Relationship of circadian activity and social behaviors to reentrainment rates in diurnal Octodon degus (Rodentia).

Previous experiments with female Octodon degus showed that entrained males (donors) inhibited and entrained females accelerated female phase-shifters' teentrainment rates of temperature and activity rhythms following 6-h advances. In this experiment, entrained males were housed with other entrained males or with phase-shifting females (experiencing a phase advance of the light-dark (LD) cycle) and entrained females were housed with other entrained females or with phase-shifting females. Pairs separated by a barrier were videotaped for 66 h to identify the behavioral interactions that underlie the opposite effects of donor social cues on reentrainment rates in females. As reported previously, female phase-shifters housed with entrained females reentrained faster than those "housed with entrained males following 6-h advances. Despite accelerated reentrainment, the timing or total durations of general activity, sleep, cage investigation, barrier investigation, and scent marking did not differ between female phase-shifters housed with male or female donors, although all phase-shifters increased investigatory behaviors compared to entrained animals. In contrast, male and female donors housed with female phase-shifters increased the frequency of scent marking and the duration of cage and barrier investigation compared with those housed with entrained same-sex conspecifics. Changes in scent marking and sniffing investigation suggest olfactory cues, not alterations in sleep or other daily rhythms, supply the critical social influence necessary to alter reentrainment rates in females. Daily and/or specific phase increases in motor activity did not correlate with accelerated reentrainment. We suggest that the salience of social cues perceived by female phase-shifters, female phase-shifters' sensitivity to cues and/or the strength of emitted donor cues may contribute to differential responses of the circadian system in females housed with male vs. female donors.