Despite the prominent role of the Syrian hamster (Mesocricetus auratus) in studies of circadian rhythms, there are no data available on the temporal dynamics of the neuropeptide vasopressin (AVP), a major output system of the suprachiasmatic nucleus (SCN). We studied the hamster SCN-AVP system in vivo across the light period and in vitro using long-term organotypic SCN cultures. Additionally, we compared wild-type and tau mutant hamsters with an endogenous circadian period of approximately 24 h and approximately 20 h, respectively. The in vivo study revealed no differences in the number of SCN-AVP neurons between the two genotypes of hamsters studied at three time points across the light period of the circadian cycle. A significantly higher level of AVP-immunoreactivity, however, was found in the SCN of wild-type compared to tau mutant hamsters at the beginning and in the middle of the light period, but not at the end of the light period. SCN-AVP cell number and immunostaining decreased significantly across the light period in wild-type hamsters, but not in tau mutants. The in vitro study revealed a significantly higher rate of AVP release per 24 h from the tau mutant SCN compared to the wild-type SCN. Robust circadian oscillations in AVP release were not found in either type of hamster. These results may suggest that the SCN-AVP system of hamsters, irrespective of genotype, is relatively weak compared to other species. Moreover, the tau mutation seems to influence the SCN-AVP system by enhancing the rate of AVP release and by reducing AVP content and its daily fluctuation.