Neuroanatomy of the Accessory Olfactory Bulb in the Fossorial Water Vole
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The accessory olfactory bulb (AOB) plays a key role in processing chemical signals crucial for species-specific social and reproductive behaviors. While extensive research has focused on the vomeronasal system of laboratory rodents, less is known about wild species, particularly those that rely heavily on chemical communication. This study aims to characterize the morphological and neurochemical organization of the AOB in the fossorial water vole ( Arvicola scherman ), a subterranean rodent species from the family Cricetidae. We have employed histological techniques, including Nissl and hematoxylin staining, as well as immunohistochemical and lectin-histochemical markers, to assess the AOB structure. Our findings reveal that the AOB of the water vole exhibits a distinct laminar organization with prominent mitral cells in the mitral-plexiform layer, as well as dense labeling of periglomerular and short-axon cells in the glomerular layer. Lectin histochemistry further confirmed zonation patterns analogous to those seen in other rodent species. Immunohistochemical analysis demonstrated significant expression of PGP 9.5, suggesting its involvement in maintaining neuronal activity within the AOB. In contrast, the absence of SMI-32 labeling in the AOB, compared to its strong expression in the main olfactory bulb, highlights functional distinctions between these two olfactory subsystems. These structural and neurochemical characteristics suggest that the AOB of the fossorial water vole is adapted for enhanced processing of chemosensory signals, which may play a pivotal role in its subterranean lifestyle. Our results provide a foundation for future studies exploring the functional implications of these adaptations, including potential improvements in the integrated management of these vole populations.