Abstract

Florida manatees (Trichechus manatus latirostris) and rock hyraxes (Procavia capensis) exhibit expanded tactile arrays of vibrissae that are distributed not only on the face but also on the entire postfacial body. In contrast, the vibrissae of most mammals are principally restricted to the face. These facial vibrissae may be associated with central nervous system representations known as barrels in the cerebral cortex, barreloids in the thalamus, and barrelettes in the trigeminal nuclei of the brainstem. To date, vibrissae representations found within the brainstem have been principally limited to facial vibrissae representations in the trigeminal nuclei. We hypothesized that the tactile specializations of the manatee and rock hyrax would produce a unique modification of typical mammalian central nervous system organization, with postfacial vibrissae representations appearing in the cuneate and gracile nuclei as "body barrelettes." Using histological and histochemical methods, including cresyl violet, myelin, and cytochrome oxidase processing, we first delineated the rostral, middle, and caudal zones of the cuneate and gracile nuclei. Within the middle zone, divisions were present, including extensive parcellation in the cluster region, particularly in manatees. These clusters were particularly densely distributed and distinguishable in the presumptive postfacial body representations in the cuneate and gracile nuclei but otherwise shared many attributes with the barrelettes found in the trigeminal nuclei of other species. This study represents the first characterization of postfacial body vibrissae representations, or "body barrelettes," in the brainstem of any species. Previous studies have predominantly focused on facial vibrissae representations, which have served for decades as a model for sensory organization and plasticity. Our results extend what is known about vibrissae representations in the central nervous system to include expansions related to peripheral specializations of the postfacial body. Unusual somatosensory adaptations in the manatee and rock hyrax are highly informative regarding how mammalian brain organization responds to evolutionary pressures on sensory systems.

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