The opportunity for selection: A slippery concept in ecology and evolution

Natural selection can only occur if individuals differ in fitness. For this reason, the variance in relative fitness has been equated with the 'opportunity for selection' (I$$ I $$), which has a long, albeit somewhat controversial, history. In this paper we discuss the use/misuse of I$$ I $$ and related metrics in evolutionary ecology. The opportunity is only realised if some fraction of I$$ I $$ is caused by trait variation. Thus, I>0$$ I>0 $$ does not imply that selection is occurring, as sometimes erroneously assumed, because all fitness variation could be independent of phenotype. The selection intensity on any given trait cannot exceed I$$ \sqrt{I} $$, but this upper limit will never be reached because (a) stochastic factors always affect fitness, and (b) there might be multiple traits under selection. The expected magnitude of the stochastic component of I$$ I $$ is negatively correlated with mean fitness. Uncertainty in realised I$$ I $$ is also larger when mean fitness or population/sample size are low. Variation in I$$ I $$ across time or space thus can be dominated (or solely driven) by variation in the strength of demographic stochasticity. We illustrate these points using simulations and empirical data from a population study on great tits Parus major. Our analysis shows that the scope for fecundity selection in the great tits is substantially higher when using annual number of recruits as the fitness measure, rather than fledglings or eggs, even after adjusting for the dependence of I$$ I $$ on mean fitness. This suggests nonrandom survival of juveniles across families between life stages. Indeed, previous work on this population has shown that offspring recruitment is often nonrandom with respect to clutch size and laying date of parents, for example. We conclude that one cannot make direct inferences about selection based on fitness data alone. However, examining variation in increment IF$$ \Delta {I}_F $$ (the opportunity for fecundity selection adjusted for mean fitness) across life stages, years or environments can offer clues as to when/where fecundity selection might be strongest, which can be useful for research planning and experimental design.

Automated summary

This paper discusses the use and misuse of fitness variation and the 'opportunity for selection' (I$$ I $$) in evolutionary ecology. The study finds that the realization of selection opportunity relies on trait variation, rather than being solely determined by fitness variation. Additionally, the strength of demographic stochasticity can dominate the variation of I$$ I $$ across time or space. The analysis using simulations and empirical data from a population study on great tits suggests that measuring fitness based on the annual number of recruits can reveal a higher scope for fecundity selection compared to measuring it based on fledglings or eggs.