Abstract
A basic mechanism of kin selection is population viscosity, whereby individuals do not move far from their place of birth and hence tend to be surrounded by relatives. In such circumstances, even indiscriminate altruism among neighbours will often involve interactions between kin, which has a promoting effect on the evolution of altruism. This has the potential to explain altruistic behaviour across the whole tree of life, including in taxa for which recognition of kin is implausible. However, population viscosity may also intensify resource competition among kin, which has an inhibitory effect on altruism. Indeed, in the simplest scenario, in which individuals disperse with a fixed probability, these two effects have been shown to exactly cancel such that there is no net impact of viscosity on altruism. Here, we show that if individuals are able to disperse conditionally upon local density, they are favoured to do so, with more altruistic neighbourhoods exhibiting a higher rate of dispersal and concomitant relaxation of kin competition. Comparing across different populations or species, this leads to a negative correlation between overall levels of dispersal and altruism. We demonstrate both analytically and using individual-based simulations that population viscosity promotes the evolution of altruism under density-dependent dispersal.
Highlights
Kin selection is widely accepted as a key explanation for the evolution of altruistic behaviour [1–4]
We find that the potential for altruism is a monotonically decreasing function of the population-average dispersal rate (i.e. @A=@xÃ, 0) when n . 1—in other words, limited dispersal results in an increased potential for altruism
Taylor’s analysis [6] revealed that the evolutionary potential for indiscriminate altruism is invariant with respect to dispersal rate under the simplest model of population structure, on account of an exact cancellation of the relatedness and kincompetition consequences of limited dispersal. This has thrown doubt upon the widely held view that population viscosity represents the most general mechanism by which kin selection drives the evolution of altruistic behaviour
Summary
A basic mechanism of kin selection is population viscosity, whereby individuals do not move far from their place of birth and tend to be surrounded by relatives. In such circumstances, even indiscriminate altruism among neighbours will often involve interactions between kin, which has a promoting effect on the evolution of altruism. Comparing across different populations or species, this leads to a negative correlation between overall levels of dispersal and altruism. We demonstrate both analytically and using individual-based simulations that population viscosity promotes the evolution of altruism under density-dependent dispersal
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