Measuring natural and sexual selection on breeding values of male display traits in Drosophila serrata

Recent experiments indicate that male preferential harassment of high-quality females reduces the variance in female fitness, thereby weakening natural selection through females and hampering adaptation and purging. We propose that this phenomenon, which results from a combination of male choice and male-induced harm, should be mediated by the physical environment in which intersexual interactions occur. Using Drosophila melanogaster , we examined intersexual interactions in small and simple (standard fly vials) versus slightly more realistic (small cages with spatial structure) environments. We show that in these more realistic environments, sexual interactions are less frequent, are no longer biased towards high-quality females, and that overall male harm is reduced. Next, we examine the selective advantage of high- over low-quality females while manipulating the opportunity for male choice. Male choice weakens the viability advantage of high-quality females in the simple environment, consistent with previous work, but strengthens selection on females in the more realistic environment. Laboratory studies in simple environments have strongly shaped our understanding of sexual conflict but may provide biased insight. Our results suggest that the physical environment plays a key role in the evolutionary consequences of sexual interactions and ultimately the alignment of natural and sexual selection.

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Darwin and the Split between Natural and Sexual Selection

Becoming Undone ◽

10.1215/9780822394433-009 ◽

2011 ◽

pp. 115-142

Keyword(s):

Sexual Selection ◽

Natural And Sexual Selection

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The evolution of sexual size dimorphism: the interplay between natural and sexual selection

Journal of Orthoptera Research ◽

10.1665/1082-6467-17.2.197 ◽

2008 ◽

Vol 17 (2) ◽

pp. 197-200 ◽

Cited By ~ 6

Author(s):

Raúl Cuevadel Castillo ◽

Juan Núñez-Farfán

Keyword(s):

Sexual Selection ◽

Sexual Size Dimorphism ◽

Size Dimorphism ◽

Natural And Sexual Selection

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Natural and sexual selection components of odonate mating patterns

The Evolution of Mating Systems in Insects and Arachnids ◽

10.1017/cbo9780511721946.004 ◽

1997 ◽

pp. 58-74 ◽

Cited By ~ 29

Author(s):

Ola M. Fincke ◽

Jonathan K. Waage ◽

Walter D. Koenig

Keyword(s):

Sexual Selection ◽

Mating Patterns ◽

Natural And Sexual Selection

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

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2021.1785 ◽

2021 ◽

Vol 288 (1960) ◽

Author(s):

Adam J. Reddiex ◽

Stephen F. Chenoweth

Keyword(s):

Sexual Selection ◽

Quantitative Genetics ◽

Genome Wide Association Study ◽

Mutational Bias ◽

Stabilizing Selection ◽

Genetic Constraints ◽

Selection Gradients ◽

Selection Responses ◽

Drosophila Serrata ◽

Potential Factors

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.

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The New Synthesis

Creatures of Cain ◽

10.23943/princeton/9780691181882.003.0014 ◽

2018 ◽

pp. 235-245

Author(s):

Erika Lorraine Milam

Keyword(s):

Sexual Selection ◽

Information Processing ◽

Human Nature ◽

Genetic Information ◽

Next Generation ◽

New Synthesis ◽

Genetic Information Processing ◽

The 1960S ◽

Natural And Sexual Selection

This chapter discusses new understandings of humanity from the 1960s onward. It shows how a particular group of scientists struggled with the question of human nature by conceiving of natural and sexual selection as acting at the level of individuals, who in turn served as genetic-information processing units. A trait could not spread in a population unless it conferred some advantage to the individuals who possessed it, allowing them to contribute more copies of their genes to the next generation of that population than other individuals. These struggles are furthermore framed within a period when sociobiology was just starting to get a foothold in academics.

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Principles of evolutionary theory, evolutionary psychopathology, and genetics

Textbook of Evolutionary Psychiatry and Psychosomatic Medicine ◽

10.1093/med:psych/9780198717942.003.0001 ◽

2015 ◽

pp. 3-40

Author(s):

Martin Brüne

Keyword(s):

Sexual Selection ◽

Human Brain ◽

Psychosomatic Medicine ◽

Genetic Variants ◽

Driving Force ◽

Human Cognition ◽

Protective Effects ◽

Changing Environments ◽

Genes And Environment ◽

Natural And Sexual Selection

Darwin’s work on evolution by natural and sexual selection is the central scientific framework in biology that explains how life developed through adaptation to changing environments. Evolution has been the driving force that has shaped the human brain and mind in the same way as it has formed somatic traits. Many adaptations pertaining to human cognition, emotions, and behaviour emerged in ancestral environments of evolutionary adaptedness, from which modern living conditions deviate in one way or another. Such ‘mismatches’ of evolved traits and current environments may cause vulnerability to dysfunctional operation of cognitive, emotional, and behavioural traits. Genes and environment interact in manifold ways, yet genetic plasticity may not only convey vulnerability to dysfunction. Instead, the very same genetic variants that may lead to dysfunction when associated with environmental adversity exert protective effects against dysfunction when environments are more favourable. These insights have yet to be acknowledged by psychiatry and psychosomatic medicine.

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