In opioid-dependent subjects, the low-efficacy mu agonist nalbuphine generally precipitates withdrawal or withdrawal-like stimuluseffects. To provide a more complete characterization of the discriminative stimulus effects of nalbuphine in opioid-treated subjects, seven White Carneux pigeons were treated daily with 10 mg/kg morphine i.m. and trained 6 h later to discriminate among 10 mg/kgmorphine, 1.0 mg/kg nalbuphine, and saline by responding on one of three different keys. When tested, morphine producedmorphine-key responding and nalbuphine produced nalbuphine-key responding. Replacing the daily morphine injection with salineproduced nalbuphine-key responding, and this effect was reversed by the administration of morphine. In substitution tests with other compounds, the antagonists naltrexone (i.m.) and CTAP (D-Phe-Cys-Tyr-D-Tryp-Lys-Thr-Pen-Thr-NH2) (i.c.v.) producednalbuphine-key responding. High-efficacy agonists fentanyl and etorphine produced morphine-key responding. The intermediate-efficacy agonists buprenorphine, dezocine, and butorphanol produced a pattern of morphine-, saline-, and/or nalbuphine-key responding that differed across individual pigeons. The lower efficacy agonists nalorphine and levallorphan produced predominantlynalbuphine-key responding. The kappa agonists spiradoline and U50,488 [trans-3,4-dichloro-N-methyl-N-(2-[1-pyrrolidinyl]cyclohexyl)benzeneacetamide methanesulfonate], the nonopioid d-amphetamine, and saline produced predominantlysaline-key responding. Naltrexone and nalbuphine dose dependently reversed the morphine-key responding produced by the training dose of morphine. Together, these data suggest that the discriminative-stimulus effects of the low-efficacy micro agonistnalbuphine in morphine-treated pigeons are similar to those of other low-efficacy agonists, naltrexone, and the termination of dailymorphine treatment.