Socially flexible female choice differs among populations of the Pacific field cricket: geographical variation in the interaction coefficient psi (
            Ψ
            )

Indirect genetic effects (IGEs) occur when genes expressed in one individual affect the phenotype of a conspecific. Theoretical models indicate that the evolutionary consequences of IGEs critically depend on the genetic architecture of interacting traits, and on the strength and direction of phenotypic effects arising from social interactions, which can be quantified by the interaction coefficient Ψ . In the context of sexually selected traits, strong positive Ψ tends to exaggerate evolutionary change, whereas negative Ψ impedes sexual trait elaboration. Despite its theoretical importance, whether and how Ψ varies among geographically distinct populations is unknown. Such information is necessary to evaluate the potential for IGEs to contribute to divergence among isolated or semi-isolated populations. Here, we report substantial variation in Ψ for a behavioural trait involved in sexual selection in the field cricket Teleogryllus oceanicus : female choosiness. Both the strength and direction of Ψ varied among geographically isolated populations. Ψ also changed over time. In a contemporary population of crickets from Kauai, experience of male song increased female choosiness. In contrast, experience of male song decreased choosiness in an ancestral population from the same location. This rapid change corroborates studies examining the evolvability of Ψ and demonstrates how interpopulation variation in the interaction coefficient might influence sexual selection and accelerate divergence of traits influenced by IGEs that contribute to reproductive isolation in nascent species or subspecies.

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Intraspecific sperm competition genes enforce post-mating species barriers in Drosophila

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2014.2050 ◽

2014 ◽

Vol 281 (1797) ◽

pp. 20142050 ◽

Cited By ~ 24

Author(s):

Dean M. Castillo ◽

Leonie C. Moyle

Keyword(s):

Sexual Selection ◽

Reproductive Isolation ◽

Sperm Competition ◽

Competitive Ability ◽

Sexual Isolation ◽

Theoretical Models ◽

Sexually Selected Traits ◽

Genetic Mechanisms ◽

Selected Traits ◽

Additional Role

Sexual selection and sexual conflict are considered important drivers of speciation, based on both theoretical models and empirical correlations between sexually selected traits and diversification. However, whether reproductive isolation between species evolves directly as a consequence of intrapopulation sexual dynamics remains empirically unresolved, in part because knowledge of the genetic mechanisms (if any) connecting these processes is limited. Here, we provide evidence of a direct mechanistic link between intraspecies sexual selection and reproductive isolation. We examined genes with known roles in intraspecific sperm competition (ISC) in D. melanogaster and assayed their impact on conspecific sperm precedence (CSP). We found that two such genes ( Acp36DE and CG9997 ) contribute to both offensive sperm competition and CSP; null/knockdown lines both had lower competitive ability against D. melanogaster conspecifics and were no longer able to displace heterospecific D. simulans sperm in competitive matings. In comparison, Sex Peptide ( Acp70A )—another locus essential for ISC—does not contribute to CSP. These data indicate that two loci important for sperm competitive interactions have an additional role in similar interactions that enforce post-mating reproductive isolation between species, and show that sexual selection and sexual isolation can act on the same molecular targets in a gene-specific manner.

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Tests of the positive and functional allometry hypotheses for sexually selected traits in the Jamaican field cricket

Behavioural Processes ◽

10.1016/j.beproc.2021.104413 ◽

2021 ◽

pp. 104413

Author(s):

Susan M. Bertram ◽

Danya D. Yaremchuk ◽

Mykell L. Reifer ◽

Amy Villareal ◽

Matthew J. Muzzatti ◽

...

Keyword(s):

Field Cricket ◽

Sexually Selected Traits ◽

Selected Traits

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The quantitative genetics of sexual selection in the dung fly Sepsis cynipsea

Behaviour ◽

10.1163/156853904322981888 ◽

2004 ◽

Vol 141 (3) ◽

pp. 327-341 ◽

Cited By ~ 20

Author(s):

Wolf Blanckenhorn ◽

Claudia Mühlhäuser

Keyword(s):

Sexual Selection ◽

Body Size ◽

Genetic Correlation ◽

Quantitative Genetics ◽

Sexual Conflict ◽

Good Genes ◽

Male Body ◽

Selection Models ◽

Sexually Selected Traits ◽

Mating Cost

AbstractIn the common dung or black scavenger fly Sepsis cynipsea (Diptera: Sepsidae) several morphological and behavioural male and female traits interact during mating. Previous studies show that males attempt to mount females without courtship, females use vigorous shaking behaviour in response to male mounting, the duration of shaking is an indicator of both direct and indirect female choice and sexual conflict, and larger males enjoy a mating advantage. We conducted a quantitative genetic paternal half sib study to investigate the genetic underpinnings of these traits, notably body size (the preferred trait) and the associated female preference, and to assess the relative importance of various models generally proposed to account for the evolution of sexually selected traits. Several morphological traits and female shaking duration were heritable, thus meeting a key requirement of all sexual selection models. In contrast, two traits indicative of male persistence in mating were not. Male longevity was also heritable and negatively correlated with his mating effort, suggesting a mating cost. However, the crucial genetic correlation between male body size and female shaking duration, predicted to be negative by both 'good genes' and Fisherian models and positive by the sexual conflict (or chase-away) model, was zero. This could be because of low power, or because of constraints imposed by the genetic correlation structure. Based on our rsults we conclude that discriminating sexual selection models by sole means of quantitative genetics is difficult, if not impossible.

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The evolution of an ancient technology

Royal Society Open Science ◽

10.1098/rsos.170208 ◽

2017 ◽

Vol 4 (5) ◽

pp. 170208 ◽

Cited By ~ 4

Author(s):

Christopher D. Buckley ◽

Eric Boudot

Keyword(s):

Southeast Asia ◽

Cultural Transmission ◽

Rapid Change ◽

Biological Evolution ◽

Theoretical Models ◽

Ancient Technology ◽

Transmission Errors ◽

Sufficient Detail ◽

East And Southeast Asia ◽

Complex Forms

We investigate pattern and process in the transmission of traditional weaving cultures in East and Southeast Asia. Our investigation covers a range of scales, from the experiences of individual weavers (‘micro’) to the broad-scale patterns of loom technologies across the region (‘macro’). Using published sources, we build an empirical model of cultural transmission (encompassing individual weavers, the household and the community), focussing on where cultural information resides and how it is replicated and how transmission errors are detected and eliminated. We compare this model with macro-level outcomes in the form of a new dataset of weaving loom technologies across a broad area of East and Southeast Asia. The lineages of technologies that we have uncovered display evidence for branching, hybridization (reticulation), stasis in some lineages, rapid change in others and the coexistence of both simple and complex forms. There are some striking parallels with biological evolution and information theory. There is sufficient detail and resolution in our findings to enable us to begin to critique theoretical models and assumptions that have been produced during the last few decades to describe the evolution of culture.

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The evolution of parental cooperation in birds

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1512599112 ◽

2015 ◽

Vol 112 (44) ◽

pp. 13603-13608 ◽

Cited By ~ 35

Author(s):

Vladimír Remeš ◽

Robert P. Freckleton ◽

Jácint Tökölyi ◽

András Liker ◽

Tamás Székely

Keyword(s):

Sexual Selection ◽

Parental Care ◽

Social Environment ◽

Bird Species ◽

Theoretical Models ◽

Model System ◽

Social Effects ◽

Species Ranges ◽

Parental Strategies ◽

Life History Variables

Parental care is one of the most variable social behaviors and it is an excellent model system to understand cooperation between unrelated individuals. Three major hypotheses have been proposed to explain the extent of parental cooperation: sexual selection, social environment, and environmental harshness. Using the most comprehensive dataset on parental care that includes 659 bird species from 113 families covering both uniparental and biparental taxa, we show that the degree of parental cooperation is associated with both sexual selection and social environment. Consistent with recent theoretical models parental cooperation decreases with the intensity of sexual selection and with skewed adult sex ratios. These effects are additive and robust to the influence of life-history variables. However, parental cooperation is unrelated to environmental factors (measured at the scale of whole species ranges) as indicated by a lack of consistent relationship with ambient temperature, rainfall or their fluctuations within and between years. These results highlight the significance of social effects for parental cooperation and suggest that several parental strategies may coexist in a given set of ambient environment.

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Divergent evolutionary trajectories shape the postmating transcriptional profiles of conspecific and heterospecifically mated females

10.1101/2021.11.07.467655 ◽

2021 ◽

Author(s):

Fernando Diaz ◽

Allan W. Carson ◽

Xingsen Chen ◽

Joshua M. Coleman ◽

Jeremy M. Bono ◽

...

Keyword(s):

Sexual Selection ◽

Genetic Basis ◽

Intron Retention ◽

Transcriptional Response ◽

Isolated Populations ◽

Closely Related Species ◽

Transcriptional Profiles ◽

Future Studies ◽

Evolutionary Forces ◽

Evolutionary Trajectories

Postmating-prezygotic (PMPZ) reproductive isolation is hypothesized to result from divergent coevolutionary trajectories of sexual selection and/or sexual conflict in isolated populations (coevolutionary divergence model). However, the genetic basis of PMPZ incompatibilities between species is poorly understood. Here, we use a comparative framework to test predictions of the coevolutionary divergence model using a large transcriptomic dataset generated from con- and heterospecifically mated Drosophila mojavensis and D. arizonae female reproductive tracts. We found striking divergence between the species in the female postmating transcriptional response to conspecific mating, including differences in differential expression (DE), alternative splicing (AS), and intron retention (IR). As predicted, heterospecific matings produced disrupted transcriptional profiles, but the overall patterns of misregulation were different between the reciprocal crosses. Moreover, we found a positive correlation between postmating transcriptional divergence between species and levels of transcriptional disruption in heterospecific crosses, indicating that mating-responsive genes that have diverged more in expression also have more disrupted transcriptional profiles in heterospecifically mated females. Overall, our results are consistent with predictions of the coevolutionary divergence model and lay the foundation for future studies aimed at identifying specific genes involved in PMPZ incompatibilities and the evolutionary forces that have contributed to their divergence in closely related species.

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Endless forms of sexual selection

PeerJ ◽

10.7717/peerj.7988 ◽

2019 ◽

Vol 7 ◽

pp. e7988 ◽

Cited By ~ 4

Author(s):

Willow R. Lindsay ◽

Staffan Andersson ◽

Badreddine Bererhi ◽

Jacob Höglund ◽

Arild Johnsen ◽

...

Keyword(s):

Sexual Selection ◽

Mate Choice ◽

Genetic Architecture ◽

Mating Systems ◽

Molecular Techniques ◽

Population Divergence ◽

Signal Design ◽

Honest Signal ◽

Secondary Sexual Traits ◽

Sexually Selected Traits

In recent years, the field of sexual selection has exploded, with advances in theoretical and empirical research complementing each other in exciting ways. This perspective piece is the product of a “stock-taking” workshop on sexual selection and sexual conflict. Our aim is to identify and deliberate on outstanding questions and to stimulate discussion rather than provide a comprehensive overview of the entire field. These questions are organized into four thematic sections we deem essential to the field. First we focus on the evolution of mate choice and mating systems. Variation in mate quality can generate both competition and choice in the opposite sex, with implications for the evolution of mating systems. Limitations on mate choice may dictate the importance of direct vs. indirect benefits in mating decisions and consequently, mating systems, especially with regard to polyandry. Second, we focus on how sender and receiver mechanisms shape signal design. Mediation of honest signal content likely depends on integration of temporally variable social and physiological costs that are challenging to measure. We view the neuroethology of sensory and cognitive receiver biases as the main key to signal form and the ‘aesthetic sense’ proposed by Darwin. Since a receiver bias is sufficient to both initiate and drive ornament or armament exaggeration, without a genetically correlated or even coevolving receiver, this may be the appropriate ‘null model’ of sexual selection. Thirdly, we focus on the genetic architecture of sexually selected traits. Despite advances in modern molecular techniques, the number and identity of genes underlying performance, display and secondary sexual traits remains largely unknown. In-depth investigations into the genetic basis of sexual dimorphism in the context of long-term field studies will reveal constraints and trajectories of sexually selected trait evolution. Finally, we focus on sexual selection and conflict as drivers of speciation. Population divergence and speciation are often influenced by an interplay between sexual and natural selection. The extent to which sexual selection promotes or counteracts population divergence may vary depending on the genetic architecture of traits as well as the covariance between mating competition and local adaptation. Additionally, post-copulatory processes, such as selection against heterospecific sperm, may influence the importance of sexual selection in speciation. We propose that efforts to resolve these four themes can catalyze conceptual progress in the field of sexual selection, and we offer potential avenues of research to advance this progress.

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Sympatric speciation of wild emmer wheat driven by ecology and chromosomal rearrangements

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1920415117 ◽

2020 ◽

Vol 117 (11) ◽

pp. 5955-5963 ◽

Cited By ~ 7

Author(s):

Hongwei Wang ◽

Huayan Yin ◽

Chengzhi Jiao ◽

Xiaojian Fang ◽

Guiping Wang ◽

...

Keyword(s):

Chromosomal Rearrangements ◽

Sympatric Speciation ◽

Wild Emmer Wheat ◽

Emmer Wheat ◽

Wild Emmer ◽

Ancestral Population ◽

Secondary Contact ◽

Ros Scavenging ◽

Isolated Populations ◽

Ecological Selection

In plants, the mechanism for ecological sympatric speciation (SS) is little known. Here, after ruling out the possibility of secondary contact, we show that wild emmer wheat, at the microclimatically divergent microsite of “Evolution Canyon” (EC), Mt. Carmel, Israel, underwent triple SS. Initially, it split following a bottleneck of an ancestral population, and further diversified to three isolated populations driven by disruptive ecological selection. Remarkably, two postzygotically isolated populations (SFS1 and SFS2) sympatrically branched within an area less than 30 m at the tropical hot and dry savannoid south-facing slope (SFS). A series of homozygous chromosomal rearrangements in the SFS1 population caused hybrid sterility with the SFS2 population. We demonstrate that these two populations developed divergent adaptive mechanisms against severe abiotic stresses on the tropical SFS. The SFS2 population evolved very early flowering, while the SFS1 population alternatively evolved a direct tolerance to irradiance by improved ROS scavenging activity that potentially accounts for its evolutionary fate with unstable chromosome status. Moreover, a third prezygotically isolated sympatric population adapted on the abutting temperate, humid, cool, and forested north-facing slope (NFS), separated by 250 m from the SFS wild emmer wheat populations. The NFS population evolved multiple resistant loci to fungal diseases, including powdery mildew and stripe rust. Our study illustrates how plants sympatrically adapt and speciate under disruptive ecological selection of abiotic and biotic stresses.

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Urban Sexual Selection

Urban Evolutionary Biology ◽

10.1093/oso/9780198836841.003.0015 ◽

2020 ◽

pp. 234-252

Author(s):

Tuul Sepp ◽

Kevin J. McGraw ◽

Mathieu Giraudeau

Keyword(s):

Sexual Selection ◽

Urban Environments ◽

Wild Animal ◽

Selection Pressures ◽

Sexually Selected Traits ◽

Chemical Signalling ◽

Animal Populations ◽

Challenges And Opportunities ◽

Microevolutionary Change ◽

Selected Traits

Human-modified habitats can present both challenges and opportunities for wild animals. Changes in the environment caused by urbanization can affect who survives and reproduces in wild animal populations. Accordingly, we can expect that changes in sexual selection pressures may occur in response to urbanization. Changes in sexually selected traits like bird song and colouration have been one of the main thrusts of urban ecology in recent decades. However, studies to date have focused on describing changes in sexual phenotypes in response to urban environmental change, and knowledge about genetic/microevolutionary change is lacking. Also, while some signalling modalities have been well studied and linked to human activities (e.g., changes in auditory signals in response to anthropogenic noise), others have received comparatively less attention in this context (e.g., effects of air pollution on chemical signalling). In addition, the focus has been mainly on the signal sender, instead of the signal receiver, thereby missing an important side of sexual selection. This chapter reviews the evidence that sexual selection pressures and sexually selected traits have been impacted by urban environments, with attention to the potential for rapid adaptive and plastic shifts in traits of signallers and receivers. It explores the possibilities that urbanization causes evolutionary change and speciation in wild animal populations through sexual selection. Finally, it provides new ideas for future studies to explore these questions and especially the evolution of female preferences in urban environments.

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The causes and consequences of ornament variation in a natural population

10.32942/osf.io/89h65 ◽

2019 ◽

Author(s):

Annabel Ralph ◽

Terry Burke ◽

Shinichi Nakagawa ◽

Alfredo Sánchez-Tójar ◽

Julia Schroeder

Keyword(s):

Sexual Selection ◽

Evolutionary Biology ◽

Natural Populations ◽

Size Variation ◽

Evolutionary Potential ◽

House Sparrows ◽

Sexually Selected Traits ◽

Evolutionary Response ◽

Significant Heritability ◽

Selected Traits

The role of sexual selection in natural populations has long been the subject of debate in evolutionary biology. Ornaments are sexually selected traits, which means they should vary within a population, have a genetic basis, and be associated with fitness. Despite evidence of ornaments meeting these criteria, evolutionary responses to sexual selection are rare in nature. This study focuses on two ornaments in a population of house sparrows; the plumage badge has been well-studied but remains poorly understood and the mask has been largely neglected in the literature. Using quantitative genetic techniques, we estimate the heritability of both traits and test for age-dependency of the heritability estimates. We also estimate the strength and direction of any selection acting upon the traits. We found that both ornaments have low, significant heritability, which does not vary with age. Selection only occurs in a small number of years, although when it does it is positive in both ornaments. We also found that early social environment plays a role in badge size variation. The results of this study suggest that an evolutionary response in the ornaments of this population is unlikely, but we highlight the importance of long-term research to improve our understanding of evolution in natural populations. Studies like these will add to our understanding of sexual selection, the causes of trait variation and the evolutionary potential of traits, which could help us to predict how populations will evolve.

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