Frequency-Dependent Selection and the Evolution of Assortative Mating

Otto, Sarah P.; Servedio, Maria R.; Nuismer, Scott L.

doi:10.1534/genetics.107.084418

Cited by 141 publications

(275 citation statements)

References 57 publications

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“…In other words, the evolution of choosiness in this model may have two stable equilibria: an intermediate equilibrium with partial isolation and a high equilibrium with complete isolation. These results were later confirmed by Pennings et al (2008), Otto et al (2008), and Ripa (2009), who showed that the bistability is a consequence of positively frequency-dependent sexual selection. For small mutational step sizes, the intermediate equilibrium forms a barrier against speciation.…”

Section: Introductionmentioning

confidence: 61%

“…Our main results are that speciation is easiest if choosiness can evolve through a single large mutational step and that additional ecological loci enlarge the number of evolutionary outcomes. Compared to models with one ecological locus and infinitesimal mutations for the mating trait (Pennings et al, 2008;Kopp and Hermisson, 2008;Otto et al, 2008;de Cara et al, 2008;Ripa, 2009), both effects increase the range of parameters where speciation is possible.…”

Section: Discussionmentioning

confidence: 99%

“…To resolve this problem, several studies have recently developed simplified models, which are analytically tractable and have helped explain some of the controversial results from previous numerical studies (Matessi et al, 2001;de Cara et al, 2008;Pennings et al, 2008;Kopp and Hermisson, 2008;Otto et al, 2008;Ripa, 2009). To achieve analytical tractability, however, the new models needed to rely on simplifying genetic assumptions:…”

Section: Introductionmentioning

confidence: 99%

“…In many cases, this assumption will be innocuous. In particular, if assortative mating is cost-free, the conditions for invasion of large and small choosiness modifiers are identical, as long as they point into the same direction (Pennings et al, 2008;Otto et al, 2008;Durinx and Van Dooren, 2009). …”

Section: Introductionmentioning

confidence: 99%

“…The models by Pennings et al (2008), de Cara et al (2008, Otto et al (2008), and Ripa (2009) are based on the simplifying assumption that the ecological trait is determined by a single locus with two alleles and additive effects. Such simplifications, which are made to achieve mathematical tractability, can be problematic if they introduce a bias or if they rule out important outcomes.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Effects of genetic architecture on the evolution of assortative mating under frequency-dependent disruptive selection

Rettelbach

Hermisson

Dieckmann

et al. 2011

Theoretical Population Biology

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We consider a model of sympatric speciation due to frequency-dependent competition, in which it was previously assumed that the evolving traits have a very simple genetic architecture. In the present study, we use numerical simulations to test the consequences of relaxing this assumption. First, previous models assumed that assortative mating evolves in infinitesimal steps. Here, we show that the range of parameters for which speciation is possible increases when mutational steps are large. Second, it was assumed that the trait under frequency-dependent selection is determined by a single locus with two alleles and additive effects. As a consequence, the resultant intermediate phenotype is always heterozygous and can never breed true. To relax this assumption, we now add a second locus influencing the trait. We find three new possible evolutionary outcomes: evolution of three reproductively isolated species, a monomorphic equilibrium with only the intermediate phenotype, and a randomly mating population with a steep unimodal distribution of phenotypes. Both extensions of the original model thus increase the likelihood of competitive speciation.

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Section: Introductionmentioning

confidence: 61%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Effects of genetic architecture on the evolution of assortative mating under frequency-dependent disruptive selection

Rettelbach

Hermisson

Dieckmann

et al. 2011

Theoretical Population Biology

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Searching for Sympatric Speciation in the Genomic Era

2019

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Sympatric speciation illustrates how natural and sexual selection may create new species in isolation without geographic barriers. However, recent genomic reanalyses of classic examples of sympatric speciation reveal complex histories of secondary gene flow from outgroups into the radiation. In contrast, the rich theoretical literature on this process distinguishes among a diverse range of models based on simple genetic histories and different types of reproductive isolating barriers. Thus, there is a need to revisit how to connect theoretical models of sympatric speciation and their predictions to empirical case studies in the face of widespread gene flow. Here, theoretical differences among different types of sympatric speciation and speciation-with-gene-flow models are reviewed and genomic analyses for distinguishing which models apply to case studies based on the timing and function of adaptive introgression are proposed. Investigating whether secondary gene flow contributed to reproductive isolation is necessary to test whether predictions of theory are ultimately borne out in nature.

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Widespread positive but weak assortative mating by diet within stickleback populations

Ingram

Jiang

Rangel

et al. 2015

Ecology and Evolution

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Assortative mating – correlation between male and female traits – is common within populations and has the potential to promote genetic diversity and in some cases speciation. Despite its importance, few studies have sought to explain variation in the extent of assortativeness across populations. Here, we measure assortative mating based on an ecologically important trait, diet as inferred from stable isotopes, in 16 unmanipulated lake populations of three-spine stickleback. As predicted, we find a tendency toward positive assortment on the littoral–pelagic axis, although the magnitude is consistently weak. These populations vary relatively little in the strength of assortativeness, and what variation occurs is not explained by hypothesized drivers including habitat cosegregation, the potential for disruptive selection, costs to choosiness, and the strength of the relationship between diet and body size. Our results support recent findings that most assortative mating is positive, while suggesting that new approaches may be required to identify the environmental variables that drive the evolution of nonrandom mating within populations.

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Frequency-Dependent Selection and the Evolution of Assortative Mating

Cited by 141 publications

References 57 publications

Effects of genetic architecture on the evolution of assortative mating under frequency-dependent disruptive selection

Effects of genetic architecture on the evolution of assortative mating under frequency-dependent disruptive selection

Searching for Sympatric Speciation in the Genomic Era

Widespread positive but weak assortative mating by diet within stickleback populations

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