Data from: Postcopulatory sexual selection influences baculum evolution in primates and carnivores
Data files
Nov 07, 2016 version files 1.24 MB
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Carnivora Data (10k Trees).xlsx
70.60 KB
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Carnivora Data (Mammal Supertree).xlsx
57.17 KB
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Chiroptera Data (Mammal Supertree).xlsx
87.84 KB
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Primate Data (10k Trees).xlsx
60.69 KB
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Primate Data (Mammal Supertree).xlsx
59.39 KB
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README_for_Carnivora Data (10k Trees).docx
117.89 KB
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README_for_Carnivora Data (Mammal Supertree).docx
137.76 KB
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README_for_Chiroptera Data (Mammal Supertree).docx
137.76 KB
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README_for_Primate Data (10k Trees).docx
111.07 KB
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README_for_Primate Data (Mammal Supertree).docx
137.76 KB
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README_for_Rodentia Data (Mammal Supertree).docx
137.76 KB
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Rodentia Data (Mammal Supertree).xlsx
120.97 KB
Abstract
The extreme morphological variability of the baculum across mammals is thought to be the result of sexual selection (particularly, high levels of postcopulatory selection). However, the evolutionary trajectory of the mammalian baculum is little studied and evidence for the adaptive function of the baculum has so far been elusive. Here, we use Markov chain Monte Carlo methods implemented in a Bayesian phylogenetic framework to reconstruct baculum evolution across the mammalian class and investigate the rate of baculum length evolution within the primate order. We then test the effects of testes mass (postcopulatory sexual selection), polygamy, seasonal breeding and intromission duration on the baculum in primates and carnivores. The ancestral mammal did not have a baculum, but both ancestral primates and carnivores did. No relationship was found between testes mass and baculum length in either primates or carnivores. Intromission duration correlated with baculum presence over the course of primate evolution, and prolonged intromission predicts significantly longer bacula in extant primates and carnivores. Both polygamous and seasonal breeding systems predict significantly longer bacula in primates. These results suggest the baculum plays an important role in facilitating reproductive strategies in populations with high levels of postcopulatory sexual selection.