Studies of chemical signals in vertebrates typically target single species; however, a broader understanding of olfactory communication may derive from comparative studies. We collected urine from 12 species representing most families of strepsirrhine primates – an excellent model clade because of variation in scent marking and socioecology. Using SPDE/GC–MS, we identified the volatile chemical composition of male and female urine from six ‘urine marking’ species and six glandular or ‘non‐urine marking’ species. We found no sex differences, but as predicted, urine markers expressed the most chemically complex and distinctive urine. More distantly related species had more dissimilar urinary profiles, suggesting gradual signal evolution. Reconstructing ancestral chemical profiles revealed different evolutionary trajectories for urine and non‐urine markers. We suggest that urine marking is an ancestral behaviour related to solitary, nocturnal living and that parallel evolutionary shifts towards greater reliance on derived glandular marking occurred in a family (Lemuridae) characterized by diurnality and sociality.
Mature male African (Loxodonta africana) and Asian (Elephas maximus) elephants exhibit periodic episodes of musth, a state in which serum androgens are elevated, food intake typically decreases, aggressiveness often increases, and breeding success is enhanced. Urine is a common source of chemical signals in a variety of mammals. Elephants in musth dribble urine almost continuously for lengthy periods, suggesting that the chemicals in their urine may reveal their physiological condition to conspecifics. We investigated the volatile urinary chemicals in captive male elephants using automated solid phase dynamic extraction (SPDE) and gas chromatography-mass spectrometry (GC-MS). We found higher levels of alkan-2-ones, alkan-2-ols, and some aromatic compounds in urine from males in musth than in urine from non-musth males or from females. Levels of ketones and alcohols increased as the urine aged, likely due to microbial metabolism of fatty acids. Protein-derived aromatic metabolites also increased in abundance after urination, likely due to microbial hydrolysis of hydrophilic conjugates. We suggest that microbes may play an important role in timed release of urinary semiochemicals during elephant musth.
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