Fast wave activity in the rat rhinencephalon: elicitation by the odors of phytochemicals, organic solvents, and a rodent predator.

Recent research has shown that bursts of approximately 20 Hz fast waves are elicited in rhinencephalic cortex in rats by the odors of a number of different organic solvents and of components of the secretions of predators such as the weasel and the fox. We now show that a number of phytochemicals (benzyl alcohol, carvacrol, eucalyptol, and salicylaldehyde) will elicit fast wave bursts of about 20 Hz in the rat pyriform cortex. Additional organic solvents (carbon tetrachloride, chloroform, diethyl ether, 1, 2-dimethoxyethane, n-heptane, mesitylene, methylcyclohexane, and commercial gasoline and kerosene, but not N,N-dimethylformamide or dimethyl sulfoxide) and another component of fox secretions (isopentenylmethyl sulfide) were also effective. Many of these compounds will also elicit fast wave bursts of about 20 Hz in the dentate gyrus. The effectiveness of benzyl alcohol, camphor, carvacrol, eucalyptol, isopentenylmethyl sulfide, 2-propylthietane, salicylaldehyde, toluene, and trimethylthiazoline (all of which elicit rhinencephalic fast waves in rats) in suppressing feeding in various small herbivores suggests that the recording of odor-induced rhinencephalic fast waves may provide an easy means of identifying new antifeedants. We found no evidence that the bursts of 20-Hz activity seen in the rat rhinencephalon were kindling-induced seizure-like reactions of the olfactory brain to the vapors of toxic chemicals.

Fractionating the nonspatial pretraining effect in the water maze task.

Nonspatial pretraining (NSP) enables rats to learn the general strategies of the water maze task (WMT; e.g., learning to swim away from the wall and to climb onto the hidden platform), reduces sensorimotor disturbances, and eliminates acquisition impairments caused by scopolamine hydrobromide, a muscarinic antagonist. To evaluate the contributions of the components of NSP to these effects, NSP was fractionated so that different groups of male rats swam, were placed onto the hidden platform, climbed onto the hidden platform, or were placed into an empty maze before spatial training under scopolamine. No single component of the NSP procedure was sufficient to produce its full effects on sensorimotor disturbances and WMT acquisition. Experience with most or perhaps all of the specific behaviors required in the WMT appears to be important for NSP to produce its full effects.