Your search keyword '"Drosophila serrata"' showing total 137 results

1. The impacts of positive selection on genomic variation in Drosophila serrata: Insights from a deep learning approach.

Author

Wang, Yiguan, Allen, Scott L., Reddiex, Adam J., and Chenoweth, Stephen F.

Subjects

*MACHINE learning, *WHOLE genome sequencing, *GENE ontology, *DROSOPHILA, *GENOMES

Abstract

This study explores the impact of positive selection on the genetic composition of a Drosophila serrata population in eastern Australia through a comprehensive analysis of 110 whole genome sequences. Utilizing an advanced deep learning algorithm (partialS/HIC) and a range of inferred demographic histories, we identified that approximately 14% of the genome is directly affected by sweeps, with soft sweeps being more prevalent (10.6%) than hard sweeps (2.1%), and partial sweeps being uncommon (1.3%). The algorithm demonstrated robustness to demographic assumptions in classifying complete sweeps but faced challenges in distinguishing neutral regions from partial sweeps and linked regions under demographic misspecification. The findings reveal the indirect influence of sweeps on nearly two‐thirds of the genome through linkage, with an over‐representation of putatively deleterious variants suggesting that positive selection drags deleterious variants to higher frequency due to hitchhiking with beneficial loci. Gene ontology enrichment analysis further supported our confidence in the accuracy of sweep detection as several traits expected to be under positive selection due to evolutionary arms races (e.g. immunity) were detected in hard sweeps. This study provides valuable insights into the direct and indirect contributions of positive selection in shaping genomic variation in natural populations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Maintenance of quantitative genetic variance in complex, multitrait phenotypes: the contribution of rare, large effect variants in 2 Drosophila species

Author

Hine, Emma, Runcie, Daniel E, Allen, Scott L, Wang, Yiguan, Chenoweth, Stephen F, Blows, Mark W, and McGuigan, Katrina

Subjects

Genetics, Human Genome, Animals, Bayes Theorem, Drosophila, Drosophila melanogaster, Genetic Variation, Models, Genetic, Phenotype, Selection, Genetic, mutation-selection balance, House of Cards, gene expression, genetic covariance, sparse factor analysis, standing genetic variance, Drosophila serrata, Drosophila melanogaster, Drosophila serrata, mutation–selection balance, Developmental Biology

Abstract

The interaction of evolutionary processes to determine quantitative genetic variation has implications for contemporary and future phenotypic evolution, as well as for our ability to detect causal genetic variants. While theoretical studies have provided robust predictions to discriminate among competing models, empirical assessment of these has been limited. In particular, theory highlights the importance of pleiotropy in resolving observations of selection and mutation, but empirical investigations have typically been limited to few traits. Here, we applied high-dimensional Bayesian Sparse Factor Genetic modeling to gene expression datasets in 2 species, Drosophila melanogaster and Drosophila serrata, to explore the distributions of genetic variance across high-dimensional phenotypic space. Surprisingly, most of the heritable trait covariation was due to few lines (genotypes) with extreme [>3 interquartile ranges (IQR) from the median] values. Intriguingly, while genotypes extreme for a multivariate factor also tended to have a higher proportion of individual traits that were extreme, we also observed genotypes that were extreme for multivariate factors but not for any individual trait. We observed other consistent differences between heritable multivariate factors with outlier lines vs those factors without extreme values, including differences in gene functions. We use these observations to identify further data required to advance our understanding of the evolutionary dynamics and nature of standing genetic variation for quantitative traits.

Published

2022

3. Environmental dependence of mutational (co)variances of adaptive traits.

Author

Kannan, Ashvitha, Dugand, Robert J., Appleton, Nicholas C., Chenoweth, Stephen F., Sgrò, Carla M., and McGuigan, Katrina

Subjects

*GENETIC variation, *DROSOPHILA, *GENETIC mutation

Abstract

Standing genetic variation, and capacity to adapt to environment change, will ultimately depend on the fitness effects of mutations across the range of environments experienced by contemporary, panmictic, populations. We investigated how mild perturbations in diet and temperature affect mutational (co)variances of traits that evolve under climatic adaptation, and contribute to individual fitness in Drosophila serrata. We assessed egg-to-adult viability, development time and wing size of 64 lines that had diverged from one another via spontaneous mutation over 30 generations of brother--sister mating. Our results suggested most mutations have directionally concordant (i.e., synergistic) effects in all environments and both sexes. However, elevated mutational variance under reduced macronutrient conditions suggested environment-dependent variation in mutational effect sizes for development time. We also observed evidence for antagonistic effects under standard versus reduced macronutrient conditions, where these effects were further contingent on temperature (for development time) or sex (for size). Diet also influenced the magnitude and sign of mutational correlations between traits, although this result was largely due to a single genotype (line), which may reflect a rare, large effect mutation. Overall, our results suggest environmental heterogeneity and environment-dependency of mutational effects could contribute to the maintenance of genetic variance. [ABSTRACT FROM AUTHOR]

Published

2023

4. Quantifying male harm and its divergence.

Author

Colpitts, Julie, Jarvis, Will M. C., Agrawal, Aneil F., and Rundle, Howard D.

Subjects

*MALES, *FACTORIAL experiment designs, *BIOLOGICAL fitness, *MULTIPLE comparisons (Statistics), *FACTORIALS, *DIVERGENCE theorem, *DROSOPHILA, *SPERM competition

Abstract

Male harm arises when traits that increase reproductive success in competition with other males also harm females as a side effect. The extent of harm depends on male and female phenotypes, both of which can diverge between populations. Within a population, harm is inferred when increased exposure to males reduces female fitness, but studies of the divergence of male harm rarely manipulate male exposure. Here, we quantify male harm and compare its magnitude between two lab populations of Drosophila serrata that were derived from a common ancestor 7 years earlier and subsequently held under conditions that minimized environmental differences. We manipulated female exposure to males in a factorial design involving all four combinations of males and females from these populations, providing insight into divergence in both sexes. Our results reveal substantial harm to females and provide stronger evidence of divergence in males than in females. Using these and other published data, we discuss conceptual issues surrounding the quantification and comparison of harm that arise because it involves a comparison of multiple quantities (e.g., female fitness under varying male exposure), and we demonstrate the increased insight that is gained by manipulating male exposure to quantify these quantities. [ABSTRACT FROM AUTHOR]

Published

2022

5. The Transposable Elements of the Drosophila serrata Reference Panel.

Author

Tiedeman, Zachery and Signor, Sarah

Subjects

*DROSOPHILA, *POPULATION genetics, *DNA copy number variations, *GENOTYPES, *ECOSYSTEMS, *GENOMES

Abstract

Transposable elements (TEs) are an important component of the complex genomic ecosystem. Understanding the tempo and mode of TE proliferation, that is whether it is in maintained in transposition selection balance, or is induced periodically by environmental stress or other factors, is important for understanding the evolution of organismal genomes through time. Although TEs have been characterized in individuals or limited samples, a true understanding of the population genetics of TEs, and therefore the tempo and mode of transposition, is still lacking. Here, we characterize the TE landscape in an important model Drosophila , Drosophila serrata using the D. serrata reference panel, which is comprised of 102 sequenced inbred genotypes. We annotate the families of TEs in the D. serrata genome and investigate variation in TE copy number between genotypes. We find that many TEs have low copy number in the population, but this varies by family and includes a single TE making up to 50% of the genome content of TEs. We find that some TEs proliferate in particular genotypes compared with population levels. In addition, we characterize variation in each TE family allowing copy number to vary in each genotype and find that some TEs have diversified very little between individuals suggesting recent spread. TEs are important sources of spontaneous mutations in Drosophila, making up a large fraction of the total number of mutations in particular genotypes. Understanding the dynamics of TEs within populations will be an important step toward characterizing the origin of variation within and between species. [ABSTRACT FROM AUTHOR]

Published

2021

6. Mutational Pleiotropy and the Strength of Stabilizing Selection Within and Between Functional Modules of Gene Expression.

Author

Collet, Julie M., McGuigan, Katrina, Allen, Scott L., Chenoweth, Stephen F., and Blows, Mark W.

Subjects

*GENE expression, *PHENOTYPIC plasticity in plants, *DROSOPHILA, *PHENOTYPES, *GENE ontology

Abstract

Variational modules, sets of pleiotropically covarying traits, affect phenotypic evolution, and therefore are predicted to reflect functional modules, such that traits within a variational module also share a common function. Such an alignment of function and pleiotropy is expected to facilitate adaptation by reducing the deleterious effects of mutations, and by allowing coordinated evolution of functionally related sets of traits. Here, we adopt a high-dimensional quantitative genetic approach using a large number of gene expression traits in Drosophila serrata to test whether functional grouping, defined by gene ontology (GO terms), predicts variational modules. Mutational or standing genetic covariance was significantly greater than among randomly grouped sets of genes for 38% of our functional groups, indicating that GO terms can predict variational modularity to some extent. We estimated stabilizing selection acting on mutational covariance to test the prediction that functional pleiotropy would result in reduced deleterious effects of mutations within functional modules. Stabilizing selection within functional modules was weaker than that acting on randomly grouped sets of genes in only 23% of functional groups, indicating that functional alignment can reduce deleterious effects of pleiotropic mutation but typically does not. Our analyses also revealed the presence of variational modules that spanned multiple functions. [ABSTRACT FROM AUTHOR]

Published

2018

7. Maintenance of quantitative genetic variance in complex, multitrait phenotypes: the contribution of rare, large effect variants in 2 Drosophila species

Author

Emma Hine, Daniel E Runcie, Scott L Allen, Yiguan Wang, Stephen F Chenoweth, Mark W Blows, Katrina McGuigan, and Martin, G

Subjects

genetic covariance, mutation-selection balance, Models, Genetic, Human Genome, Genetic Variation, Bayes Theorem, house of cards, drosophila melanogaster, Drosophila melanogaster, Phenotype, Genetic, Models, gene expression, standing genetic variance, Genetics, Animals, mutation–selection balance, Drosophila, Selection, Genetic, drosophila serrata, sparse factor analysis, Selection, Developmental Biology

Abstract

The interaction of evolutionary processes to determine quantitative genetic variation has implications for contemporary and future phenotypic evolution, as well as for our ability to detect causal genetic variants. While theoretical studies have provided robust predictions to discriminate among competing models, empirical assessment of these has been limited. In particular, theory highlights the importance of pleiotropy in resolving observations of selection and mutation, but empirical investigations have typically been limited to few traits. Here, we applied high-dimensional Bayesian Sparse Factor Genetic modeling to gene expression datasets in 2 species, Drosophila melanogaster and Drosophila serrata, to explore the distributions of genetic variance across high-dimensional phenotypic space. Surprisingly, most of the heritable trait covariation was due to few lines (genotypes) with extreme [>3 interquartile ranges (IQR) from the median] values. Intriguingly, while genotypes extreme for a multivariate factor also tended to have a higher proportion of individual traits that were extreme, we also observed genotypes that were extreme for multivariate factors but not for any individual trait. We observed other consistent differences between heritable multivariate factors with outlier lines vs those factors without extreme values, including differences in gene functions. We use these observations to identify further data required to advance our understanding of the evolutionary dynamics and nature of standing genetic variation for quantitative traits.

Published

2022

8. Evolutionary experiments on mate recognition in the Drosophila serrata species complex

Author

Blows, Mark W., Higgie, Megan, Etges, W. J., editor, and Noor, M. A. F., editor

Published

2002

9. Mating has opposite effects on male and female sexually selected cuticular hydrocarbons

Author

Susan N. Gershman

Subjects

0106 biological sciences, Offspring, media_common.quotation_subject, 05 social sciences, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, Drosophila serrata, Courtship, Mate choice, behavior and behavior mechanisms, 0501 psychology and cognitive sciences, Animal Science and Zoology, 050102 behavioral science & comparative psychology, Mating, reproductive and urinary physiology, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

In Drosophila serrata flies, there is female choice for male cuticular hydrocarbon (CHC) profiles and male choice for female CHC profiles. Furthermore, both males and females can alter their CHCs: when there is more opportunity for mating, males express combinations of CHCs preferred by females; however, females appear to change CHC profiles to avoid male harassment. In this study, I investigate the effect of number of matings (0–4) on male and female sexually selected CHCs. Mating caused males to express CHCs associated with higher male mating success. Thus, successfully mating males are likely to have increased future mating success. Conversely, females that mated more times expressed CHC profiles that were associated with lower female mating success. Females maximized their offspring production by mating more than once, but additional matings did not provide additional benefits. Furthermore, number of matings did not affect female survival. In total, these results suggest that females alter CHC expression to discourage male courtship when additional matings are not beneficial. In conclusion, plasticity in male and female CHC expression can both increase variance in male mating success and decrease variance in female mating success, driving the evolution of sexually selected chemical signals.

Published

2020

10. Integrating genomics and multivariate evolutionary quantitative genetics: a case study of constraints on sexual selection in Drosophila serrata

Author

Adam J Reddiex and Stephen F. Chenoweth

Subjects

Male, Multivariate statistics, Sexual Selection, General Immunology and Microbiology, Directional selection, Special Feature, Genomics, General Medicine, Quantitative genetics, Computational biology, Biology, Biological Evolution, General Biochemistry, Genetics and Molecular Biology, Drosophila serrata, Sexual selection, Animals, Drosophila, Selection, Genetic, General Agricultural and Biological Sciences, Selection (genetic algorithm), General Environmental Science, Genome-Wide Association Study

Abstract

In evolutionary quantitative genetics, the genetic variance–covariance matrix, G , and the vector of directional selection gradients, β , are key parameters for predicting multivariate selection responses and genetic constraints. Historically, investigations of G and β have not overlapped with those dissecting the genetic basis of quantitative traits. Thus, it remains unknown whether these parameters reflect pleiotropic effects at individual loci. Here, we integrate multivariate genome-wide association study (GWAS) with G and β estimation in a well-studied system of multivariate constraint: sexual selection on male cuticular hydrocarbons (CHCs) in Drosophila serrata . In a panel of wild-derived re-sequenced lines, we augment genome-based restricted maximum likelihood to estimate G alongside multivariate single nucleotide polymorphism (SNP) effects, detecting 532 significant associations from 1 652 276 SNPs. Constraint was evident, with β lying in a direction of G with low evolvability. Interestingly, minor frequency alleles typically increased male CHC-attractiveness suggesting opposing natural selection on β . SNP effects were significantly misaligned with the major eigenvector of G , g max , but well aligned to the second and third eigenvectors g 2 and g 3 . We discuss potential factors leading to these varied results including multivariate stabilizing selection and mutational bias. Our framework may be useful as researchers increasingly access genomic methods to study multivariate selection responses in wild populations.

Published

2021

11. Testing for a genetic response to sexual selection in a wild Drosophila population.

Author

Gosden, T. P., Thomson, J. R., Blows, M. W., Schaul, A., and Chenoweth, S. F.

Subjects

*DROSOPHILA development, *GENETIC regulation, *ANIMAL sexual behavior, *SEXUAL selection, *TRAJECTORIES (Mechanics)

Abstract

In accordance with the consensus that sexual selection is responsible for the rapid evolution of display traits on macroevolutionary scales, microevolutionary studies suggest sexual selection is a widespread and often strong form of directional selection in nature. However, empirical evidence for the contemporary evolution of sexually selected traits via sexual rather than natural selection remains weak. In this study, we used a novel application of quantitative genetic breeding designs to test for a genetic response to sexual selection on eight chemical display traits from a field population of the fly, Drosophila serrata. Using our quantitative genetic approach, we were able to detect a genetically based difference in means between groups of males descended from fathers who had either successfully sired offspring or were randomly collected from the same wild population for one of these display traits, the diene (Z,Z)-5,9-C27 : 2. Our experimental results, in combination with previous laboratory studies on this system, suggest that both natural and sexual selection may be influencing the evolutionary trajectories of these traits in nature, limiting the capacity for a contemporary evolutionary response. [ABSTRACT FROM AUTHOR]

Published

2016

12. The genetic and social contributions to sex differences in lifespan in Drosophila serrata

Author

Alastair J. Wilson, Vikram P. Narayan, and Stephen F. Chenoweth

Subjects

Sexual dimorphism, Evolutionary biology, Genotype, Social environment, Biology, Mating, Phenotype, Heterogametic sex, Drosophila serrata, X chromosome

Abstract

Sex differences in lifespan remain an intriguing puzzle for evolutionary biologists. A possible explanation for lower lifespan in males is the unconditional expression of recessive deleterious alleles in heterogametic X chromosomes in males (the unguarded X hypothesis). Empirical evidence, however, has yielded controversial results that can be attributed to differences in both genetic and social background. Here, we test the unguarded X hypothesis in Drosophila serrata using a factorial design to quantify the effects of genotype, sex, social environment, and their interactions on phenotypic variation for lifespan. Using an experimental approach, we manipulated two inbred laboratory genotypes and their reciprocal F1s, while controlling for different levels of density and mating status to account for any potential social effects. Our results also show subtle but significant genotype dependent effects for both density and mating, but ultimately find the unguarded X hypothesis insufficient to fully explain sexual dimorphism in D. serrata lifespan.

Published

2021

13. The Transposable Elements of the Drosophila serrata Reference Panel

Author

Zachary Tiedeman and Sarah A. Signor

Subjects

AcademicSubjects/SCI01140, Transposable element, Population, Population genetics, Genome, Transposition (music), copy number, Genotype, Genetics, Animals, education, Drosophila, Ecosystem, Ecology, Evolution, Behavior and Systematics, education.field_of_study, biology, AcademicSubjects/SCI01130, food and beverages, biology.organism_classification, Drosophila melanogaster, Genetics, Population, inbred lines, Evolutionary biology, DNA Transposable Elements, Drosophila serrata, transposable elements, Low copy number, Research Article

Abstract

Transposable elements (TEs) are an important component of the complex genomic ecosystem. Understanding the tempo and mode of TE proliferation, that is whether it is in maintained in transposition selection balance, or is induced periodically by environmental stress or other factors, is important for understanding the evolution of organismal genomes through time. Although TEs have been characterized in individuals or limited samples, a true understanding of the population genetics of TEs, and therefore the tempo and mode of transposition, is still lacking. Here, we characterize the TE landscape in an important model Drosophila, Drosophila serrata using the D. serrata reference panel, which is comprised of 102 sequenced inbred genotypes. We annotate the families of TEs in the D. serrata genome and investigate variation in TE copy number between genotypes. We find that many TEs have low copy number in the population, but this varies by family and includes a single TE making up to 50% of the genome content of TEs. We find that some TEs proliferate in particular genotypes compared with population levels. In addition, we characterize variation in each TE family allowing copy number to vary in each genotype and find that some TEs have diversified very little between individuals suggesting recent spread. TEs are important sources of spontaneous mutations in Drosophila, making up a large fraction of the total number of mutations in particular genotypes. Understanding the dynamics of TEs within populations will be an important step toward characterizing the origin of variation within and between species.

Published

2021

14. Transcriptome-wide effects of sexual selection on the fate of new mutations.

Author

Collet, Julie M., Blows, Mark W., and McGuigan, Katrina

Subjects

*SEXUAL selection, *TRANSCRIPTION factors, *GENETIC pleiotropy, *BIOLOGICAL fitness, *GENETIC mutation, *DROSOPHILA

Abstract

Sexual selection on males is predicted to have widespread effects on genetic variation as a consequence of the pleiotropic allelic effects on sexual and nonsexual traits. We manipulated the opportunity for sexual selection on males during 27 generations of mutation accumulation in inbred lines of Drosophila serrata, and used a microarray platform to investigate the effect of sexual selection on the expression of 2689 genes. While gene expression signal was, on average, higher in the absence of sexual selection, this difference was small (0.1%). In contrast, sexual selection impacted substantially on the mutational variance in gene expression. Over all genes, mutational variance in gene expression was, on average, 42% higher when sexual selection operated than when it was absent. Our results indicate that sexual selection on males can generate widespread effects across the genome. An increase in mutational variance without a corresponding change in mean suggested that most expression traits were unlikely to be under direct sexual selection. Instead, the mutational variance in gene expression traits is consistent with divergence generated by widespread pleiotropic associations with traits affecting male mating success. [ABSTRACT FROM AUTHOR]

Published

2015

15. Polymorphisms in a desaturase 2 ortholog associate with cuticular hydrocarbon and male mating success variation in a natural population of Drosophila serrata.

Author

Ivory‐Church, J., Frentiu, F. D., and Chenoweth, S. F.

Subjects

*DESATURASES, *HYDROCARBONS, *DROSOPHILA, *NUCLEOTIDE sequence, *SINGLE nucleotide polymorphisms, *SEXUAL behavior in insects, *MULTIVARIATE analysis, *MUTATION-selection balance

Abstract

Elucidating the nature of genetic variation underlying both sexually selected traits and the fitness components of sexual selection is essential to understanding the broader consequences of sexual selection as an evolutionary process. To date, there have been relatively few attempts to connect the genetic variance in sexually selected traits with segregating DNA sequence polymorphisms. We set out to address this in a well-characterized sexual selection system - the cuticular hydrocarbons ( CHCs) of Drosophila serrata - using an indirect association study design that allowed simultaneous estimation of the genetic variance in CHCs, sexual fitness and single nucleotide polymorphism ( SNP) effects in an outbred population. We cloned and sequenced an ortholog of the D. melanogaster desaturase 2 gene, previously shown to affect CHC biosynthesis in D. melanogaster, and associated 36 SNPs with minor allele frequencies > 0.02 with variance in CHCs and sexual fitness. Three SNPs had significant multivariate associations with CHC phenotype ( q-value < 0.05). At these loci, minor alleles had multivariate effects on CHCs that were weakly associated with the multivariate direction of sexual selection operating on these traits. Two of these SNPs had pleiotropic associations with male mating success, suggesting these variants may underlie responses to sexual selection due to this locus. There were 15 significant male mating success associations ( q-value < 0.1), and interestingly, we detected a nonrandom pattern in the relationship between allele frequency and direction of effect on male mating success. The minor-frequency allele usually reduced male mating success, suggesting a positive association between male mating success and total fitness at this locus. [ABSTRACT FROM AUTHOR]

Published

2015

16. Female mate choice predicts paternity success in the absence of additive genetic variance for other female paternity bias mechanisms in Drosophila serrata.

Author

Collet, J. M. and Blows, M. W.

Subjects

*ANIMAL courtship, *ANIMAL paternity, *DROSOPHILA, *INSECT reproduction, *ANIMAL variation, *ANIMAL sexual behavior, *PHENOTYPES, *DROSOPHILA evolution, *INSECTS

Abstract

After choosing a first mate, polyandrous females have access to a range of opportunities to bias paternity, such as repeating matings with the preferred male, facilitating fertilization from the best sperm or differentially investing in offspring according to their sire. Female ability to bias paternity after a first mating has been demonstrated in a few species, but unambiguous evidence remains limited by the access to complex behaviours, sperm storage organs and fertilization processes within females. Even when found at the phenotypic level, the potential evolution of any mechanism allowing females to bias paternity other than mate choice remains little explored. Using a large population of pedigreed females, we developed a simple test to determine whether there is additive genetic variation in female ability to bias paternity after a first, chosen, mating. We applied this method in the highly polyandrous Drosophila serrata, giving females the opportunity to successively mate with two males ad libitum. We found that despite high levels of polyandry (females mated more than once per day), the first mate choice was a significant predictor of male total reproductive success. Importantly, there was no detectable genetic variance in female ability to bias paternity beyond mate choice. Therefore, whether or not females can bias paternity before or after copulation, their role on the evolution of sexual male traits is likely to be limited to their first mate choice in D. serrata. [ABSTRACT FROM AUTHOR]

Published

2014

17. THE EVOLUTIONARY STABILITY OF CROSS-SEX, CROSS-TRAIT GENETIC COVARIANCES.

Author

Gosden, Thomas P. and Chenoweth, Stephen F.

Subjects

*SEXUAL dimorphism, *PHEROMONES, *FRUIT flies, *BAYESIAN analysis, *HYDROCARBONS, *GENETIC correlations

Abstract

Although knowledge of the selective agents behind the evolution of sexual dimorphism has advanced considerably in recent years, we still lack a clear understanding of the evolutionary durability of cross-sex genetic covariances that often constrain its evolution. We tested the relative stability of cross-sex genetic covariances for a suite of homologous contact pheromones of the fruit fly Drosophila serrata, along a latitudinal gradient where these traits have diverged in mean. Using a Bayesian framework, which allowed us to account for uncertainty in all parameter estimates, we compared divergence in the total amount and orientation of genetic variance across populations, finding divergence in orientation but not total variance. We then statistically compared orientation divergence of within-sex ( G) to cross-sex ( B) covariance matrices. In line with a previous theoretical prediction, we find that the cross-sex covariance matrix, B, is more variable than either within-sex G matrix. Decomposition of B matrices into their symmetrical and nonsymmetrical components revealed that instability is linked to the degree of asymmetry. We also find that the degree of asymmetry correlates with latitude suggesting a role for spatially varying natural selection in shaping genetic constraints on the evolution of sexual dimorphism. [ABSTRACT FROM AUTHOR]

Published

2014

18. JOINT ALLELIC EFFECTS ON FITNESS AND METRIC TRAITS.

Author

McGuigan, Katrina and Blows, Mark W.

Subjects

*DROSOPHILA, *SEXUAL selection, *FRUIT flies, *GENETICS, *GENETIC pleiotropy, *INSECTS

Abstract

Theoretical explanations of empirically observed standing genetic variation, mutation, and selection suggest that many alleles must jointly affect fitness and metric traits. However, there are few direct demonstrations of the nature and extent of these pleiotropic associations. We implemented a mutation accumulation (MA) divergence experimental design in Drosophila serrata to segregate genetic variants for fitness and metric traits. By exploiting naturally occurring MA line extinctions as a measure of line-level total fitness, manipulating sexual selection, and measuring productivity we were able to demonstrate genetic covariance between fitness and standard metric traits, wing size, and shape. Larger size was associated with lower total fitness and male sexual fitness, but higher productivity. Multivariate wing shape traits, capturing major axes of wing shape variation among MA lines, evolved only in the absence of sexual selection, and to the greatest extent in lines that went extinct, indicating that mutations contributing wing shape variation also typically had deleterious effects on both total fitness and male sexual fitness. This pleiotropic covariance of metric traits with fitness will drive their evolution, and generate the appearance of selection on the metric traits even in the absence of a direct contribution to fitness. [ABSTRACT FROM AUTHOR]

Published

2013

19. THE B-MATRIX HARBORS SIGNIFICANT AND SEX-SPECIFIC CONSTRAINTS ON THE EVOLUTION OF MULTICHARACTER SEXUAL DIMORPHISM.

Author

Gosden, Thomas P., Shastri, Krishna-Lila, Innocenti, Paolo, and Chenoweth, Stephen F.

Subjects

*DROSOPHILA, *ARTIFICIAL selection of animals, *BIOLOGICAL evolution, *INTERSEXUALITY in animals, *ANIMAL breeders, *STATISTICAL correlation, SEX differences (Biology)

Abstract

The extent to which sexual dimorphism can evolve within a population depends on an interaction between sexually divergent selection and constraints imposed by a genetic architecture that is shared between males and females. The degree of constraint within a population is normally inferred from the intersexual genetic correlation, rmf. However, such bivariate correlations ignore the potential constraining effect of genetic covariances between other sexually coexpressed traits. Using the fruit fly Drosophila serrata, a species that exhibits mutual mate preference for blends of homologous contact pheromones, we tested the impact of between-sex between-trait genetic covariances using an extended version of the genetic variance-covariance matrix, G, that includes Lande's (1980) between-sex covariance matrix, B. We find that including B greatly reduces the degree to which male and female traits are predicted to diverge in the face of divergent phenotypic selection. However, the degree to which B alters the response to selection differs between the sexes. The overall rate of male trait evolution is predicted to decline, but its direction remains relatively unchanged, whereas the opposite is found for females. We emphasize the importance of considering the B-matrix in microevolutionary studies of constraint on the evolution of sexual dimorphism. [ABSTRACT FROM AUTHOR]

Published

2012

20. Condition Dependence of a Multicomponent Sexual Display Trait in Drosophila serrata.

Author

Delcourt, Matthieu and Rundle, Howard D.

Subjects

*ANIMAL sexual behavior, *DROSOPHILA, *PHEROMONES, *INSECT sex attractants, *ANIMAL breeding

Abstract

Theory predicts that costly sexual displays should evolve condition dependence if the marginal fitness gain from trait exaggeration is greater for high- than for low-condition individuals and that the strength of condition dependence should increase with the strength of directional selection. While there is substantial support for the first prediction, evidence for the latter is much weaker. We undertook a quantitative test of this prediction for a multivariate sexual display consisting of a suite of contact pheromones termed "cuticular hydrocarbons" (CHCs) in Drosophila serrata. We performed a dietary manipulation of condition (i.e., the pool of metabolic resources available for allocation to fitness-enhancing traits) within a half-sibling breeding design, thereby also providing insight into the genetic basis of condition dependence. As predicted, the linear combination of CHCs under the strongest sexual selection from female mate preferences was unusually condition dependent relative to other CHC combinations within the population (P = .049). A significant positive correlation also existed between the strengths of condition dependence and sexual selection among different CHC blends (r = 0.482, P < .001). Finally, sires varied in their response to the dietary manipulation, demonstrating significant genetic variance in condition dependence. Our results are consistent with the evolution of heightened condition dependence of sexual displays in response to persistent sexual selection. [ABSTRACT FROM AUTHOR]

Published

2011

21. EXPERIMENTAL EVIDENCE FOR THE EVOLUTION OF INDIRECT GENETIC EFFECTS: CHANGES IN THE INTERACTION EFFECT COEFFICIENT, PSI (Ψ), DUE TO SEXUAL SELECTION.

Author

Chenoweth, Stephen F., Rundle, Howard D., and Blows, Mark W.

Subjects

*EVOLUTIONARY theories, *GENETICS, *GENE expression, *DROSOPHILA, *SEXUAL selection

Abstract

Indirect genetics effects (IGEs)—when the genotype of one individual affects the phenotypic expression of a trait in another—may alter evolutionary trajectories beyond that predicted by standard quantitative genetic theory as a consequence of genotypic evolution of the social environment. For IGEs to occur, the trait of interest must respond to one or more indicator traits in interacting conspecifics. In quantitative genetic models of IGEs, these responses (reaction norms) are termed interaction effect coefficients and are represented by the parameter psi (Ψ). The extent to which Ψ exhibits genetic variation within a population, and may therefore itself evolve, is unknown. Using an experimental evolution approach, we provide evidence for a genetic basis to the phenotypic response caused by IGEs on sexual display traits in Drosophila serrata. We show that evolution of the response is affected by sexual but not natural selection when flies adapt to a novel environment. Our results indicate a further mechanism by which IGEs can alter evolutionary trajectories—the evolution of interaction effects themselves. [ABSTRACT FROM AUTHOR]

Published

2010

22. The diversification of mate preferences by natural and sexual selection.

Author

RUNDLE, H. D., CHENOWETH, S. F., and BLOWS, M. W.

Subjects

*NATURAL selection, *SEXUAL selection, *SPECIES, *DROSOPHILA, *HYDROCARBONS

Abstract

The evolution of sexual display traits or preferences for them in response to divergent natural selection will alter sexual selection within populations, yet the role of sexual selection in ecological speciation has received little empirical attention. We evolved 12 populations of Drosophila serrata in a two-way factorial design to investigate the roles of natural and sexual selection in the evolution of female mate preferences for male cuticular hydrocarbons (CHCs). Mate preferences weakened in populations evolving under natural selection alone, implying a cost in the absence of their expression. Comparison of the vectors of linear sexual selection revealed that the populations diverged in the combination of male CHCs that females found most attractive, although this was not significant using a mixed modelling approach. Changes in preference direction tended to evolve when natural and sexual selection were unconstrained, suggesting that both processes may be the key to initial stages of ecological speciation. Determining the generality of this result will require data from various species across a range of novel environments. [ABSTRACT FROM AUTHOR]

Published

2009

23. Q ST MEETS THE G MATRIX: THE DIMENSIONALITY OF ADAPTIVE DIVERGENCE IN MULTIPLE CORRELATED QUANTITATIVE TRAITS.

Author

Chenoweth, Stephen F. and Blows, Mark W.

Subjects

*ANIMAL populations, *ANIMAL ecology, *POPULATION biology, *BIOLOGICAL divergence, *BIOLOGY, *PHYLOGENY

Abstract

The QST– FST comparison has become an increasingly common method for inferring adaptive quantitative trait divergence among populations. For cases in which there is divergence in multiple traits, most studies have applied the method by performing multiple univariate QST– FST comparisons. However, because traits are often genetically correlated, such univariate analyses are likely to paint a simplified picture of adaptive divergence. Here we show how the multivariate analogue of QST, FSTq, which accounts for genetic correlations among traits, can be used to supply a more detailed picture of multitrait divergence. We apply the method to naturally occurring genetic variation for a suite of sexually selected display traits in Drosophila serrata. The analyses suggest the operation of divergent multivariate selection that has influenced multiple independent axes of genetic variance in a sex-specific manner. Finally, we show how a comparison of the components of FSTq, the average within and among population genetic variance–covariance matrices, GW and GB, can be used as an additional test of the null expectation of neutral divergence, and allows for an investigation of whether natural populations have diverged along major or minor axes of genetic variance. [ABSTRACT FROM AUTHOR]

Published

2008

24. THE EVOLUTION OF REPRODUCTIVE CHARACTER DISPLACEMENT CONFLICTS WITH HOW SEXUAL SELECTION OPERATES WITHIN A SPECIES.

Author

Higgie, Megan and Blows, Mark W.

Subjects

*DROSOPHILA, *SEXUAL selection, *ANIMAL sexual behavior, *NATURAL selection, *BIOLOGICAL evolution, *ANIMAL courtship

Abstract

Processes that affect the evolution of female preferences or male display traits involved in mating decisions in different geographic areas have the potential to result in within-species divergence. This could occur via reinforcement of mate recognition in species using the same traits for species recognition and sexual selection. Sympatric individuals experience reinforcement of female preferences and male display traits, whereas allopatric individuals do not, creating the potential for divergent sexual selection in sympatric and allopatric populations. Sexual selection operates on the cuticular hydrocarbons (CHCs) of Drosophila serrata, and reinforcement on the CHCs of populations sympatric with D. birchii. Here, we manipulate sexual selection in D. serrata populations generated by hybridizing natural sympatric and allopatric populations. Under the influence of sexual selection, male CHCs evolved from an intermediate phenotype to resemble an allopatric phenotype, which was driven by female choice. Additionally, female choice resulted in evolution of an allopatric female preference, so that allopatric males were preferred to sympatric males. Allopatric CHCs and preferences represent a sexual selection optimum via female choice. Sympatric populations display suboptimal phenotypes relative to their allopatric conspecifics. The combination of reinforcement and sexual selection can therefore generate divergence in female preferences and male display traits. [ABSTRACT FROM AUTHOR]

Published

2008

25. Genetic Constraints and the Evolution of Display Trait Sexual Dimorphism by Natural and Sexual Selection.

Author

Chenoweth, Stephen F., Rundle, Howard D., and Blows, Mark W.

Subjects

*DIMORPHISM in animals, *EVOLUTIONARY theories, *DROSOPHILA, *X chromosome, *NATURAL selection, *SEXUAL selection, *GENETICS, *QUANTITATIVE research, *STATISTICAL correlation

Abstract

The evolution of sexual dimorphism involves an interaction between sex-specific selection and a breakdown of genetic constraints that arise because the two sexes share a genome. We examined genetic constraints and the effect of sex-specific selection on a suite of sexually dimorphic display traits in Drosophila serrata. Sexual dimorphism varied among nine natural populations covering a substantial portion of the species range. Quantitative genetic analyses showed that intersexual genetic correlations were high because of autosomal genetic variance but that the inclusion of X-linked effects reduced genetic correlations substantially, indicating that sex linkage may be an important mechanism by which intersexual genetic constraints are reduced in this species. We then explored the potential for both natural and sexual selection to influence these traits, using a 12-generation laboratory experiment in which we altered the opportunities for each process as flies adapted to a novel environment. Sexual dimorphism evolved, with natural selection reducing sexual dimorphism, whereas sexual selection tended to increase it overall. To this extent, our results are consistent with the hypothesis that sexual selection favors evolutionary divergence of the sexes. However, sex-specific responses to natural and sexual selection contrasted with the classic model because sexual selection affected females rather than males. [ABSTRACT FROM AUTHOR]

Published

2008

26. Male choice generates stabilizing sexual selection on a female fecundity correlate.

Author

Chenoweth, S. F., Petfeild, D., Doughty, P., and Blows, M. W.

Subjects

*MATE selection, *ANIMAL behavior, *FERTILITY, *SEXUAL selection, *ANIMAL sexual behavior, *DROSOPHILA, *BODY size, *FRUIT flies, *REPRODUCTION

Abstract

We know very little about male mating preferences and how they influence the evolution of female traits. Theory predicts that males may benefit from choosing females on the basis of traits that indicate their fecundity. Here, we explore sexual selection generated by male choice on two components of female body size (wing length and body mass) in Drosophila serrata. Using a dietary manipulation to alter female size and 828 male mate choice trials, we analysed linear and nonlinear sexual selection gradients on female mass and wing length. In contrast to theoretical expectations and prevailing empirical data, males exerted stabilizing rather than directional sexual selection on female body mass, a correlate of fecundity. Sexual selection was detected only among females with access to standard resource levels as an adult, with no evidence for sexual selection among resource-depleted females. Thus the mating success of females with the same body mass differed depending upon their access to resources as an adult. This suggests that males in this species may rely on signal traits to assess body mass rather than assessing it directly. Stabilizing rather than directional sexual selection on body mass together with recent evidence for stabilizing sexual selection on candidate signal traits in this species suggests that females may trade-off resources allocated to reproduction and sexual signalling. [ABSTRACT FROM AUTHOR]

Published

2007

27. Are Traits That Experience Reinforcement Also Under Sexual Selection?

Author

Higgie, Megan and Blows, Mark W.

Subjects

*SPECIES, *BIOLOGICAL classification, *ANIMAL courtship, *ANIMAL sexual behavior, *SEX recognition (Zoology), *DROSOPHILA, *FRUIT flies, *HABITATS

Abstract

Where closely related species occur in sympatry, reinforcement may result in the evolution of traits involved in species recognition that are at the same time used for within-species mate choice. Drosophila serrata lives in forested habitat on the east coast of Australia, and over the northern half of its distribution it coexists with a closely related species, Drosophila birchii. Here we show that the strength of reinforcing selection in natural populations is sufficient to generate reproductive character displacement along a 36-km transect across the contact between sympatric and allopatric populations of D. serrata. The sympatric and allopatric populations display genetically based differences in male cuticular hydrocarbons (CHCs), while female CHCs changed with latitude across the contact. The directional changes observed in male CHCs between sympatric and allopatric regions were the same changes that were generated by experimental sympatry in the laboratory, providing direct evidence that the changes across the contact zone are due to the presence of D. birchii. We show that sympatric and allopatric females differ in preference for male CHCs and that females from allopatric populations prefer allopatric-like male CHCs over sympatric-like CHCs. Male attractiveness within D. serrata may therefore be compromised by reinforcing selection, preventing the spread of sympatric-like blends to the area of allopatry. [ABSTRACT FROM AUTHOR]

Published

2007

28. THE ROLES OF NATURAL AND SEXUAL SELECTION DURING ADAPTATION TO A NOVEL ENVIRONMENT.

Author

Rundle, Howard D., Chenoweth, Stephen F., and Blows, Mark W.

Subjects

*SEXUAL selection, *DROSOPHILA, *NATURAL selection, *ANIMAL sexual behavior, *BIOLOGICAL adaptation

Abstract

The net effect of sexual selection on nonsexual fitness is controversial. On one side, elaborate display traits and preferences for them can be costly, reducing the nonsexual fitness of individuals possessing them, as well as their offspring. In contrast, sexual selection may reinforce nonsexual fitness if an individual's attractiveness and quality are genetically correlated. According to recent models, such good-genes mate choice should increase both the extent and rate of adaptation. We evolved 12 replicate populations of Drosophila serrata in a powerful two-way factorial experimental design to test the separate and combined contributions of natural and sexual selection to adaptation to a novel larval food resource. Populations evolving in the presence of natural selection bad significantly higher mean nonsexual fitness when measured over three generations (13-15) during the course of experimental evolution (16-23% increase). The effect of natural selection was even more substantial when measured in a standardized, monogamous mating environment at the end of the experiment (generation 16; 52% increase). In contrast, and despite strong sexual selection on display traits, there was no evidence from any of the four replicate fitness measures that sexual selection promoted adaptation. In addition, a comparison of fitness measures conducted under different mating environments demonstrated a significant direct cost of sexual selection to females, likely arising from some form of male-induced harm. Indirect benefits of sexual selection in promoting adaptation to this novel resource environment therefore appear to be absent in this species, despite prior evidence suggesting the operation of good-genes mate choice in their ancestral environment. How novel environments affect the operation of good-genes mate choice is a fundamental question for future sexual selection research. [ABSTRACT FROM AUTHOR]

Published

2006

29. Age determination in individual wild-caught Drosophila serrata using pteridine concentration.

Author

Robson, Simon K. A., Vickers, Mathew, Blows, Mark W., and Crozier, Ross H.

Subjects

*PTERIDINES, *DROSOPHILA, *AGE, *ANIMALS, *BICYCLIC compounds, *HETEROCYCLIC compounds

Abstract

Fluorescence spectrophotometry can reliably detect levels of the pteridine 6-biopterin in the heads of individual Drosophila serrata Malloch 1927. Pteridine content in both laboratory and field captured flies is typically a level of magnitude higher than the minimally detectable level (meanlab=0.54 units, meanfieId=0.44 units, minimum detectable level=0.01 units) and can be used to predict individual age in laboratory populations with high certainty (r²=57%). Laboratory studies of individuals of known age (from 1 to 48 days old) indicate that while pteridine level increases linearly with age, they also increase in a linear manner with rearing temperature and ambient light levels, but are independent of sex. As expected, the longevity of laboratory-reared males (at least 48 days) is higher than the range of predicted ages of wild-caught males based on individual pteridine levels (40 days). However, the predictive equation based on pteridine level alone suggested that a number of wild-caught males were less than 0 days old, and the 95% confidence limits for these predictions based on the inverse regression are broad. The age of the oldest wild-caught male is predicted to fall within the range of 2 to 50 days. The significant effects of temperature and light intensity determined in the laboratory study (effect sizes ω²=14.3 and 20.4%, respectively) suggests that the calibration of the age prediction equation for field populations would be significantly improved when combined with fine-scaled studies of habitat temperature and light conditions. The ability to determine relative age in individual wild-caught D. serrata presents great opportunities for a variety of evolutionary studies on the dynamics of natural populations. [ABSTRACT FROM AUTHOR]

Published

2006

30. THE CONTRASTING GENETIC ARCHITECTURE OF WING SIZE, VIABILITY, AND DEVELOPMENT TIME IN A RAINFOREST SPECIES AND ITS MORE WIDELY DISTRIBUTED RELATIVE.

Author

Schiffer, Michele, Gilchrist, A. Stuart, and Hoffmann, Ary A.

Subjects

*BIOLOGICAL divergence, *POPULATION, *GENETICS, *RAIN forests, *HABITATS

Abstract

Divergence among populations can occur via additive genetic effects and/or because of epistatic interactions among genes. Here we use line-cross analysis to compare the importance of epistasis in divergence among two sympatric Drosophila species from eastern Australia, one (D. serrata) distributed continuously and the other (D. birchii) confined to rainforest habitats that are often disjunct. For D. serrata, crosses indicated that development time and wing size differences were due to additive genetic effects, while for viability there were digenic epistatic effects. Crosses comparing geographically close populations as well as those involving the most geographically distant populations (including the southern species border) revealed epistatic interactions, whereas crosses at an intermediate distance showed no epistasis. In D. birchii, there was no evidence of epistasis for viability, although for development time and wing size there was epistasis in the cross between the most geographically diverged populations. Strong epistasis has not developed among the D. birchii populations, and this habitat specialist does not show stronger epistasis than D. serrata. Given that epistasis has been detected in crosses with other species from eastern Australia, including the recently introduced D. melanogaster, the results point to epistasis not being directly linked to divergence times among populations. [ABSTRACT FROM AUTHOR]

Published

2006

31. Crowd control: sex ratio affects sexually selected cuticular hydrocarbons in male Drosophila serrata

Author

Howard D. Rundle and Susan N. Gershman

Subjects

Male, 0106 biological sciences, 0301 basic medicine, media_common.quotation_subject, Insect, Biology, 010603 evolutionary biology, 01 natural sciences, Sexual Behavior, Animal, 03 medical and health sciences, 5. Gender equality, Crowd control, Animals, Sex Ratio, Mating, Ecology, Evolution, Behavior and Systematics, media_common, Phenotypic plasticity, Ecology, Australia, Hydrocarbons, Drosophila serrata, 030104 developmental biology, Sexual selection, Sex pheromone, Drosophila, Female, Sex ratio, Demography

Abstract

Although it is advantageous for males to express costly sexually selected signals when females are present, they may also benefit from suppressing these signals to avoid costly interactions with rival males. Cuticular chemical profiles frequently function as insect sexual signals; however, few studies have asked whether males alter these signals in response to their social environment. In Drosophila serrata, an Australian fly, there is sexual selection for a multivariate combination of male cuticular hydrocarbons (CHCs). Here, we show that the ratio of females to males that an adult male experiences has a strong effect on his CHC expression, with female-biased adult sex ratios eliciting greater expression of CHC profiles associated with higher male mating success. Classical models predict that male reproductive investment should be highest when there is a small but nonzero number of rivals, but we found that males expressed the most attractive combination of CHCs when there were no rivals. We found that male CHCs were highly sensitive to adult sex ratio, with males expressing higher values of CHC profiles associated with greater mating success as the ratio of females to males increased. Moreover, sex ratio has a stronger effect on male CHC expression than adult density. Finally, we explore whether sex ratio affects the variance among a group of males in their CHC expression, as might be expected if individuals respond differently to a given social environment, but find little effect. Our results reveal that subtle differences in social environment can induce plasticity in male chemical signal expression.

Published

2017

32. Genetic variance in female condition predicts indirect genetic variance in male sexual display traits.

Author

Petfield, Donna, Chenoweth, Stephen F., Rundle, Howard D., and Wows, Mark W.

Subjects

*GENETICS, *FEMALES, *MALES, *SEX differentiation (Embryology), *GENOTYPE-environment interaction, *SEX customs

Abstract

During sexual encounters, individuals often use signals, such as display traits, to attract mates. If individuals alter their display traits with respect to the genotype of potential mates, indirect genetic effects (IGEs) may occur in which the genes of one individual influence the phenotype of another. Although IGEs between related individuals have received much attention, their occurrence between unrelated individuals during sexual encounters has not. Here, we demonstrate that in the Australian fruit fly Drosophila serrata, males assess females by using both visual and olfactory cues, resulting in a rapid plastic response (within minutes) in male cuticular hydrocarbons (CHCs), a display trait that is an important target of mate choice. Several CHCs in males exhibited significant IGEs, and IGEs were inducible on both males reared in the laboratory and on field-caught individuals. A vector describing genetic variance in multiple CHCs in females was found to be almost identical to a vector describing indirect genetic variance in male CHCs, suggesting that males might assess female CHCs during courtship. This vector displayed contributions from all female CHCs in the same direction and of similar magnitude, suggesting that female condition may be the underlying casual trait that males are assessing. Consistent with this interpretation, when measured directly in a separate experiment genetic variance in female condition accounted for 19.8% of the indirect genetic variance in male CHCs. These indirect genetic effects have the potential to alter the response to selection of male sexual display traits. [ABSTRACT FROM AUTHOR]

Published

2005

33. Inversion frequencies in Drosophila serrata along an eastern Australian transect.

Author

Stocker, Ann Jacob, Foley, Brad, Hoffmann, Ary, and Singh, R. S.

Subjects

*CHROMOSOME inversions, *CHROMOSOME polymorphism, *DROSOPHILA, *GENETICS

Abstract

Clinal patterns over broad geographic regions provide a way of identifying characteristics of species under selection and are increasingly being used in quantitative trait locus mapping of adaptive genetic variation in Drosophila. However, interpretations of clinal patterns can be complicated by inversions that also vary clinally and reduce recombination in some parts of the genome. Drosophila serrata (Malloch) is an Australian endemic species being used to investigate the genetic basis of geographic variation in climatic adaptation and mate recognition. Here we describe inversions in D. serrata populations from the east coast of Australia, covering tropical and temperate regions. Seven autosomal paracentric inversions and 1 apparently complex X chromosome arrangement were identified from these populations. All inverted arrangements were relatively more common in tropical populations; 2 common inversions showed clinal patterns over part of the range of D. serrata. Inversion polymorphism was relatively higher in tropical populations and almost absent in populations near the cooler southern border, in agreement with findings on other Drosophila species. While these patterns will complicate mapping of adaptive variation in D. serrata, they suggest that this species will be useful in investigatingthe dynamics of inversion-trait associations in natural populations. [ABSTRACT FROM AUTHOR]

Published

2004

34. Shifting clinal patterns and microsatellite variation in Drosophila serrata populations: a comparison of populations near the southern border of the species range.

Author

Magiafoglou, A., Carew, M. E., and Hoffmann, A. A.

Subjects

*DROSOPHILA, *BIOCLIMATOLOGY, *NATURAL selection

Abstract

Abstract Geographical patterns for quantitative traits in Drosophila and other insects are commonly used to investigate climatic selection. They are usually determined from comparisons of populations over extensive areas and based on one collection per population. Here we consider patterns in the Australian endemic species Drosophila serrata established over a shorter transect with repeated sampling. Summer (prewinter) and spring (post-winter) collections were made from 10 to 14 localities, incorporating the southern border of D.serrata and extending approximately 1000 km northwards along the eastern coast of Australia. Linear or curvilinear associations with latitude were evident for development time, viability and cold resistance but patterns differed between collections. Some geographical (population) and genetic associations between traits were found and these also tended to differ between collections. Results confirm the importance of cold stress resistance over winter to the southern border of this species. Microsatellite markers were developed for D.serrata . These indicated a low level of genetic differentiation between populations, high levels of gene flow and no evidence that the most southerly populations were isolated. The results suggest that selection generated geographical patterns in cold resistance, development time and viability, and that substantial gene flow may prevent adaptation at the border to conditions beyond the current distribution of D. serrata. [ABSTRACT FROM AUTHOR]

Published

2002

35. Genomics of sexually selected traits in Drosophila serrata

Author

Adam J Reddiex

Subjects

Genetics, Genomics, Biology, Drosophila serrata

Published

2019

36. Level up: the expression of male sexually selected cuticular hydrocarbons is mediated by sexual experience

Author

Howard D. Rundle and Susan N. Gershman

Subjects

0106 biological sciences, 0301 basic medicine, Ecology, Physiology, Biology, Affect (psychology), 010603 evolutionary biology, 01 natural sciences, Sperm, Drosophila serrata, 03 medical and health sciences, Adult life, 030104 developmental biology, Sexual selection, Pheromone, Animal Science and Zoology, Mating, 10. No inequality, Ecology, Evolution, Behavior and Systematics

Abstract

The use of cuticular hydrocarbons (CHCs) in species recognition, sex identification and sexual selection is widespread in insects. However, few studies have studied plasticity in CHCs. Here we examine the effect of age and social environment on a suite of sexually selected CHCs in Drosophila serrata. We demonstrate that the combination of CHCs that is associated with increased male mating success (CHCβ) changes as males age, and this effect is mediated by social environment. When single males were housed with multiple females, their expression of CHCβ increased across the first few days of their adult life, after which expression declined with increasing age. In contrast, sexually selected CHCs of males housed with other males, males housed with other males and females, and males housed alone all decreased across days. To determine the long-term consequences of mating on CHC expression, we allowed males a single mating opportunity and subsequently found some indication of a brief spike in CHCβ. Finally, to determine whether visual and olfactory contact with females, copulation, or intromission causes males to express high values of CHCβ, we manipulated male access and physical contact with females. We found that although prolonged copulation causes a slight increase in male CHCβ, only a successful copulation with sperm transfer induced males to develop CHCs associated with high mating success. Taken as a whole, our results demonstrate that the expression of sexually selected CHCs in males varies with both age and social context, and suggest that the latter is mediated at least in part by successful matings with females. More generally, contextual plasticity in CHCs is likely to affect both the experimental design of CHC-based experiments and the evolution of CHC signals as naturally and sexually selected traits.

Published

2016

37. Mutational Pleiotropy and the Strength of Stabilizing Selection Within and Between Functional Modules of Gene Expression

Author

Katrina McGuigan, Mark W. Blows, Scott L. Allen, Julie M. Collet, Stephen F. Chenoweth, Centre de Biologie pour la Gestion des Populations (UMR CBGP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Université de Montpellier (UM)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), School of Biological Sciences, University of Queensland [Brisbane], Australian Research Council, Agreenskills + fellowship, European Project: 609398,EC:FP7:PEOPLE,FP7-PEOPLE-2013-COFUND,AGREENSKILLSPLUS(2014), and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)

Subjects

0301 basic medicine, Modularity (biology), [SDV]Life Sciences [q-bio], Computational biology, Investigations, Biology, genotype-phenotype map, 03 medical and health sciences, Quantitative Trait, Heritable, Pleiotropy, pleiotropy, Genetics, Animals, Selection, Genetic, Stabilizing selection, Gene, Genetic Association Studies, modularity, Models, Genetic, Genetic Variation, Genetic Pleiotropy, Biological Evolution, Phenotype, 030104 developmental biology, Mutation, Mutation (genetic algorithm), [SDE]Environmental Sciences, gene expression, Drosophila serrata, Drosophila, Adaptation, Algorithms, Function (biology)

Abstract

Collet et al. adopt a high-dimensional quantitative genetic approach using gene expression traits to test for the presence of modularity of the genotype-phenotype map, where traits contributing to the same function (functional modularity)... Variational modules, sets of pleiotropically covarying traits, affect phenotypic evolution, and therefore are predicted to reflect functional modules, such that traits within a variational module also share a common function. Such an alignment of function and pleiotropy is expected to facilitate adaptation by reducing the deleterious effects of mutations, and by allowing coordinated evolution of functionally related sets of traits. Here, we adopt a high-dimensional quantitative genetic approach using a large number of gene expression traits in Drosophila serrata to test whether functional grouping, defined by gene ontology (GO terms), predicts variational modules. Mutational or standing genetic covariance was significantly greater than among randomly grouped sets of genes for 38% of our functional groups, indicating that GO terms can predict variational modularity to some extent. We estimated stabilizing selection acting on mutational covariance to test the prediction that functional pleiotropy would result in reduced deleterious effects of mutations within functional modules. Stabilizing selection within functional modules was weaker than that acting on randomly grouped sets of genes in only 23% of functional groups, indicating that functional alignment can reduce deleterious effects of pleiotropic mutation but typically does not. Our analyses also revealed the presence of variational modules that spanned multiple functions.

Published

2018

38. Characterizing Sexual Selection in a Wild Population of Protopiophila litigata (Diptera: Piophilidae) and Analyzing the Combined Effects of Cuticular Hydrocarbons and Wing Interference Patterns on Male Mating Success in Drosophila serrata

Author

Godfrey, Corey

Subjects

Sexual Selection, animal structures, fungi, behavior and behavior mechanisms, Drosophila serrata, insect, reproductive and urinary physiology, Antler Fly

Abstract

One of the major research challenges is the ability to test selective forces in a wild population. A recent discovery of a new dipteran species, Protopiophila litigata, can enable researches to test selection in the wild. Most research has focused on mating behaviour, male mating success and senescence. In this study a small sample of wild mating and non-mating flies were collected, cuticular hydrocarbons were extracted and morphometric traits were obtained to assess the strength of sexual selection. There was significant linear sexual selection on cuticular hydrocarbons and, mid tibia length, hind tibia length and wing length. Overall, further establishes P. litigata as a model species for studying selection in the wild. Earlier studies have demonstrated strong sexual selection on male cuticular hydrocarbons in Drosophila serrata. Recently wing interference patterns have been documented to be under sexual selection in Drosophila melanogaster. A sample of cuticular hydrocarbons and wing interference pattern values were analyzed to understand the combined effects on male mating success. Cuticular hydrocarbons were under sexual selection, however wing interference patterns were not. Overall, this study confirms selection on cuticular hydrocarbons, but highlights the difficulty in accurately capturing and measuring wing interference patterns.

Published

2017

39. THE CONTRIBUTION OF SPONTANEOUS MUTATIONS TO THERMAL SENSITIVITY CURVE VARIATION INDROSOPHILA SERRATA

Author

Robbie S. Wilson, Stephen F. Chenoweth, Katrina McGuigan, Camille A. L. Latimer, and Mark W. Blows

Subjects

Genetics, Variation (linguistics), Continuous reaction, Contrast (statistics), Sensitivity (control systems), Adaptation, Biology, General Agricultural and Biological Sciences, Ecology and Evolutionary Biology, Locomotor activity, Ecology, Evolution, Behavior and Systematics, Drosophila serrata

Abstract

Many traits studied in ecology and evolutionary biology change their expression in response to a continuously varying environmental factor. One well-studied example are thermal performance curves (TPCs); continuous reaction norms that describe the relationship between organismal performance and temperature and are useful for understanding the trade-offs involved in thermal adaptation. We characterized curves describing the thermal sensitivity of voluntary locomotor activity in a set of 66 spontaneous mutation accumulation lines in the fly Drosophila serrata. Factor-analytic modeling of the mutational variance-covariance matrix, M, revealed support for three axes of mutational variation in males and two in females. These independent axes of mutational variance corresponded well to the major axes of TPC variation required for different types of thermal adaptation; "faster-slower" representing changes in performance largely independent of temperature, and the "hotter-colder" and "generalist-specialist" axes, representing trade-offs. In contrast to its near-absence from standing variance in this species, a "faster-slower" axis, accounted for most mutational variance (75% in males and 66% in females) suggesting selection may easily fix or remove these types of mutations in outbred populations. Axes resembling the "hotter-colder" and "generalist-specialist" modes of variation contributed less mutational variance but nonetheless point to an appreciable input of new mutations that may contribute to thermal adaptation.

Published

2014

40. Do female fruit flies (Drosophila serrata) copy the mate choice of others?

Author

Auld, Heather L., Punzalan, David, Godin, Jean-Guy J., and Rundle, Howard D.

Subjects

*ANIMAL courtship, *SOCIAL learning, *DROSOPHILA behavior, *SEXUAL selection, *SOCIAL interaction, *ANIMAL sexual behavior

Abstract

Abstract: Female mate-choice copying is a social learning phenomenon whereby a female''s observation of a successful sexual interaction between a male and another female increases her likelihood of subsequently preferring that male. Although mate-choice copying has been documented in several vertebrate species, to our knowledge it has not yet been investigated in insects. Here, we investigated whether female mate-choice copying occurs in the fruit fly Drosophila serrata, a model system for the study of mate preferences and the sexual selection they generate. We used two complementary experiments in which focal females were given a choice between two males that differed in either their apparent (as determined visually by the focal female) or actual recent mating success. Mate-choice copying was evaluated by testing whether focal females mated more frequently with the ‘preferred’ male as opposed to the other male. In both experiments, however, we found no evidence for mate-choice copying. We discuss possible reasons for the apparent absence of mate-choice copying in this species. [Copyright &y& Elsevier]

Published

2009

41. REDUCING MUTATION LOAD THROUGH SEXUAL SELECTION ON MALES

Author

Mark W. Blows, Katrina McGuigan, and Donna Petfield

Subjects

Abiotic component, Genetics, Fixation (population genetics), Sexual selection, Genetic variation, Trait, Biology, Mutation Accumulation, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics, Drosophila serrata, Genetic load

Abstract

Mutation load is a key parameter in evolutionary theories, but relatively little empirical information exists on the mutation load of populations, or the elimination of this load through selection. We manipulated the opportunity for sexual selection within a mutation accumulation divergence experiment to determine how sexual selection on males affected the accumulation of mutations contributing to sexual and nonsexual fitness. Sexual selection prevented the accumulation of mutations affecting male mating success, the target trait, as well as reducing mutation load on productivity, a nonsexual fitness component. Mutational correlations between mating success and productivity (estimated in the absence of sexual selection) were positive. Sexual selection significantly reduced these fitness component correlations. Male mating success significantly diverged between sexual selection treatments, consistent with the fixation of genetic differences. However, the rank of the treatments was not consistent across assays, indicating that the mutational effects on mating success were conditional on biotic and abiotic context. Our experiment suggests that greater insight into the genetic targets of natural and sexual selection can be gained by focusing on mutational rather than standing genetic variation, and on the behavior of trait variances rather than means.

Published

2011

42. Condition Dependence of a Multicomponent Sexual Display Trait in Drosophila serrata

Author

Howard D. Rundle and Matthieu Delcourt

Subjects

Male, Ecology, Directional selection, Genic capture, Biology, Hydrocarbons, Pheromones, Drosophila serrata, Sexual Behavior, Animal, Evolutionary biology, Sexual selection, Sex pheromone, Trait, Animals, Drosophila, Female, Selection, Genetic, Condition dependent, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm)

Abstract

Theory predicts that costly sexual displays should evolve condition dependence if the marginal fitness gain from trait exaggeration is greater for high- than for low-condition individuals and that the strength of condition dependence should increase with the strength of directional selection. While there is substantial support for the first prediction, evidence for the latter is much weaker. We undertook a quantitative test of this prediction for a multivariate sexual display consisting of a suite of contact pheromones termed "cuticular hydrocarbons" (CHCs) in Drosophila serrata. We performed a dietary manipulation of condition (i.e., the pool of metabolic resources available for allocation to fitness-enhancing traits) within a half-sibling breeding design, thereby also providing insight into the genetic basis of condition dependence. As predicted, the linear combination of CHCs under the strongest sexual selection from female mate preferences was unusually condition dependent relative to other CHC combinations within the population ([Formula: see text]). A significant positive correlation also existed between the strengths of condition dependence and sexual selection among different CHC blends ([Formula: see text], [Formula: see text]). Finally, sires varied in their response to the dietary manipulation, demonstrating significant genetic variance in condition dependence. Our results are consistent with the evolution of heightened condition dependence of sexual displays in response to persistent sexual selection.

Published

2011

43. Quantitative genetic variation for thermal performance curves within and among natural populations of Drosophila serrata

Author

C. A. L. Latimer, Stephen F. Chenoweth, and Robbie S. Wilson

Subjects

education.field_of_study, Ecology, Population, Biology, Locomotor activity, Drosophila serrata, Divergence, Evolutionary biology, Genetic variation, Continuous reaction, Performance curves, Adaptation, education, Ecology, Evolution, Behavior and Systematics

Abstract

Thermal performance curves (TPCs) provide a powerful framework for studying the evolution of continuous reaction norms and for testing hypotheses of thermal adaptation. Although featured heavily in comparative studies, the framework has been comparatively underutilized for quantitative genetic tests of thermal adaptation. We assayed the distribution of genetic (co)variance for TPC (locomotor activity) within and among three natural populations of Drosophila serrata and performed replicated tests of two hypotheses of thermal adaptation - that 'hotter is better' and that a generalist-specialist trade-off underpins the evolution of thermal sensitivity. We detected significant genetic variance within, and divergence among, populations. The 'hotter is better' hypothesis was not supported as the genetic correlations between optimal temperature (T-opt) and maximum performance (z(max)) were consistently negative. A pattern of variation consistent with a generalist-specialist trade-off was detected within populations and divergence among populations indicated that performance curves were narrower and had higher optimal temperatures in the warmer, but less variable tropical population.

Published

2011

44. Rapid isolation of mitochondrial DNA. Mitochondrial DNA from Drosophila serrata.

Author

Pissios, P. and Scouras, Z.

Abstract

A simple and rapid method for isolation of high quality mitochondrial DNA (mtDNA) is presented in this report. Using this method, isolation and restriction site maps for 10 enzymes of the mtDNA of Drosophila serrata were established. [ABSTRACT FROM AUTHOR]

Published

1992

45. Sexual Conflict in Drosophila Serrata across Populations and Environments

Author

Colpitts, Julie Ann

Subjects

sexual conflict, Drosophila serrata

Abstract

Earlier studies implicate interlocus sexual conflict as having important evolutionary consequences in Drosophila serrata but it has never been directly studied. I quantify sexual conflict and its divergence between two laboratory stocks using a full factorial manipulation of male population, female population, and level of male exposure to track longevity and fecundity of individual females. Evidence of strong sexual conflict, as well as divergence of male harm and female resistance between populations, was found. The relationship between environmental complexity and sexual conflict was then explored using a combination of behavioural observations and a factorial experiment to again track longevity and fecundity of individual females. Increased complexity was associated with decreased sexual activity and increased lifespan in females, although effects on fecundity were less clear. Overall, my studies combine to provide initial data for characterizing sexual conflict in Drosophila serrata and shed light on important considerations for its study.

Published

2015

46. Contrasting Mutual Sexual Selection on Homologous Signal Traits in Drosophila serrata

Author

Mark W. Blows and Stephen F. Chenoweth

Subjects

Male, Genetics, education.field_of_study, Natural selection, Population, Biology, Hydrocarbons, Mating preferences, Drosophila serrata, Sexual dimorphism, Sexual Behavior, Animal, Phenotype, Sex Factors, Evolutionary biology, Sexual selection, Homologous chromosome, Animals, Drosophila, Female, education, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm)

Abstract

The nature of male mating preferences, and how they differ from female mating preferences in species with conventional sex roles, has received little attention in sexual selection studies. We estimated the form and strength of sexual selection as a consequence of male and female mating preferences in a laboratory-based population of Drosophila serrata. The differences between sexual selection on male and female signal traits (cuticular hydrocarbons [CHCs]) were evaluated within a formal framework of linear and nonlinear selection gradients. Females tended to exert linear sexual selection on male CHCs, whereas males preferred intermediate female CHC phenotypes leading to convex (stabilizing) selection gradients. Possible mechanisms determining the nonlinear nature of sexual selection on female CHCs are proposed.

Published

2005

47. Cross-generation effects due to cold exposure inDrosophila serrata

Author

Andréa Magiafoglou and Ary A. Hoffmann

Subjects

education.field_of_study, biology, Ecology, Population, Maternal effect, Cold exposure, Zoology, biology.organism_classification, Environmental variation, Phenotype, Drosophila serrata, Productivity (ecology), Drosophilidae, education, Ecology, Evolution, Behavior and Systematics

Abstract

Summary 1 Environmental variation experienced in the parental and grandparental generation can affect progeny phenotype, performance and response to selection. Here the effects of parental and grandparental exposure to a non-lethal cold shock are considered in Drosophila serrata Malloch. Development time, viability and early age productivity were measured in flies originating from border and central locations in the distribution of this species that had been held under two separate laboratory maintenance schedules. 2 Cross-generation effects were detected for several traits. Development time usually decreased following maternal and/or grandmaternal cold exposure. Parental cold exposure negatively influenced viability while grandparental effects on viability were negligible. Early female productivity showed opposing responses depending on generation; maternal cold exposure increased progeny productivity while grandmaternal exposure decreased it. Male parental and grandparental exposure to cold shock decreased male productivity, although this pattern may have been partly confounded by size effects. 3 Population effects, reflecting geographical origin, were limited to development time, while selective background effects were demonstrated for most traits. The influence these factors had on the expression of cross-generation effects was negligible, given interactions with treatment were not evident. These responses suggest that environmental variation experienced in preceding generations can influence progeny phenotype in a manner that is complex and difficult to predict.

Published

2003

48. Time flies: time of day and social environment affect cuticular hydrocarbon sexual displays in Drosophila serrata

Author

Susan N. Gershman, Ethan Toumishey, and Howard D. Rundle

Subjects

Attractiveness, Male, Zoology, Biology, Social Environment, General Biochemistry, Genetics and Molecular Biology, Sexual Behavior, Animal, Time of day, Sex Factors, Sex factors, Animals, Sex Attractants, Research Articles, General Environmental Science, General Immunology and Microbiology, Ecology, fungi, Social environment, General Medicine, Mating Preference, Animal, Drosophila serrata, Hydrocarbons, Circadian Rhythm, Sexual selection, Sex pheromone, Drosophila, Female, General Agricultural and Biological Sciences

Abstract

Recent work on Drosophila cuticular hydrocarbons (CHCs) challenges a historical assumption that CHCs in flies are largely invariant. Here, we examine the effect of time of day and social environment on a suite of sexually selected CHCs in Drosophila serrata . We demonstrate that males become more attractive to females during the time of day that flies are most active and when most matings occur, but females become less attractive to males during the same time of day. These opposing temporal changes may reflect differences in selection among the sexes. To evaluate the effect of social environment on male CHC attractiveness, we manipulated male opportunity for mating: male flies were housed either alone, with five females, with five males or with five males and five females. We found that males had the most attractive CHCs when with females, and less attractive CHCs when with competitor males. Social environment mediated how male CHC attractiveness cycled: males housed with females and/or other males showed temporal changes in CHC attractiveness, whereas males housed alone did not. In total, our results demonstrate temporal patterning of male CHCs that is dependent on social environment, and suggest that such changes may be beneficial to males.

Published

2014

49. Distribution ofDrosophila serrataMalloch (Diptera: Drosophilidae) in Australia with particular reference to the southern border

Author

Nicole L. Jenkins and Ary A. Hoffmann

Subjects

biology, Ecology, Range (biology), business.industry, Distribution (economics), Model system, Limiting, biology.organism_classification, Drosophila serrata, Late summer, Insect Science, Drosophilidae, business, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, Cold stress

Abstract

The distribution of the fly Drosophila serrata Malloch in Australia was characterised in light of the increasing use of this species as an evolutionary model system. A synthesis of previous collections suggested that D. serrata was limited to the eastern and northern coastal areas, with a southern border approximately 200 km north of Sydney and that this species utilised a wide range of resources as breeding sites. Additional collections suggested that the southern border changed seasonally, shifting some 270 km to Wollongong in late summer and autumn. Simulations using CLIMEX implicate cold stress in limiting the southern distribution.

Published

2001

50. Does interspecific hybridization influence evolutionary rates? An experimental study of laboratory adaptation in hybrids between Drosophila serrata and Drosophila birchii

Author

Ary A. Hoffmann and Miriam J. Hercus

Subjects

Male, General Biochemistry, Genetics and Molecular Biology, Time, Drosophila birchii, Animals, Drosophila, Crosses, Genetic, General Environmental Science, Hybrid, Genetics, Analysis of Variance, General Immunology and Microbiology, biology, General Medicine, Interspecific competition, biology.organism_classification, Biological Evolution, Temperature stress, Drosophila serrata, Interspecific hybridization, Evolutionary biology, Hybridization, Genetic, Female, Adaptation, General Agricultural and Biological Sciences, Research Article

Abstract

The low initial fitness of progeny from interspecific crosses in animals and the rarity of interspecific hybridization in natural environments have led to a debate about the evolutionary importance of this phenomenon. Here we directly assess the effects of hybridization between Drosophila serrata and Drosophila birchii on evolutionary rates. We looked at the effects on laboratory adaptation over 30 generations in two laboratory environments, one of which involved nutrition and temperature stress. Laboratory adaptation occurred over time in both environments as reflected by a marked change in viability. However, whilst hybrid lines at no stage performed poorly relative to parental lines, their rate of adaptation never exceeded that of the parentals. Thus, there was no evidence that hybridization increased evolutionary rates. Instead, hybrid lines converged phenotypically with one of the parental species.

Published

1999