Differential allocation in a gift-giving spider: males adjust their reproductive investment in response to female condition.

Abstract Background When males are selective, they can either reject low-quality females or adjust their reproductive investment in response to traits that indicate female quality (e.g., body size or condition). According to the differential allocation hypothesis, males increase their reproductive investment when paired with high-quality females (positive differential allocation) or increase their reproductive investment when paired with low-quality females (negative differential allocation). This hypothesis has been proposed for monogamous species with biparental care, and most empirical studies focus on birds. Here we used the polygamous spider Paratrechalea ornata, in which males offer prey wrapped in silk as nuptial gifts, to test whether males adjust their reproductive investment in gift size, pre-copulatory and copulatory courtship, and sperm transfer in response to female body condition. Results Males exposed to females in good body condition added more flies to the gift, stimulated these females longer with abdominal touches during pre-copulatory courtship, and had longer pedipalp insertions than males exposed to females in poor body condition. Female condition affected neither silk investment in nuptial gift wrapping nor the quantity of sperm transferred by males. Finally, females in good body condition oviposited faster after copulation and laid more eggs than females in poor body condition. Conclusions We provide experimental evidence that males of a gift-giving spider exhibit positive differential allocation in three key aspects of their reproductive investment: the size of the nutritious gift, duration of pre-copulatory courtship, and duration of pedipalp insertions, which is regarded as a form of copulatory courtship in spiders. This positive differential allocation is likely associated with the benefits of copulating with females in good body condition. These females are more fecund and oviposit faster after copulation than females in poor body condition, which under natural field conditions probably reduces the risk of multiple matings and thus the level of sperm competition faced by the males. As a final remark, our findings indicate that the hypothesis of differential allocation also applies to species with a scramble competition mating system, in which males heavily invest in nuptial gift construction, but not in parental care.

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Effect of mate size on maternal reproductive effort in the convict cichlid Amatitlania siquia

Current Zoology ◽

10.1093/czoolo/58.1.66 ◽

2012 ◽

Vol 58 (1) ◽

pp. 66-72 ◽

Cited By ~ 3

Author(s):

Ashley R. Robart

Keyword(s):

Parental Care ◽

Standard Length ◽

Reproductive Investment ◽

Differential Allocation ◽

Mate Quality ◽

Convict Cichlids ◽

Male Care ◽

Female Investment ◽

The Relationship ◽

Amatitlania Siquia

Abstract The differential allocation hypothesis predicts individuals will increase their reproductive investment when mated to a high quality partner. In many species of fish with biparental care females prefer large males due to the males’ greater ability to raise more offspring to independence. I examined the relationship between mate quality, parental care and number of offspring in a natural population of convict cichlids Amatitlania siquia. The frequency of frontal displays by females was positively correlated with male standard length. Additionally, as males increased in length relative to their mate, females increased the frequency of chases towards predators, while males decreased the number of displays towards brood predators. This trade-off in parental effort within a pair due to mate quality is a key prediction of differential allocation. The number of offspring was correlated with male, but not female, standard length. These results support the differential allocation hypothesis in that females offered more parental care to offspring of a larger male, while their mates decreased the amount of care they provided. Additionally, females benefited in terms of number of offspring by pairing with higher quality mates. Increased female investment may provide an incentive to ensure male care and maintain pair bonding, which could lead to greater reproductive success through increased offspring survival.

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The relationship between egg size and helper number in cooperative breeders: a meta-analysis across species

PeerJ ◽

10.7717/peerj.4028 ◽

2017 ◽

Vol 5 ◽

pp. e4028 ◽

Cited By ~ 8

Author(s):

Tanmay Dixit ◽

Sinead English ◽

Dieter Lukas

Keyword(s):

Life History ◽

Social Environment ◽

Group Size ◽

Egg Size ◽

Reproductive Investment ◽

Maternal Investment ◽

Differential Allocation ◽

The Social ◽

Cooperatively Breeding ◽

The Relationship

BackgroundLife history theory predicts that mothers should adjust reproductive investment depending on benefits of current reproduction and costs of reduced future reproductive success. These costs and benefits may in turn depend on the breeding female’s social environment. Cooperative breeders provide an ideal system to test whether changes in maternal investment are associated with the social conditions mothers experience. As alloparental helpers assist in offspring care, larger groups might reduce reproductive costs for mothers or alternatively indicate attractive conditions for reproduction. Thus, mothers may show reduced (load-lightening) or increased (differential allocation) reproductive investment in relation to group size. A growing number of studies have investigated how cooperatively breeding mothers adjust pre-natal investment depending on group size. Our aim was to survey these studies to assess, first, whether mothers consistently reduce or increase pre-natal investment when in larger groups and, second, whether these changes relate to variation in post-natal investment.MethodsWe extracted data on the relationship between helper number and maternal pre-natal investment (egg size) from 12 studies on 10 species of cooperatively breeding vertebrates. We performed meta-analyses to calculate the overall estimated relationship between egg size and helper number, and to quantify variation among species. We also tested whether these relationships are stronger in species in which the addition of helpers is associated with significant changes in maternal and helper post-natal investment.ResultsAcross studies, there is a significant negative relationship between helper number and egg size, suggesting that in most instances mothers show reduced reproductive investment in larger groups, in particular in species in which mothers also show a significant reduction in post-natal investment. However, even in this limited sample, substantial variation exists in the relationship between helper number and egg size, and the overall effect appears to be driven by a few well-studied species.DiscussionOur results, albeit based on a small sample of studies and species, indicate that cooperatively breeding females tend to produce smaller eggs in larger groups. These findings on prenatal investment accord with previous studies showing similar load-lightening reductions in postnatal parental effort (leading to concealed helper effects), but do not provide empirical support for differential allocation. However, the considerable variation in effect size across studies suggests that maternal investment is mitigated by additional factors. Our findings indicate that variation in the social environment may influence life-history strategies and suggest that future studies investigating within-individual changes in maternal investment in cooperative breeders offer a fruitful avenue to study the role of adaptive plasticity.

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Kin recognition and adjustment of reproductive effort in zebra finches

Biology Letters ◽

10.1098/rsbl.2010.0417 ◽

2010 ◽

Vol 6 (6) ◽

pp. 762-764 ◽

Cited By ~ 19

Author(s):

Aneta Arct ◽

Joanna Rutkowska ◽

Rafał Martyka ◽

Szymon M. Drobniak ◽

Mariusz Cichoń

Keyword(s):

Genetic Similarity ◽

Reproductive Effort ◽

Kin Recognition ◽

Reproductive Investment ◽

Taeniopygia Guttata ◽

Zebra Finches ◽

Differential Allocation ◽

Male And Female ◽

Sexual Traits ◽

Clutch Mass

The differential allocation theory predicts that females should invest more in offspring produced with attractive partners, and a number of studies support this prediction in birds. Females have been shown to increase reproductive investment when mated to males showing elaborated sexual traits. However, mate attractiveness might also depend on the interaction between male and female genotypes. Accordingly, females should invest more in offspring sired by individuals that are genetically dissimilar or carry superior alleles. Here, we show in zebra finches ( Taeniopygia guttata ) that pairs of unfamiliar genetic brothers and sisters are less likely to reproduce in comparison with randomly mated pairs. Among the brother–sister pairs, those that attempted to breed laid smaller clutches and of lower total clutch mass. Our results provide the first experimental evidence that females adjust their reproductive effort in response to the genetic similarity of their partners. Importantly, these results imply a female ability to assess relatedness of a social mate without prior association.

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Differential allocation in relation to mate song quality in the Bengalese finch

Behaviour ◽

10.1163/1568539x-00003106 ◽

2013 ◽

Vol 150 (13) ◽

pp. 1491-1508 ◽

Cited By ~ 8

Author(s):

M. Soma ◽

K. Okanoya

Keyword(s):

Sex Ratio ◽

Clutch Size ◽

Egg Production ◽

Reproductive Investment ◽

Production Performance ◽

Egg Mass ◽

Differential Allocation ◽

Bengalese Finch ◽

Biased Sex Ratio ◽

Sexual Traits

Postmating sexual selection plays an important part in the evolution of secondary sexual characters. Based on differential allocation theory that predicts biased reproductive investment of females depending on the attractiveness of mates, a number of previous studies have shown that egg production is related in various ways to ornamental sexual traits of males, but evidence for behavioural sexual traits is less abundant. In this study we examine such maternal effects in relation to birdsong. Because the Bengalese finch is a monomorphic songbird, courtship song serves a key role in mate choice. To take into account individual female differences in egg production performance, we sequentially paired naïve, captive, female Bengalese finches to two different males, and investigated if their reproductive investment (clutch size, egg mass and hatchling sex ratio) was related to the song traits of their mates. We found that clutch size and egg mass were highly repeatable within individual females while sex ratio was not. Despite the inflexibility of egg mass within each female, egg mass increased when females were mated to males with longer songs. In addition, we found a non-significant weak tendency toward male-biased sex ratio in relation to longer song duration of mates. Our findings suggest that females mated to better mates adjusted their reproductive investment by producing heavier eggs and possibly offspring of the more costly sex.

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Reproductive investment when mate quality varies: differential allocation versus reproductive compensation

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.2008.0299 ◽

2009 ◽

Vol 364 (1520) ◽

pp. 1039-1048 ◽

Cited By ~ 91

Author(s):

W. Edwin Harris ◽

Tobias Uller

Keyword(s):

Evolutionary Dynamics ◽

Reproductive Investment ◽

Investment Strategy ◽

Specific Pattern ◽

Theoretical Treatment ◽

Male Quality ◽

Differential Allocation ◽

High Quality ◽

Mate Quality ◽

Reproductive Compensation

Reproductive investment decisions form an integral part of life-history biology. Selection frequently favours plasticity in investment that can generate maternal effects on offspring development. For example, if females differentially allocate resources based on mate attractiveness or quality, this can create a non-genetic link between mate attractiveness and offspring fitness with potential consequences for ecological and evolutionary dynamics. It is therefore important to understand under what conditions differential investment into offspring in relation to male quality is expected to occur and the direction of the effect. Two opposite predictions, increased investment into offspring produced with high-quality mates (differential allocation (DA)) and increased investment with low-quality males (reproductive compensation (RC)) have been suggested but no formal theoretical treatment justifying the assumptions underlying these two hypotheses has been conducted to date. Here, we used a state-based approach to investigate the circumstances under which the variation in mate quality results in differential female investment into offspring and how this interacts with female energetic resource levels. We found that a pattern of increased investment when mating with high-quality mates (i.e. DA) was the most common optimal investment strategy for females in our model. By contrast, increased investment when mating with low-quality mates (i.e. RC) was predicted only when the relative impact of parental investment on offspring quality was low. Finally, we found that the specific pattern of investment in relation to male quality depends on female energetic state, the likelihood for future mating opportunities and the expected future distribution of mate quality. Thus, the female's age and body condition should be important factors mediating DA and RC, which may help to explain the equivocal results of empirical studies.

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Enough for all: no mating effort adjustment to varying mate availability in a gift-giving spider

Behavioral Ecology ◽

10.1093/beheco/arz102 ◽

2019 ◽

Vol 30 (5) ◽

pp. 1461-1468

Author(s):

Martina Magris ◽

Cristina Tuni

Keyword(s):

Reproductive Investment ◽

Mating Effort ◽

Gift Giving ◽

Mate Availability ◽

Mating Opportunities

Males of a gift-giving spider do not modify their allocation to reproduction when mating opportunities vary. Due to their costly courtship via provision of food gifts to females, with high female availability males should reduce their reproductive investment per partner to avoid exhausting their energetic budget too early. Our findings suggest instead that males may be able to enlarge their total reproductive budget, possibly drawing resources from their food gifts by partially feeding on them.

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A female's past experience with predators affects male courtship and the care her offspring will receive from their father

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2015.1840 ◽

2015 ◽

Vol 282 (1819) ◽

pp. 20151840 ◽

Cited By ~ 13

Author(s):

Katie E. McGhee ◽

Sally Feng ◽

Sagan Leasure ◽

Alison M. Bell

Keyword(s):

Parental Care ◽

Predation Risk ◽

Gasterosteus Aculeatus ◽

Reproductive Investment ◽

Male Mating ◽

Differential Allocation ◽

Male Courtship ◽

The Past ◽

Past Experiences ◽

First Time

Differential allocation occurs when individuals adjust their reproductive investment based on their partner's traits. However, it remains unknown whether animals differentially allocate based on their partner's past experiences with predation risk. If animals can detect a potential mate's experience with predators, this might inform them about the stress level of their potential mate, the likelihood of parental effects in offspring and/or the dangers present in the environment. Using threespined stickleback ( Gasterosteus aculeatus ), we examined whether a female's previous experience with being chased by a model predator while yolking eggs affects male mating effort and offspring care. Males displayed fewer conspicuous courtship behaviours towards females that had experienced predation risk in the past compared with unexposed females. This differential allocation extended to how males cared for the resulting offspring of these matings: fathers provided less parental care to offspring of females that had experienced predation risk in the past. Our results show for the first time, to our knowledge, that variation among females in their predator encounters can contribute to behavioural variation among males in courtship and parental care, even when males themselves do not encounter a predator. These results, together with previous findings, suggest that maternal predator exposure can influence offspring development both directly and indirectly, through how it affects father care.

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Maternal investment of female mallards is influenced by male carotenoid-based coloration

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2010.1115 ◽

2010 ◽

Vol 278 (1706) ◽

pp. 781-788 ◽

Cited By ~ 27

Author(s):

M. Giraudeau ◽

C. Duval ◽

G. Á. Czirják ◽

V. Bretagnolle ◽

C. Eraud ◽

...

Keyword(s):

Reproductive Investment ◽

Maternal Investment ◽

Egg Laying ◽

Reproductive Value ◽

Egg Mass ◽

Differential Allocation ◽

Chick Survival ◽

Carotenoid Concentration ◽

Female Investment ◽

Choice Period

The differential allocation hypothesis predicts that females modify their investment in a breeding attempt according to its reproductive value. One prediction of this hypothesis is that females will increase reproductive investment when mated to high-quality males. In birds, it was shown that females can modulate pre-hatch reproductive investment by manipulating egg and clutch sizes and/or the concentrations of egg internal compounds according to paternal attractiveness. However, the differential allocation of immune factors has seldom been considered, particularly with an experimental approach. The carotenoid-based ornaments can function as reliable signals of quality, indicating better immunity or ability to resist parasites. Thus, numerous studies show that females use the expression of carotenoid-based colour when choosing mates; but the influence of this paternal coloration on maternal investment decisions has seldom been considered and has only been experimentally studied with artificial manipulation of male coloration. Here, we used dietary carotenoid provisioning to manipulate male mallard ( Anas platyrhynchos ) bill coloration, a sexually selected trait, and followed female investment. We show that an increase of male bill coloration positively influenced egg mass and albumen lysozyme concentration. By contrast, yolk carotenoid concentration was not affected by paternal ornamentation. Maternal decisions highlighted in this study may influence chick survival and compel males to maintain carotenoid-based coloration from the mate-choice period until egg-laying has been finished.

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Differential allocation of parental investment and the trade-off between size and number of offspring

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2018.1074 ◽

2018 ◽

Vol 285 (1884) ◽

pp. 20181074 ◽

Cited By ~ 7

Author(s):

Irja Ida Ratikainen ◽

Thomas Ray Haaland ◽

Jonathan Wright

Keyword(s):

Empirical Studies ◽

Reproductive Investment ◽

Optimal Decision ◽

Offspring Size ◽

Stochastic Dynamic ◽

Optimal Size ◽

Reproductive Costs ◽

Male Quality ◽

Differential Allocation ◽

Female Investment

When parents decide how much to invest in current versus future offspring and how many offspring to divide their current investments between, the optimal decision can be affected by the quality of their partner. This differential allocation (DA) is highly dependent on exactly how partner quality affects reproductive costs and offspring benefits. We present a stochastic dynamic model of DA in which females care for a series of clutches when mated with males of different quality. In each reproductive event, females choose the size and number of offspring. We find that if partner quality affects reproductive costs, then DA in total reproductive investment occurs only via changes in the number of offspring. DA in the optimal size of the offspring occurs only if partner quality affects the offspring benefit function. This is mostly in the form of greater female investment per offspring as male quality decreases. Simultaneously, we find that adaptive DA increases the number of offspring, and thus the amount of total investment, as male quality increases. Only certain model scenarios produce the positive DA in offspring size seen in empirical studies, providing a predictive framework for DA and how partner quality affects reproductive costs and offspring benefits.

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