Morphological features of the nasal cavities of hawksbill, olive ridley, and black sea turtles: Comparative studies with green, loggerhead and leatherback sea turtles.

We analyzed the internal structure of the nasal cavities of hawksbill, olive ridley and black sea turtles from computed tomography images. The nasal cavities of all three species consisted of a vestibule, nasopharyngeal duct and cavum nasi proprium that included anterodorsal, posterodorsal and anteroventral diverticula, and a small posteroventral salience formed by a fossa of the wall. These findings were similar to those of green and loggerhead sea turtles (Cheloniidae), but differed from those of leatherback sea turtles (Dermochelyidae). Compared to the Cheloniidae species, the nasal cavity in leatherback sea turtles was relatively shorter, wider and larger in volume. Those structural features of the nasal cavity of leatherback sea turtles might help to suppress heat dissipation and reduce water pressure within the nasal cavity in cold and deep waters.

Main airway throughout the nasal cavity of green sea turtles is lined by keratinized stratified squamous epithelium.

Structural and histological features of the nasal cavity of sea turtles are largely different from those of other Testudines species. The sea turtle nasal cavity is a pair of tubular structures with three diverticula and an excavation in the center, and three types of sensory epithelium are present in these four significant structures. To more clarify the adaptation of the nasal cavity to marine life style in sea turtles, non-sensory epithelium in the nasal cavity of green sea turtles (Chelonia mydas) were histologically determined from nostril to choanae in this study. Unlike many other animals including terrestrial turtles, the vestibular area and nasopharyngeal duct were all lined by keratinized stratified squamous epithelium. In the main nasal cavity, the margins of each sensory epithelium turned into respiratory epithelium with goblet cells, followed by keratinized stratified squamous epithelium. Keratinized epithelium appears more appropriate in sea turtle upper airway to protect against osmotic pressure when they release seawater through the nostrils, and thus this histological feature of upper airway might reflect adaptation to marine life style.