Male giant pandas identify female sexual receptivity through the detection of olfactory cues in estrous urine. However, it is yet unknown which specific days of the female estrous cycle may provoke male sexual-social responses and a physiological readiness to mate. We hypothesized that female urine from specific days of the estrous cycle will be positively associated with specific changes in male behaviors, urinary semiochemical production, and steroidogenic activity. Experimental simultaneous choice trials were conducted in captivity with four male giant pandas during the spring breeding season and during fall. Male interest was determined by a behavioral preference toward peri-estrual urine collected from a specific day of the estrous cycle encompassing proestrus (Day -13, Day -6, Day -3, Day -2), estrus (Day -1 and Day 0), and metestrus (Day four and Day nine) over that of anestrous urine. Provocation of male sexual motivation was examined by changes in urinary semiochemical composition and urinary androgen concentrations. During the spring, male investigative behaviors indicated a preference for Day -13, Day -3 and Day 0 urine over anestrous urine, while no significant preferences for estrous urine could be detected during fall. The relative abundance of only three compounds in male urine were significantly higher above baseline values after males were exposed to peri-estrual urine during spring; whereas 34 compounds significantly increased in the fall. Similarly, androgen concentrations increased above baseline in only two out of four males during spring, while all males had elevated androgen concentrations after exposure to Day -3 urine during the fall. Our results suggest that peri-estrual urine from Day -13, Day -3, and Day 0 elicited the greatest duration of male investigation, changes in the semiochemical profile, and elevations in androgen levels. These data suggest that managers should incorporate a combination of behavioral, semiochemical, and endocrinological assessment of males in the reproductive management of giant pandas to determine impending ovulation and pinpoint the best time for male-female introductions and artificial inseminations.
Keywords: Animal behavior; Chemical communication; Estrus; Reproductive physiology; Urine; Ursid.
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