McMillan, D. E., & Li, M. (2000).
Drug discrimination under two concurrent fixed-interval fixed-interval schedules.
Journal of the Experimental Analysis of Behavior,
74, 55-77.
Pigeons were trained to discriminate 5.0 mg/kg pentobarbital from
saline under a two-key concurrent fixed-interval (FI) 100-s FI
200-s schedule of food presentation, and later under a concurrent
FI 40-s FI 80-s schedule, in which the FI component with the
shorter time requirement reinforced responding on one key after
drug administration (pentobarbital-biased key) and on the other
key after saline administration (saline-biased key). After
responding stabilized under the concurrent FI 100-s FI 200-s
schedule, pigeons earned an average of 66% (after pentobarbital)
to 68% (after saline) of their reinforcers for responding under
the FI 100-s component of the concurrent schedule. These birds
made an average of 70% of their responses on both the
pentobarbital-biased key after the training dose of pentobarbital
and the saline-biased key after saline. After responding
stabilized under the concurrent FI 40-s FI 80-s schedule, pigeons
earned an average of 67% of their reinforcers for responding
under the FI 40 component after both saline and the training dose
of pentobarbital. These birds made an average of 75% of their
responses on the pentobarbital-biased key after the training dose
of pentobarbital, but only 55% of their responses on the
saline-biased key after saline. In test sessions preceded by
doses of pentobarbital, chlordiazepoxide, ethanol, phencyclidine,
or methamphetamine, the dose–response curves were similar
under these two concurrent schedules. Pentobarbital,
chlordiazepoxide, and ethanol produced dose-dependent increases
in responding on the pentobarbital-biased key as the doses
increased. For some birds, at the highest doses of these drugs,
the dose–response curve turned over. Increasing doses of
phencyclidine produced increased responding on the
pentobarbital-biased key in some, but not all, birds. After
methamphetamine, responding was largely confined to the
saline-biased key. These data show that pigeons can perform drug
discriminations under concurrent schedules in which the
reinforcement frequency under the schedule components differs
only by a factor of two, and that when other drugs are
substituted for the training drugs they produce
dose–response curves similar to the curves produced by these
drugs under other concurrent interval schedules.
Key words: drug discrimination, concurrent fixed-interval
schedules, pentobarbital, chlordiazepoxide, ethanol,
phencyclidine, methamphetamine, key peck, pigeons