Abstract
The study of mating choices often focuses on correlates of traits to the overall outcome of a mating interaction. However, mating interactions can proceed through a series of stages, with opportunities for assessment at each stage. We compared whether male or female size predicted mating interaction outcome across several stages of mating in five species of North American leiobunine harvestmen (commonly known as daddy longlegs). Leiobunine harvestmen have been previously shown to exhibit incredible morphological diversity consistent with a spectrum of male–female antagonism. Across all of the species, we found a general progression of female size predicting the outcome (success and timing) of early stages of interactions, and male size or male size relative to female size predicting the outcome and timing of later stages of interactions. We also found that size was not a strong predictor of outcome in the two species on the lower end of the antagonism spectrum. The variation in how female and male size predicted outcomes across species and stages of mating suggests that multiple mechanisms may operate to shape mating dynamics within and across species. Given the close relatedness of the species studied, the patterns we uncovered suggest a rapid evolution of the traits and processes predicting the outcome of mating interactions.
Highlights
The extravagance and rapid evolution of sexual traits have captured the interest of biologists dating back to Darwin [1]
We found a range of sexual size dimorphisms across species, with L. calcar exhibiting the lowest dimorphism, and L. ventricosum exhibiting the largest dimorphism (Table 2)
The five species we studied have been previously classified to vary along an antagonism spectrum, with L. aldrichi and L. politum on the lower end, and L. ventricosum, L. calcar, and L. vittatum on the higher end [23,24]
Summary
The extravagance and rapid evolution of sexual traits have captured the interest of biologists dating back to Darwin [1]. One factor contributing to this extreme diversity is the range of sources of selection that can shape reproductive traits, including precopulatory choice [9], conflict over mating [10,11], pericopulatory choice, postcopulatory choice [2,12], and sperm competition [13,14]. These various sources of selection can differ across species, but they can operate simultaneously within a single species [15]. Across different stages of mating, the selection of behavioral and Biology 2018, 7, 36; doi:10.3390/biology7020036 www.mdpi.com/journal/biology
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