risk, remain choosy even when acceptable males are scarce, and pay a large cost when missing mating opportunities. A prediction from these results is that females enjoy substantial fitness benefits from mating with highly ornamented males, which override the occasional fatal costs of refusing to mate with sub–optimal males. One potential consequence of female selectivity and control over matings when males are scarce may be a reduced capability to colonize new habitats.     

Do Egg Carrying and Protracted Copulation Affect Mobility in the Golden Egg Bug?

Golden egg bug Phyllomorpha laciniata (Heteroptera, Coreidae) females oviposit on male and female conspecifics that carry ova until they hatch. Embryos benefit from being carried because of diminished risks of predation. Female carriers are never the parents of carried eggs, and males are only rarely the fathers of any carried eggs. Eggs develop and hatch without being carried in the laboratory. Egg carriers may be viewed as victims, exploited by females that encumber them with eggs. The intensity of selection favouring resistance to egg carrying should be proportional to the costs of this behaviour. One possible cost could be a reduction in mobility caused by carried eggs. We compare movement rates among encumbered and unencumbered golden egg bugs of both sexes. Protracted copulations (often exceeding 20 h) typical of this species and mating may also cause reduction in bugs mobility. Therefore, we also evaluate rates of movement of coupled pairs of bugs. Our results indicate that egg loads do not affect the mobility and speed of either males or females. However, copulating pairs are significantly slowed as compared to single bugs. Thus protracted copulations have a clear cost in rates of movement and possibly risks of predation, but there are no apparent mobility costs for egg carrying.     

Male mating strategies under predation risk: do females call the shots?

Many authors have reported that, under elevated risk of predation,male guppies (Poecilia reticulata) alter their behavior fromcourtship to forced copulation (gonopodial thrusts not precededby sigmoid displays). This shift is presumed to benefit thebrightly colored male, whose intense courting activity mightotherwise increase his risk of detection and attack by predators.However, there is some evidence that females engaged in reproductiveactivity with males may be even more vulnerable to predatorsthan the males themselves, which suggests an alternative hypothesis:females in high-risk situations are less receptive to male courtship,and this leads males to change their behavior. We tested thishypothesis by providing either males and females separately,or both sexes concurrently, with information about elevatedpredation risk from a cichlid (Crenicichla sp.). We found thatwhen only females were provided with information about increased risk,males performed fewer courtship displays and fewer thrusts.They did not perform more forced copulations in any treatmentgroup. Nonetheless, our results suggest that the female's perceptionof predation risk can be at least as important as the male'sin changing male mating behavior.     

Uganda kob prefer high-visibility leks and territories

In lekking species, where males provide estrous females withlittle more than sperm, it has been widely supposed that theonly possible benefits to females of mate choice are genetic.We studied female choice of leks and territories in a reduncineantelope, the Uganda kob (Kobus kob thomasi), and found thatfemales consistently preferred high-visibility mating sites.Leks were elevated and had shorter grass and fewer thicketsthan the surrounding areas. Changes in the number of male andfemale kob on 10 leks were correlated with changes in surroundinggrass height, and both females and males preferred leks withexperimentally reduced grass height over neighboring controls.Within a lek, territory popularity was the primary determinantof male daily mating success, and females preferred territoriesrelatively far from thickets, but removal of thickets did notaffect female territory preferences. Because lion hunting successon kob increases with grass height and thicket density, femalesmay benefit directly from these preferences by reducing therisk of predation.     

Firefly Courtship: Behavioral and Morphological Predictors of Male Mating Success in Photinus greeni

Differences in male mating success can generate selection on male morphological traits and courtship behaviors involved in male–male competition or female mate choice. In Photinus fireflies (Coleoptera: Lampyridae), courtship is based on bioluminescent flash signals produced by both sexes. We conducted field observations of Photinus greeni fireflies engaged in competitive courtships, in which females are able to simultaneously assess several males, to identify male morphological traits and courtship behaviors that might predict male mating success. Male morphological traits did not differ between males that successfully mated compared with unsuccessful males (dialoging males that did not mate). However, courtship behavioral interactions differed: successful males tended to have higher flash pattern rates (number of flash patterns per minute), and their courtship flashes were more likely to be answered by females. We also examined how the risk of predation by Photuris fireflies altered courtship behavior of their Photinus prey. When predatory Photuris fireflies were present, P. greeni females were less likely to mate, and showed decreased flash responses to most males. However, P. greeni males that did successfully mate in spite of Photuris presence were males that maintained high flash pattern rates that elicited female responses. These results suggest that both female mate choice and Photuris predation exert strong selective pressures on the evolution of courtship signals in Photinus fireflies.     

Predation risk and social interference as factors influencing habitat selection in two species of stream-dwelling waterstriders

We investigated how an aggressive species of waterstrider, Aquariusremigis, and potential predators, green sunfish (Lepomis cyanellus),affected the habitat use and mating behaviors of a less aggressivecongeneric species, A. conformis. Although these species sometimesco-occur, A. remigis typically lives in small streams with fewor no fish, whereas A. conformis are typically in medium- orlarge-sized streams with large populations of potentially predatoryfish. We tested in separate experiments in seminatural streams:1) the effect of fish on behaviors of A. conformis; 2) the effectof A. remigis on A. conformis; and 3) the habitat use of A.conformis when given a choice between pools with A. remigisor fish. The first experiment showed no effect of fish on eithermating behaviors or microhabitat use of A. conformis. This isin surprising contrast to the strong effects of fish alreadydocumented in A. remigis. The second experiment showed thatthe mating activity of A. conformis was reduced when A. remigiswere present; hence, A. conformis should avoid A. remigis. Finally,when A. conformis were presented with a choice between two pools,one containing A. remigis and the other containing fish, bothsingle males and pairs of A. conformis chose the pools withfish. In contrast, the habitat use of single female A. conformiswas not affected by either fish or A. remigis. Results fromthese experiments demonstrate that closely related species exhibitcontrasting social and antipredator behaviors and that aggressivesocial behavior is an important determinant of habitat partitioning     

A Parental Care-Mating Dilemma? Potential Risks for Offspring in the Pholcid Spider When Egg-Carrying Females Accept Mating

Many species face a trade-off between additional mating opportunities and the offspring benefits (viability, quality) provided by parental care. Female Holocnemus pluchei spiders must abandon their egg-sac, which they otherwise carry with their chelicerae, to copulate. This may involve risks for the offspring, such as predation and fungal infection. We assessed whether (1) males discriminate between egg-carrying females according to the egg development stage, (2) females are influenced by the egg development stage in regard to their proneness to mate, and (3) offspring are less likely to survive, due to high humidity and/or predation, in the absence of egg-carrying females. Apparently, males did not distinguish between females according to the developmental stage of the eggs they carried. However, females were more likely to mate when carrying relatively mature versus immature eggs (14–18 days and 3–6 days post-oviposition, respectively). All egg-sacs hatched successfully when guarded by egg-carrying females because this avoided both fungal infections (at high humidity) and cannibalism by conspecific spiders. Thus, H. pluchei females may face a trade-off between mating and parental care. Further research should clarify why egg-carrying females mate and how females prevent their egg-sacs from being infected by fungi.     

Avoiding a compromise between sexual selection and species recognition: female swordtail fish assess multiple species-specific cues

Females increase their risk of mating with heterospecifics whenthey prefer the traits of conspecifics that overlap with traitsfound in heterospecifics. Xiphophorus pygmaeus females havea strong preference for larger males, which could lead to femalespreferring to mate with heterospecific males; almost all sympatricX. cortezi males are larger than X. pygmaeus males. In thisstudy, we show that X. pygmaeus females preferred the chemicalcues from conspecifics over those of X. cortezi males. However,preference for the chemical cues of conspecifics could not reversethe preference for larger heterospecific males. Only when femaleswere presented with two species-specific cues (vertical barsand chemical cues) did more females spend more time on averagewith the smaller conspecific males. These results support the"backup signal" hypothesis for the evolution of multiple preferences;together, the two species-specific cues increased the accuracywith which females were able to avoid heterospecific males.In addition, the results suggest that in those situations inwhich the traits of conspecifics overlap with traits found inheterospecifics, females can use the assessment of multiplecues to avoid mating with heterospecifics without compromisingtheir preference for the highest-quality conspecific.     

Risky mate search and mate preference in the golden orb-web spider (Nephila plumipes)

Mate searching is a risky behavior that decreases survival byincreasing predation risk and the risk of energy depletion.However, few studies have quantified actual mortality duringmate search, making it difficult to predict mate searching andmating strategies. Using a mark and recapture study, we examinedmate-searching success in a highly sexually dimorphic species,the golden orb-web spider (Nephila plumipes). We show that despitethe high-density aggregations of this species, male survivalduring mate searching is extremely low (36%) and is phenotypeindependent. Surprisingly, males that survived mate search werein better condition after recapture than prior to release, mostlikely due to kleptoparasitism on females' webs. In a complementaryrelease experiment in a field enclosure, we show that malesare choosy and adjust their choice of female depending on theirown condition and weight. Thus, the high mortality rate of searchingmales in the field may be a cost of choosiness because releasedmales traveled further than necessary to settle on females.Although males were choosy about female phenotypes, they didnot avoid webs with rival males already present. This suggeststhat the cost of continued searching outweighs the cost of competitionbut not the cost of mating with certain females. Further examinationsof mate-searching risk in other species in reference to theirmating system and environmental conditions are necessary todetermine the occurrence and effects of high mortality ratesduring searching.