Absence of differential associative responses to novel and familiar taste stimuli in rats lacking gustatory neocortex.

Rats lacking gustatory neocortex (n = 24) and normal rats (n = 24) were familiarized to either hydrochloric acid (10(-1.6) M) or quinine hydrochloride (10(-4) M) solutions during free-drinking trials. They were trained subsequently to avoid either the familiar or the novel taste stimulus, using a balanced design, by pairing the to-be-associated taste with ip injections of apomorphine hydrochloride. Balanced, nonpaired presentations of the other taste solution and water were presented also. Normal rats more efficiently learned to avoid the novel compared with the familiar taste. Rats with gustatory neocortex lesions did not differentiate novel from familiar tastes. They learned aversions to both in a manner highly similar to the aversion learning of familiar tastes by the normal group. Therefore, rats lacking gustatory neocortex displayed an associative deficiency, relative to normal, only when they were trained on novel stimuli. This observation supports an earlier suggestion that gustatory neocortex lesions disrupt the conditionability of taste stimuli by reducing or eliminating responses to taste novelty. This suggestion is supported further by the absence of a "neophobic" response in the operated rats to the first presentation of a taste stimulus.