We are thrilled to have another raccoon paper out in the world! PhD candidate Hannah Griebling just published this amazing paper testing inhibitory control—check it out!
Abstract
Inhibitory control is an executive function that allows humans and non-human animals to suppress a prepotent response and continue in goal-directed behavior when outcomes are delayed. In non-human animals, inhibitory control has been proposed to be an important component of behavioral flexibility, where animals must inhibit previously used behaviors to establish new ones. The cylinder task has become a widely used, detour-reaching task to test motor response inhibition in many non-human animal species. Here we directly test motor inhibition in raccoons for the first time using a modified version of the cylinder task. Raccoons have demonstrated behavioral flexibility traits such as repeated innovation and reversal learning but have not been tested for motor response inhibition specifically. Five wild-caught, captive raccoons participated in the familiarization and detour procedures of the cylinder task, and we found an overall 60% pass rate in their cylinder task performance. We used k-means clustering to compare raccoons to other species tested in the cylinder task and found that raccoons cluster in the moderate performance group. Raccoons’ expression of persistence may lead to their moderate cylinder task performance while benefiting them in tasks related to behavioral flexibility, such as problem solving.