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Vascularization underlies differences in sexually selected skin coloration in a wild primate.

Patricia M DeLaceySharmi SenIndia A Schneider-CreaseKenneth L ChiouAlemayehu LemmaFerehiwot AyeleAbebaw Azanaw HaileAmy LuThore J BergmanJacinta C BeehnerNoah James Snyder-Mackler
Published in: Molecular ecology (2023)
Male reproductive competition can select for condition-dependent, conspicuous traits that signal some aspect of fighting ability and facilitate assessment of potential rivals. However, the underlying mechanisms that link the signal to a male's current condition are difficult to investigate in wild populations, often requiring invasive experimental manipulation. Here, we use digital photographs and chest skin samples to investigate the mechanisms of a visual signal used in male competition in a wild primate, the red chest patch in geladas (Theropithecus gelada). We analysed photographs collected during natural (n = 144) and anaesthetized conditions (n = 38) to understand variability in male and female chest redness, and we used chest skin biopsies (n = 38) to explore sex differences in gene expression. Male and female geladas showed similar average redness, but males exhibited a wider within-individual range in redness under natural conditions. These sex differences were also reflected at the molecular level, with 10.5% of genes exhibiting significant sex differences in expression. Subadult males exhibited intermediate gene expression patterns between adult males and females, pointing to mechanisms underlying the development of the red chest patch. We found that genes more highly expressed in males were associated with blood vessel development and maintenance but not with androgen or oestrogen activity. Together, our results suggest male gelada redness variability is driven by increased blood vessel branching in the chest skin, providing a potential link between male chest redness and current condition as increased blood circulation to exposed skin could lead to heat loss in the cold, high-altitude environment of geladas.
Keyphrases
  • gene expression
  • soft tissue
  • wound healing
  • genome wide
  • dna methylation
  • genetic diversity
  • human health
  • single molecule
  • risk assessment
  • binding protein