Malcolm E. Augat scite author profile

Social interactions often have major fitness consequences, but little is known about how specific interacting phenotypes affect the strength of natural selection. Social influences on the evolutionary process can be assessed using a multilevel selection approach that partitions the effects of social partner phenotypes on fitness (referred to as social or group selection) from those of the traits of a focal individual (nonsocial or individual selection). To quantify the contribution of social selection to total selection affecting a trait, the patterns of phenotypic association among interactants must also be considered. We estimated selection gradients on male body size in a wild population of forked fungus beetles (Bolitotherus cornutus). We detected positive nonsocial selection and negative social selection on body size operating through differences in copulation success, indicating that large males with small social partners had highest fitness. In addition, we found that, in low-density demes, the phenotypes of focal individuals were negatively correlated with those of their social partners. This pattern reversed the negative effect of group selection on body size and led to stronger positive selection for body size. Our results demonstrate multilevel selection in nature and stress the importance of considering social selection whenever conspecific interactions occur nonrandomly. K E Y W O R D S :Bolitotherus cornutus, contextual analysis, interacting phenotypes, multilevel selection, sexual selection, social evolution.

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Fitness consequences of social network position in a wild population of forked fungus beetles (Bolitotherus cornutus)

Formica

Wood

Larsen

et al. 2011

J of Evolutionary Biology

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Social networks describe the pattern of intraspecific interactions within a population. An individual’s position in a social network often is expected to influence its fitness, but only a few studies have examined this relationship in natural populations. We investigated the fitness consequences of network position in a wild beetle population. Copulation success of male beetles positively covaried with strength (a measure of network centrality) and negatively covaried with clustering coefficient (CC) (a measure of cliquishness). Further analysis using mediation path models suggested that the activity level of individuals drove the relationships between strength and fitness almost entirely. In contrast, selection on CC was not explained by individual behaviours. Although our data suggest that social network position can experience strong sexual selection, it is also clear that the relationships between fitness and some network metrics merely reflect variation in individual‐level behaviours.

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Using home range estimates to construct social networks for species with indirect behavioral interactions

Formica

Augat

Barnard

et al. 2010

Behav Ecol Sociobiol

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Scale dependence of sex ratio in wild plant populations: implications for social selection

Sanderson

Augat

Taylor

et al. 2016

Ecology and Evolution

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Social context refers to the composition of an individual's social interactants, including potential mates. In spatially structured populations, social context can vary among individuals within populations, generating the opportunity for social selection to drive differences in fitness functions among individuals at a fine spatial scale. In sexually polymorphic plants, the local sex ratio varies at a fine scale and thus has the potential to generate this opportunity. We measured the spatial distribution of two wild populations of the gynodioecious plant Silene vulgaris and show that there is fine‐scale heterogeneity in the local distribution of the sexes within these populations. We demonstrate that the largest variance in sex ratio is among nearest neighbors. This variance is greatly reduced as the spatial scale of social interactions increases. These patterns suggest the sex of neighbors has the potential to generate fine‐scale differences in selection differentials among individuals. One of the most important determinants of social interactions in plants is the behavior of pollinators. These results suggest that the potential for selection arising from sex ratio will be greatest when pollen is shared among nearest neighbors. Future studies incorporating the movement of pollinators may reveal whether and how this fine‐scale variance in sex ratio affects the fitness of individuals in these populations.

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Malcolm E. Augat

Phenotypic Assortment Mediates the Effect of Social Selection in a Wild Beetle Population

Fitness consequences of social network position in a wild population of forked fungus beetles (Bolitotherus cornutus)

Using home range estimates to construct social networks for species with indirect behavioral interactions

Scale dependence of sex ratio in wild plant populations: implications for social selection

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