Abstract
Morph-specific mate choice has been proposed as one of the evolutionary mechanisms that contribute to the maintenance of variation in color polymorphic systems. Coloration usually covaries with other phenotypic traits affecting life history and thus is often used as a criterion for mate choice. Here, we assess whether mating patterns, natal dispersal, and breeding output are phenotype-dependent in the color polymorphic Eleonora’s falcon. We used a long-term dataset of 946 individually ringed adult falcons that included 109 individuals monitored from birth up to recruitment into the breeding population. Overall, patterns of mate choice with regard to coloration were neither assortative nor disassortative. Natal dispersal distance was greater in females but was not associated with coloration. Breeding success was both morph-dependent and context-dependent. Although clutch size was similar in differently colored pairs, differences arose in the number of chicks that fledge. In some years, dark males raised more offspring, regardless of female color morph. Differences in the breeding tactics between male morphs could be associated with intraspecific predation and may thus contribute to the observed differences in breeding output, especially when food availability is low. This suggests that mating patterns may interact with other factors and give rise to the observed higher breeding output of dark males only under certain environmental conditions.
Highlights
A major challenge in conservation and evolutionary biology is that of unraveling the mechanisms and evolutionary processes involved in the maintenance of discrete genetic polymorphisms in spatially or temporally variable environments (Levene 1953; Gillespie 1973)
Color polymorphism has been shown to be related to a large array of individual qualities, life history, and behavioral traits (Roulin et al 2001; Ducrest et al 2008; Calsbeek et al 2010; Galeotti et al 2013), which raises the possibility that individuals assess this condition-independent trait
Mate choice was unrelated to the sex of the recruit or the color morph of the biological and foster parents
Summary
A major challenge in conservation and evolutionary biology is that of unraveling the mechanisms and evolutionary processes involved in the maintenance of discrete genetic polymorphisms in spatially or temporally variable environments (Levene 1953; Gillespie 1973). Intraspecific heritable color variation is a conspicuous widespread case of genetic polymorphism that is likely maintained by balancing selection (either via over-dominance or negative frequency-dependent selection) or correlational selection (i.e., selection for combinations of traits) (Svensson 2017). In this regard, mating patterns can play a decisive role and may be affected by the color of morphs due to these selective processes (see review in Wellenreuther et al 2014). Under phenotype-dependent mate choice, patterns of either positive or negative assortative mating with regard to coloration are expected to occur
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