Abstract
Mouse lemurs are small, nocturnal, arboreal solitary foragers and are endemic primates of Madagascar. This lifestyle and their high predation risk can explain why mouse lemurs rely heavily on olfaction for intraspecific communication. As they often use urine for this purpose, we investigated dichloromethane extracts of the urine of two mouse lemur species, the gray mouse lemur (Microcebus murinus) and the Godman’s mouse lemur (M. lehilahytsara), using gas-chromatography-mass spectrometry. We detected 977 different volatile compounds of different compound classes in 22 urine extracts obtained from nine M. murinus (four males, five females) and nine M. lehilahytsara (three males, six females) individuals. We compared the volatile profiles of the sexes and species using principal component analyses and discriminant function analyses and detected a significant difference in the urinary profiles of males and females and in the profiles of M. murinus and M. lehilahytsara. These very complex sex- and species-specific signatures could be used for distance communication in the context of species recognition, for mate search and in male-male competition. Our study provides important mechanistic insights into complex chemical signaling pathways in primates that are mirrored, in the case of mouse lemurs, by their extraordinarily rich repertoire of olfactory receptors. The production of highly informative olfactory signals may be complementing the complex acoustic signaling system of these solitary foragers suggesting the existence of a multimodal communication network that should be highly beneficial for any species living in dispersed social networks.
Highlights
Olfactory cues play an important role in the intraspecific communication of many mammals (Müller-Schwarze, 2006; Apps et al, 2015)
Pilot experiments showed that the highest number of compounds was observed by solvent extraction of urine with dichloromethane compared to solid phase microextraction (SPME) analysis
The urine samples were extracted by the former procedure and analyzed by gas chromatography coupled with mass spectrometry (GC/MS)
Summary
Olfactory cues play an important role in the intraspecific communication of many mammals (Müller-Schwarze, 2006; Apps et al, 2015) They constitute important chemical signals, often incorporated in urine, feces, or other scent marks. Such chemical cues can contain information about species identity, sex, group identity, kinship, individual identity, and about their current social status, reproductive state, and health, among others (Brennan and Kendrick, 2006; Apps et al, 2015). Male brachial secretions primarily contained squalene and appreciable amounts of cholesterol and derivatives, as well as lanosterol They described seasonal differences in the composition of the secretions, supporting the observation that scent marking serves to advertise reproductive and physiological state and modulates intrasexual competition. Labial and to some degree scrotal secretions showed stable individual profiles
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