Maintaining wild animals in captivity has long been used for conservation and research. While often suggested that captivity causes chronic stress, impacts on the underlying stress physiology are poorly understood. We used wild-caught chukar (Alectoris chukar) as a model avian species to assess how the initial 10 days of captivity alters the corticosterone (CORT) secretory pathway. In the first few days of captivity, birds lost weight, had lower hematocrit and demonstrated changes in CORT concentrations. Both baseline and restraint-stress-induced CORT concentrations decreased by days 3-5 of captivity and remained significantly lower throughout the 10 days although stress-induced concentrations began to recover by day 9. To delineate potential mechanisms underlying these CORT changes, we evaluated alterations to the hypothalamic-pituitary-adrenal (HPA) axis. Although chukar appear to be resistant to arginine vasotocin's (AVT) effects on CORT release, adrenocorticotropin hormone (ACTH) stimulated CORT release; however, ACTH stimulation did not differ during the 10 days of captivity. In contrast, negative feedback axis sensitivity, as determined by both dexamethasone suppression as well as endogenous negative feedback, decreased by day 5 but was regained by day 9. In addition, the combined stressors of capture and long distance transport eliminated the animals' ability to mount an acute CORT response on the day following the move. Therefore, introduction into captivity appeared to shift the chukar into a temporary state of chronic stress that began to recover within 9days. The duration of these alterations likely varies due to differences in capture techniques, transport distance, and species studied.