Spelling suggestions: "subject:"sperm competition"" "subject:"sperm kompetition""
41 |
Dilemas sexuais de uma aranha produtora de presentes nupciais: efeitos da fome e da competição por fêmeas sobre o esforço de acasalamento dos machos / Sexual dilemmas of a gift-giving spider: effects of hunger and competition for females on the male mating effortRenato Chaves de Macedo Rego 14 July 2014 (has links)
Para avaliar a quantidade ótima de energia e recursos a ser investida em reprodução, um animal deve não só acessar informações sobre sua própria condição corporal, como acessar também informações sobre coespecíficos presentes no ambiente em que vive. Este trabalho investigou essas duas vias (endógena e exógena) de obtenção de informação. Utilizando como organismo modelo a aranha Paratrechalea ornata (Trechaleidae), uma espécie em que os machos produzem presentes nupciais, este estudo investigou: (a) se machos investem mais tempo de busca quando na presença de pistas químicas de fêmeas virgens; (b) se machos aumentam ou diminuem o investimento na produção do presente nupcial quando há pistas da presença de machos competidores; (c) se restrições alimentares impõem efeitos de curto e longo prazo sobre o comportamento de construção de presentes nupciais. Machos mostraram preferência por locais com pistas da presença de fêmeas, mas não diferenciaram pistas de fêmeas virgens e copuladas. Diante de pistas da presença de um macho competidor, machos produziram presentes de menor qualidade, com menos seda. Por fim, restrições alimentares provocam efeitos de curto e longo prazo no comportamento reprodutivo dos machos, diminuindo a frequência de produção do presente nupcial e o tamanho do presente construído. Conjuntamente, os três experimentos realizados mostram que machos de P. ornata utilizam tanto informações exógenas quanto endógenas para ajustar seu investimento em reprodução. A combinação das informações obtidas deve aumentar a eficiência no gasto de energia, maximizando o sucesso reprodutivo dos machos sem que isso prejudique a manutenção de seu organismo / To evaluate the optimal amount of energy and resources to be invested in reproduction, animals should not only obtain information about their own body condition, but they should also obtain information about conspecifics in the environment where they live. This study investigated these two ways (endogenous and exogenous) of acquiring information. Using as model organism the spider Paratrechalea ornata (Trechaleidae), a species in which males produce nuptial gifts, this study investigated: (a) if males invest more time searching for sexual partners in the presence of chemical cues of virgin females; (b) if males increase or decrease the investment in nuptial gift construction in the presence of chemical cues of competitor males; (c) if food deprivation imposes short- and long-term effects on nuptial gift construction. Males showed a preference for sites with cues of females, but they did not discriminate cues of virgin from cues of copulated females. When males detected cues of a male competitor, they produced lower quality gifts, with less silk. Finally, food deprivation imposed both short- and long-term negative effects on male reproductive behavior, decreasing the frequency of nuptial gift construction and also the size of the gift. Together, the three experiments show that males of P. ornata use both exogenous as endogenous information to adjust their investment in reproduction. The combination of information obtained may increase the efficiency in energy use, maximizing male reproductive success without compromising self maintenance
|
42 |
Caracterização do dimorfismo intrassexual masculino de Doryteuthis plei (Mollusca: Cephalopoda) como base para compreensão dos mecanismos de competição espermática em lulas / Characterization of male intrasexual dimorphism in Doryteuthis plei (Mollusca: Cephalopoda), as a basis for understanding sperm competition mechanisms in squidsApostólico, Lígia Haselmann 18 January 2017 (has links)
O processo de seleção sexual influencia de forma intensa o sucesso reprodutivo de cada indivíduo. Desde sua formulação teórica durante o século XIX, evidências cumulativas a respeito da poliandria em fêmeas permitiram a ampliação de seu conceito inicial, uma vez constatada que a disputa pela paternidade da prole não se limitava à competição pelo acesso à fêmea, mas poderia também prolongar-se mesmo após a cópula. Durante a década de 1970, essa disputa pós-copulatória entre machos foi formalizada sob o conceito de competição espermática, a qual visa a maximizar o sucesso do esperma de um macho sobre um rival na fertilização dos ovos. Evidências para um número crescente de táxons demonstram que a intensa competição pré e pós-copulatória entre machos é também uma das fontes responsáveis pela evolução e manutenção de táticas alternativas de reprodução dentro de uma mesma espécie, nas quais machos com menor sucesso na monopolização de fêmeas e combate com intraespecíficos adotam comportamentos furtivos para acesso ao sexo oposto, como forma de assegurar algum sucesso reprodutivo. Em muitas espécies, a adoção de táticas alternativas de reprodução são relacionadas não somente às diferenças comportamentais entre os machos, mas também à diversidade fenotípica dentro do mesmo sexo, caracterizada por descontinuidades morfológicas, fisiológicas e de ciclo de vida, conhecida pelo termo ‘dimorfismo intrassexual’. Em lulas da família Loliginidae, a existência de morfos alternativos, denominados machos consort e sneaker, já foi constatada para diversas espécies e é associada a diferenças comportamentais entre eles, principalmente relacionadas à posição de cópula e sítio de deposição de espermatóforos no interior da fêmea. No entanto, a associação entre táticas alternativas de reprodução e dimorfismo intrassexual em machos é praticamente desconhecida, com exceção à espécie Heterololigo bleekeri, para a qual esse dimorfismo tem sido estudado extensivamente ao longo da última década. Nesse contexto, a presente Dissertação de Mestrado teve como principal objetivo investigar a existência de dimorfismo intrassexual masculino em Doryteuthis plei (Blainville, 1823), uma espécie de importância comercial para as regiões Sul e Sudeste do Brasil e para a qual, apesar de evidências indiretas sugerirem sua presença, tal dimorfismo nunca havia sido averiguado. Por meio de análises morfológicas e modelos estatísticos, o primeiro capítulo descreve a existência desse dimorfismo na espécie, o qual foi reconhecido a partir da constatação da presença de duas classes de tamanho de machos sexualmente maduros, caracterizadas pela produção de espermatóforos e espermatângios com morfologias descontínuas. Além disso, espermatângios amostrados de machos das duas classes de tamanho mostraram-se congruentes àquelas implantados nos dois sítios distintos da fêmea, resultado que permitiu associar o dimorfismo intrassexual à adoção das táticas de sneaker e consort na espécie. A partir dessa constatação, o primeiro capítulo explorou ainda o investimento gonadal exibido por machos dimórficos. Os resultados mostraram que machos sneakers apresentavam maiores investimentos relativos em gônadas do que machos consorts, um resultado que se enquadra nos modelos teóricos de “sneaks and guarders” de competição espermática. No entanto, enquanto as premissas teóricas propõem também que machos sneakers devem apresentar maiores investimentos por fêmea, constatamos que, na espécie de estudo, machos sneakers produzem espermatóforos com menor proporção de massa espermática do que machos consorts. Esses resultados, somados a observações comportamentais realizadas ao longo desse trabalho, sugerem que a estratégia adotada por machos sneakers deve estar relacionada ao fracionamento de seu investimento em produtos ejaculatórios, de forma que investimentos menores por fêmea permitiriam a realização de maior número de cópulas. Dando continuidade à caracterização do dimorfismo intrassexual na espécie, análises comparativas entre machos dimórficos com relação a estruturas do sistema reprodutor, tema do segundo capítulo, demonstraram que as diferenças quanto à morfologia funcional de espermatóforos intactos estavam associadas às divergências encontradas quanto à reação espermatofórica, liberação de espermatozoides e morfologia de espermatângios entre machos sneakers e consorts. Além disso, sob o contexto da competição espermática, o segundo capítulo discute como o padrão de reprodução de lulas da família Loliginidae, e.g., a existência de dois sítios de fertilização e diferenças nos intervalos entre cópulas e desovas, resultaria em pressões seletivas divergentes sobre os produtos ejaculatórios de machos dimórficos e influenciaria a evolução e manutenção do dimorfismo intrassexual na espécie. Por fim, o terceiro capítulo aborda a descoberta de machos com espermatóforos e espermatângios com morfologias intermediárias entre os fenótipos de sneakers e consorts, além da questão da diferença de idade entre machos dimórficos. Combinados, os resultados desse capítulo permitiram a proposição de uma hipótese ontogenética sobre a expressão de fenótipos alternativos na espécie, uma questão extremamente inovadora para cefalópodes. Apesar de tratar-se de um campo ainda completamente inexplorado para o grupo, espera-se que esses resultados contribuam para a compreensão dos fatores responsáveis pela expressão sequencial de fenótipos alternativos e pela determinação do dimorfismo intrassexual em lulas / Sexual selection comprises a powerful force that intensively influences the reproductive success of each individual. Since its theoretical formulation in the nineteenth century, cumulative evidence regarding the existence of polyandry in females has expanded its initial concept, once it became clear that offspring paternity disputes were not limited to the competition for female access, but that they could in fact be prolonged even after copulation. In the 1970s, this male post-copulatory dispute was formalized under the concept of sperm competition, which aims at maximizing the success of one male’s sperm over its competitors in the fertilization of females’ eggs. Evidence gathered from a growing number of taxa has shown that intense pre and post-copulatory competition between males is also one of the responsible sources for the evolution and maintenance of alternative reproductive tactics within a species, in which males that are less successful in mate guarding and fighting contests with conspecifics adopt sneaking and opportunistic behaviors as a way to ensure some mating success. In many species, alternative mating tactics are not restricted to behavioral differences between males, being also related to a phenotypic diversity, with discontinuous morphological and physiological traits and distinct life histories between conspecifics, a phenomenon known as intrasexual dimorphism. In loliginid squids, the existence of alternative morphs (sneaker and consort males) has already been reported for several species, and it is has been correlated to behavioral differences, specially related to mating position and spermatophore deposition sites within the female\'s body. However, the association between alternative mating tactics and male intrasexual dimorphism is virtually unexplored, except for the species Heterololigo bleekeri, in which such dimorphism has been extensively studied over the last decade. In this context, the present Master’s Dissertation aimed to investigate the existence of male intrasexual dimorphism in Doryteuthis plei (Blainville, 1823), a squid of commercial importance in southern and southeastern Brazil, and for which such dimorphism has never been investigated, although indirect evidence suggests its existence. Using morphological analyses and statistical models, the first chapter describes the presence of such dimorphism in the species, which was detected based on the identification of two body size classes of sexually mature males, characterized by spermatophores and spermatangia displaying discontinuous morphologies between each other. Moreover, spermatangia sampled from both body size classes were congruent with those implanted on distinct female sites, a result that allowed the association between intrassexual dimorphism and adoption of sneaker and consort mating tactics in the species. Additionally, the first chapter also investigated the gonadal investment from dimorphic males, showing that sneakers exhibited higher investments in gonads than consorts, a result that fits into the theoretical ‘sneaks and guards’ models of sperm competition. However, while theoretical assumptions propose that sneakers should also present larger investments per female, we show that D. plei sneaker males produce spermatophores with lower concentrations of sperm mass than consorts. Combining these results with behavioral observations obtained throughout this study, we suggest that the sneaker strategy might be related to partitioning their ejaculate expenditure into extra mating opportunities, thus investing less per female but more in number of copulations. A further characterization of intrasexual dimorphism in this species was the main subject of the second chapter. Through comparative analyses of reproductive structures from dimorphic males, the results revealed that differences in the structural morphology of intact spermatophores were associated to differences regarding the spermatophoric reaction, spermatozoa release and spermatangia morphology between sneakers and consorts. Furthermore, under the context of sperm competition, the second chapter also provided a discussion on how the reproductive pattern of loliginid squids, e.g., the existence of two sites for fertilization of eggs and differences in the interval between mating and egg-laying, might result in divergent selective pressures on ejaculates from dimorphic males, influencing the evolution and maintenance of intrasexual dimorphism in this species. Finally, the third chapter describes the discovery of males that produced spermatophores and spermatangia displaying intermediate morphologies between both sneaker and consort phenotypes, and age differences reported for dimorphic males in the species. Combined, these results allowed the formulation of an ontogenetic hypothesis regarding alternative phenotype expression, which is extremely innovative for cephalopods. Although this hypothesis comprises a completely unexplored field for this group, it is highly expected that these results might contribute to the further understanding of possible factors that may be responsible for the sequential expression of alternative phenotypes, and ultimately for the determination of intrasexual dimorphism in squids
|
43 |
Sexual selection in <i>Pomatoschistus</i> – nests, sperm competition, and paternal careSvensson, Ola January 2004 (has links)
<p>Sexual selection arises through variation in reproductive success. This thesis investigates different aspects important in sexual selection, namely nest building, sperm competition, paternity and paternal care, and their mutual interrelationships. In the studied species, the sand goby (<i>Pomatoschistus minutus</i>) and the common goby (<i>Pomatoschistus microps</i>), sperm competition did arise when small males, so called sneakers, sneaked into other males nests and released sperm. They seemed to use female behaviour as their prime cue for a sneaking opportunity. However, also nest-holders, both with and without eggs, were found to fertilize eggs in the nests of other males.</p><p>Clearly, nest-holding males tried to prevent other males from spreading their sperm in their nests, since they showed aggression towards such males. A nest building experiment indicated that the small nest-openings found in the sneaker male treatment were sexually selected through protection against sneaking or by female choice. Yet, no behavioural or genetical support for the hypothesis that the nest functions as a physical or visual defence, or that sneaker males prefer to sneak upon nests with wide nest-openings, were found in the other studies. Still, individual nest-holding males showed a higher mucus preparation effort inside the nest in the presence of a sneaker male than when alone. In close relatives, such mucus contains sperm, suggesting an importance in sperm competition. However, the mucus may also have pheromone and anti-bacterial functions and may constitute a mating effort, as found in other gobies. Both a behavioural and a mate choice experiment suggested that the males were not less eager to spawn in the presence of a sneaker male.</p><p>Sneak intrusion did not affect nest defence, fanning or filial cannibalism, nor had paternity an effect on filial cannibalism. This and various life history aspects, together with the fact that the parasitic male only fertilized a fraction of the clutches, would predict females to ignore sneaker males. This was also the case, as the presence of sneaker males was found not to affect female spawning decision. Still, several females spawned in two nests, which coincided with parasitic spawnings, suggesting a cost of disturbance for the females and thus a substantial cost to the nest-holding males in terms of lost mating success. However, females paid attention to other traits in their choice of mate since spawning was associated with sand volume of the nest, but not with nest-opening width. Also, female (but not male) courtship was correlated with partial clutch filial cannibalism, indicating that females are able to anticipate future male cannibalism.</p><p>In a partial correlation of nest opening, sand volume, male courtship display, displacement fanning and male size, a large number of traits were correlated both positively and negatively with regard to how we may expect them to be appreciated by females. For instance, males which fan well also build large nests or display intensely (but not both). Together with all the other results of this thesis, this shows the entangled selection pressures working on breeding animals, as well as the different male and female tactics employed to maximize their reproduction.</p>
|
44 |
Polyandry and the evolution of reproductive divergence in insectsNilsson, Tina January 2004 (has links)
<p>Multiple mating by females is common in nature. Yet, the evolution and maintenance of polyandry remains a bit of an evolutionary puzzle. It was my aim in this thesis to reach a greater understanding of this phenomenon as well as to investigate the consequences of polyandry on the evolution of reproductive divergence in insects. In an extensive meta analysis addressing the direct effects of multiple mating on female fitness in insects, I found that insects gain from multiple matings in terms of increased lifetime offspring production. In species without nuptial feeding, increased mating rate leads to decreased female lifespan and my results strongly support the existence of an intermediate optimal female mating rate. However, results from an experimental study where I examined the relationship between female fitness and mating rate in the bean weevil (Callosobruchus maculatus) showed that female fitness was maximized at two alternative mating rates, indicating that some species may exhibit a more complex relationship between the costs and benefits of mating. In the meta analysis on species with nuptial feeding, I found only positive effects of increased mating rate and the puzzle is rather what constrains the actual mating rates of females in these groups.</p><p>Sexual selection is a very potent driver of rapid evolutionary change in reproductive characters. Most research has focussed on precopulatory sexual selection, but in promiscuous species sexual selection continues after copulation and variance in male fertilization success gives rise to postcopulatory sexual selection. In this thesis I found that three allopatric populations of the red flour beetle (Tribolium castaneum) have diverged in traits related to reproduction. Male genotype affected all aspects of female reproduction, but more interestingly, males and females interacted in their effect on offspring production and reproductive rate, showing that the divergence was due to the evolution of both male and female reproductive traits.</p><p>When studying postcopulatory sexual selection, sperm competition has been put forward as the main source of variance in fertilization success. The results from a set of double-mating experiments, using the same populations of flour beetles, provided strong evidence that cryptic female choice is also important in generating variance in male fertilization success. I found not only main effects of female genotype on male fertilization success but also male-female interactions which provide more unambiguous evidence for cryptic female choice. Finally, I attempted to uncover which male signals-female receptors are involved in the reproductive divergence observed in the Tribolium populations. In a double-mating experiment I manipulated female perception of two male reproductive signals, copulatory courtship and cuticular hydrocarbons, and the results indicate that, within populations, both signals are sexually selected. However, only male cuticular hydrocarbons seem to be involved in the reproductive divergence between the populations. </p><p>In conclusion, multiple mating by female insects can be understood solely in terms of direct fitness benefits resulting from increased offspring production. I have shown that postcopulatory sexual selection can lead to rapid divergence in reproductive traits related to mating and that cryptic female choice plays an important role in this divergence.</p>
|
45 |
Sexual conflict and male-female coevolution in the fruit flyFriberg, Urban January 2006 (has links)
<p>Harmony and cooperation was for long believed to dominate sexual interactions. This view slowly started to change 25 years ago and is today replaced with a view where males and females act based on what is best from a costs-benefits perspective. When sex specific costs and benefits differ, concerning reproductive decision influenced by both sexes, sexual conflict will occur. The basis for discordant reproductive interests between the sexes is that males produce many small gametes, while females’ produce few and large gametes. One result of this difference is that the optimal mating rate differs between the sexes. Males, with their many small sperm, maximize their reproductive output by mating with many females, while females often do best by not mating more frequently than to fertilize their eggs, since mating often entails a cost. Sexual conflict over mating is thus an important factor shaping the interactions between the sexes. In this thesis I study this and related conflicts between the sexes, using mathematical models, fruit flies and comparative methods. Mathematical modelling was used to explore how males and females may coevolve under sexual conflict over mating. This model shows that sexual conflict over mating results in the evolution of costly female mate choice, in terms high resistance to matings, and costly exaggerated male sexual traits, aimed to manipulate females into mating. A key assumption in this model is that males which females find attractive also are more harmful to females. This assumption was tested by housing fruit fly females with either attractive or unattractive males. Females kept with attractive males were courted and mated more, and suffered a 16 percent reduction in lifetime offspring production. In another study I measured genetic variation in two antagonistic male traits used to compete over females; offence - a male’s ability to acquire new mates and supplant stored sperm, and defence - a male’s ability to induce fidelity in his mates and prevent sperm displacement when remating occurs. Independent additive genetic variation and positive selection gradients were found for both these traits, indicating an ongoing arms race between these male antagonistic traits. This arms race also had a negative impact on females, since high values of offence compromised female fitness. Genetic variation in female ability to withstand male harm was also tested for and found, indicating that females evolve counter adaptations to reduce the effect of harmful male traits. Finally, the proposed link between sexual conflict and speciation was tested. Theory suggests that perpetual sexual arms races will cause allopatric populations to evolve along different evolutionary trajectories, resulting in speciation. This theory was tested using comparative methods by contrasting the number of extant species in taxa with high and low opportunity for sexual conflict. The study showed that taxa with high opportunity for sexual conflict, on average, has four times as many species as those with low opportunity, supporting that sexual conflict is a key process in speciation.</p>
|
46 |
Cryptic Female Choice and Male Mating Behaviour : Sexual Interactions in BeetlesEdvardsson, Martin January 2005 (has links)
<p>The importance of cryptic female choice, i.e. female post-copulatory influence over male reproductive success, in driving the evolution of male traits remains controversial. The main aim of this thesis was to understand the post-copulatory consequences of sexual interactions and the importance of cryptic female choice in two species of beetle.</p><p>Males of the red flour beetle Tribolium castaneum use their legs to rub the lateral edges of the female elytra during mating. When manipulating female perception of this behaviour, I found that females preferentially use the sperm of males with vigorous leg rubbing when they mate with more than one male. Leg rubbing also appeared to increase female rate of oviposition. Females do not seem to gain any indirect benefits by preferring males with an intense leg rubbing behaviour since this behaviour was found to have very low narrow sense heritability and did not appear to be condition dependent in its expression.</p><p>Males of the bruchid beetle Callosobruchus maculatus have spiny genitalia that harm their mates. Females kick males during copulation and when prevented from kicking, suffered reduced lifetime offspring production as a consequence of more extensive injuries. Males were not able to delay female remating, increase rate of oviposition or increase sperm precedence by inflicting relatively severe injuries to non-kicking females. Hence, the injuries appear to be side effects of male efforts to remain in copula. When copulation duration was manipulated, ejaculate size and female lifetime offspring production increased with the length of copulation. Females reduced their mating rate when they had access to water, suggesting that they obtain water from the large ejaculates and trade-off their need for additional water against the costs of mating. Males may then reduce the benefits of remating by providing their mates with a large amount of water. Females did not increase their remating propensity to avoid inbreeding when they had mated to brothers. Together, these studies reveal the complexity of sexual interactions and the importance of post-copulatory processes for the fitness of both males and females.</p>
|
47 |
Mutual mate choice in a terrestrial salamander, Plethodon shermani, with long-term sperm storageEddy, Sarah L. 17 April 2012 (has links)
Sexual selection can influence the mating system of an organism through multiple mechanisms. These mechanisms result in variation in reproductive success among individuals, and include scramble competition, endurance rivalries, contests, mate choice and cryptic choice, and sperm competition. Understanding the mating system of a species requires the identification of which processes are occurring, and to what degree. In this thesis, I explored the influence of mate choice mechanisms on the mating system of the terrestrial red-legged salamander, Plethodon shermani. I also documented the potential for post-copulatory processes (such as sperm competition and cryptic choice) to influence mating system dynamics.
The evolution of mate choice requires (among other factors) variation in the reproductive value of potential mates. This variation is made apparent to choosy individuals through cues. Most animals use multiples cues incorporating many modalities to assess the reproductive quality of potential mates. In Chapter 2, I tested the contribution of two cues (chemical and visual) to mate choice by female P. shermani. I found that a male visual cue ("foot-dancing") increased courtship success. In contrast, delivery of non-volatile pheromones during courtship did not influence courtship success in the laboratory setting, but did affect the duration of one of the courtship stages. In Chapter 4, I identified a tactile cue that was significantly correlated with male reproductive success. Thus, P. shermani females could use at least three modalities to assess the reproductive quality of potential mates.
Mate choice can also evolve in males. In Chapter 3, I tested this possibility in P. shermani. I found that males vary the reproductive effort they invest in a particular courtship based on the reproductive value of their partner, indicating male mate choice is occurring. A male invested most when paired with a female with large, well developed ova, and invested less with females that were non-gravid or had small ova. In addition to documenting male mate choice, I showed that the male visual display ("foot-dancing") that affected female mate choice was correlated with male condition, implying foot-dancing may be an honest indicator of male quality.
Finally, in Chapter 5, I explored the potential for post-copulatory processes to influence the P. shermani mating system. The opportunity for sperm from multiple males to overlap in the female reproductive tract (i.e., the opportunity for females to mate multiply) is necessary for post-copulatory processes such as cryptic choice and sperm competition. The capacity for long-term sperm storage by females can increase the likelihood that this overlap in sperm from multiple males will occur. I found that females can store viable sperm for at least 9 months and in some cases beyond oviposition. In addition, I documented one female with sperm in her sperm storage organ from a mating that occurred 17 months earlier. Such lengthy sperm storage allows the possibility of sperm from one breeding season to interact with sperm from a subsequent season. Thus, the potential for post-copulatory sexual selection within this salamander system is high. / Graduation date: 2012
|
48 |
Polyandry and the evolution of reproductive divergence in insectsNilsson, Tina January 2004 (has links)
Multiple mating by females is common in nature. Yet, the evolution and maintenance of polyandry remains a bit of an evolutionary puzzle. It was my aim in this thesis to reach a greater understanding of this phenomenon as well as to investigate the consequences of polyandry on the evolution of reproductive divergence in insects. In an extensive meta analysis addressing the direct effects of multiple mating on female fitness in insects, I found that insects gain from multiple matings in terms of increased lifetime offspring production. In species without nuptial feeding, increased mating rate leads to decreased female lifespan and my results strongly support the existence of an intermediate optimal female mating rate. However, results from an experimental study where I examined the relationship between female fitness and mating rate in the bean weevil (Callosobruchus maculatus) showed that female fitness was maximized at two alternative mating rates, indicating that some species may exhibit a more complex relationship between the costs and benefits of mating. In the meta analysis on species with nuptial feeding, I found only positive effects of increased mating rate and the puzzle is rather what constrains the actual mating rates of females in these groups. Sexual selection is a very potent driver of rapid evolutionary change in reproductive characters. Most research has focussed on precopulatory sexual selection, but in promiscuous species sexual selection continues after copulation and variance in male fertilization success gives rise to postcopulatory sexual selection. In this thesis I found that three allopatric populations of the red flour beetle (Tribolium castaneum) have diverged in traits related to reproduction. Male genotype affected all aspects of female reproduction, but more interestingly, males and females interacted in their effect on offspring production and reproductive rate, showing that the divergence was due to the evolution of both male and female reproductive traits. When studying postcopulatory sexual selection, sperm competition has been put forward as the main source of variance in fertilization success. The results from a set of double-mating experiments, using the same populations of flour beetles, provided strong evidence that cryptic female choice is also important in generating variance in male fertilization success. I found not only main effects of female genotype on male fertilization success but also male-female interactions which provide more unambiguous evidence for cryptic female choice. Finally, I attempted to uncover which male signals-female receptors are involved in the reproductive divergence observed in the Tribolium populations. In a double-mating experiment I manipulated female perception of two male reproductive signals, copulatory courtship and cuticular hydrocarbons, and the results indicate that, within populations, both signals are sexually selected. However, only male cuticular hydrocarbons seem to be involved in the reproductive divergence between the populations. In conclusion, multiple mating by female insects can be understood solely in terms of direct fitness benefits resulting from increased offspring production. I have shown that postcopulatory sexual selection can lead to rapid divergence in reproductive traits related to mating and that cryptic female choice plays an important role in this divergence.
|
49 |
Sexual selection in Pomatoschistus – nests, sperm competition, and paternal careSvensson, Ola January 2004 (has links)
Sexual selection arises through variation in reproductive success. This thesis investigates different aspects important in sexual selection, namely nest building, sperm competition, paternity and paternal care, and their mutual interrelationships. In the studied species, the sand goby (Pomatoschistus minutus) and the common goby (Pomatoschistus microps), sperm competition did arise when small males, so called sneakers, sneaked into other males nests and released sperm. They seemed to use female behaviour as their prime cue for a sneaking opportunity. However, also nest-holders, both with and without eggs, were found to fertilize eggs in the nests of other males. Clearly, nest-holding males tried to prevent other males from spreading their sperm in their nests, since they showed aggression towards such males. A nest building experiment indicated that the small nest-openings found in the sneaker male treatment were sexually selected through protection against sneaking or by female choice. Yet, no behavioural or genetical support for the hypothesis that the nest functions as a physical or visual defence, or that sneaker males prefer to sneak upon nests with wide nest-openings, were found in the other studies. Still, individual nest-holding males showed a higher mucus preparation effort inside the nest in the presence of a sneaker male than when alone. In close relatives, such mucus contains sperm, suggesting an importance in sperm competition. However, the mucus may also have pheromone and anti-bacterial functions and may constitute a mating effort, as found in other gobies. Both a behavioural and a mate choice experiment suggested that the males were not less eager to spawn in the presence of a sneaker male. Sneak intrusion did not affect nest defence, fanning or filial cannibalism, nor had paternity an effect on filial cannibalism. This and various life history aspects, together with the fact that the parasitic male only fertilized a fraction of the clutches, would predict females to ignore sneaker males. This was also the case, as the presence of sneaker males was found not to affect female spawning decision. Still, several females spawned in two nests, which coincided with parasitic spawnings, suggesting a cost of disturbance for the females and thus a substantial cost to the nest-holding males in terms of lost mating success. However, females paid attention to other traits in their choice of mate since spawning was associated with sand volume of the nest, but not with nest-opening width. Also, female (but not male) courtship was correlated with partial clutch filial cannibalism, indicating that females are able to anticipate future male cannibalism. In a partial correlation of nest opening, sand volume, male courtship display, displacement fanning and male size, a large number of traits were correlated both positively and negatively with regard to how we may expect them to be appreciated by females. For instance, males which fan well also build large nests or display intensely (but not both). Together with all the other results of this thesis, this shows the entangled selection pressures working on breeding animals, as well as the different male and female tactics employed to maximize their reproduction.
|
50 |
Cryptic Female Choice and Male Mating Behaviour : Sexual Interactions in BeetlesEdvardsson, Martin January 2005 (has links)
The importance of cryptic female choice, i.e. female post-copulatory influence over male reproductive success, in driving the evolution of male traits remains controversial. The main aim of this thesis was to understand the post-copulatory consequences of sexual interactions and the importance of cryptic female choice in two species of beetle. Males of the red flour beetle Tribolium castaneum use their legs to rub the lateral edges of the female elytra during mating. When manipulating female perception of this behaviour, I found that females preferentially use the sperm of males with vigorous leg rubbing when they mate with more than one male. Leg rubbing also appeared to increase female rate of oviposition. Females do not seem to gain any indirect benefits by preferring males with an intense leg rubbing behaviour since this behaviour was found to have very low narrow sense heritability and did not appear to be condition dependent in its expression. Males of the bruchid beetle Callosobruchus maculatus have spiny genitalia that harm their mates. Females kick males during copulation and when prevented from kicking, suffered reduced lifetime offspring production as a consequence of more extensive injuries. Males were not able to delay female remating, increase rate of oviposition or increase sperm precedence by inflicting relatively severe injuries to non-kicking females. Hence, the injuries appear to be side effects of male efforts to remain in copula. When copulation duration was manipulated, ejaculate size and female lifetime offspring production increased with the length of copulation. Females reduced their mating rate when they had access to water, suggesting that they obtain water from the large ejaculates and trade-off their need for additional water against the costs of mating. Males may then reduce the benefits of remating by providing their mates with a large amount of water. Females did not increase their remating propensity to avoid inbreeding when they had mated to brothers. Together, these studies reveal the complexity of sexual interactions and the importance of post-copulatory processes for the fitness of both males and females.
|
Page generated in 0.1033 seconds