The characterization of patterns of multiple mating is a major facet of molecular ecology and is paramount to understanding the evolution of behaviours associated with parental care and mate choice. Over the last 15 years, fishes have been particularly well studied with respect to multiple maternity and paternity thanks to the widespread application of microsatellite markers. The present review focusses on the impressive literature on genetic parentage in fishes. In studies of natural populations, we find that multiple paternity is extremely common across fish species, whereas rates of multiple maternity are much more variable. In species with nest defence, for example, rates of multiple maternity are strongly bimodal, and the occurrence of multiple dams per brood is either rare or the rule. The sex of the care‐giving parent is correlated with the rate of multiple parentage: when males provide uniparental care, rates of multiple paternity are low compared to rates of multiple maternity; when females provide parental care, either alone or assisted by males, rates of multiple paternity are highly variable, whereas rates of multiple maternity are quite low. These patterns may reflect conflicts between the reproductive interests of males and females. We also find that fishes in which females brood the offspring internally display much higher rates of multiple paternity compared to mammals or birds, whereas reptiles are intermediate. Male‐nesting fish species, however, show rates of multiple paternity more similar to those found in other vertebrates. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 103, 735–760.
Complexity in male sexual displays is widely appreciated but diversity in female mate choice has received little attention. Males of many species have sexual displays composed of multiple display traits, and females are thought to use these different traits in mate choice. Models of multiple display trait evolution suggest that these traits provide females with different kinds of information in different stages of the mate choice process, or function as redundant signals to improve the accuracy of mate assessment. We suggest that complex male displays might also arise because of variation in female preferences for particular male display traits. The causes of female preference variation have received little attention, and the role of preference variation in shaping complex male displays is unclear. Here we show that in satin bowerbirds (Ptilonorhynchus violaceus) female mate choice is a multistage process, where females of different ages use different male display traits in successive stages. Age- and stage-specific female preferences may contribute to explaining the widespread occurrence of multifaceted male displays.
Local adaptation is often invoked to explain hybrid zone structure, but empirical evidence of this is generally rare. Hybrid zones between two poeciliid fishes, Xiphophorus birchmanni and X. malinche, occur in multiple tributaries with independent replication of upstream‐to‐downstream gradients in morphology and allele frequencies. Ecological niche modelling revealed that temperature is a central predictive factor in the spatial distribution of pure parental species and their hybrids and explains spatial and temporal variation in the frequency of neutral genetic markers in hybrid populations. Among populations of parentals and hybrids, both thermal tolerance and heat‐shock protein expression vary strongly, indicating that spatial and temporal structure is likely driven by adaptation to local thermal environments. Therefore, hybrid zone structure is strongly influenced by interspecific differences in physiological mechanisms for coping with the thermal environment.
Males in many bird species mimic the vocalizations of other species during sexual displays, but the evolutionary and functional significance of interspecific vocal mimicry is unclear. Here we use spectrographic cross-correlation to compare mimetic calls produced by male satin bowerbirds (Ptilonorhynchus violaceus) in courtship with calls from several model species. We show that the accuracy of vocal mimicry and the number of model species mimicked are both independently related to male mating success. Multivariate analyses revealed that these mimetic traits were better predictors of male mating success than other male display traits previously shown to be important for male mating success. We suggest that preference-driven mimetic accuracy may be a widespread occurrence, and that mimetic accuracy may provide females with important information about male quality. Our findings support an alternative hypothesis to help explain a common element of male sexual displays.
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