Abstract

AbstractTo clarify whether the unique postural control of the upside‐down swimming catfish (Synodontis nigriventris, family Mochokidae) is related to the histological characteristics of the otolith organs, we performed light microscopic observation of the utricle, the saccule and the lagena. The histological aspects of the otolith organs were compared between S. nigriventris and Synodontis multipunctatus, which belong to the same genus. S. multipunctatus usually shows upside‐up swimming posture except for feeding behaviour near water surface. As controls, we additionally used a miniature catfish, Corydoras paleatus and goldfish, Carassius auratus, which shows upside‐up swimming posture. We concluded that the structural aspects of the otolith organs did not cause the unique postural control of S. nigriventris. Light microscopic observation clarified the following aspects: (1) The utricle of S. nigriventris was located at the anterior region of the otocyst and under the semicircular canals, and the saccule and the lagena were located at the posteroventral region of the otocyst like those of S. multipunctatus and the other two fishes. (2) The hair cells of the utricle were arranged on the horizontal plane of the fishes with a variation in cell size at the ventral and ventrolateral sites in S. nigriventris, S. multipunctatus and the other two fishes. (3) The hair cells of the saccule and lagena of S. nigriventris, S. multipunctatus and C. auratus presented perpendicular to the horizontal plane of the fish. (4) Region‐specific differences in the size and shape of the hair cells of S. nigriventris were observed along the three‐dimensional axes of the otolith organs like those of S. multipunctatus and the other two fishes. It is unlikely that the unique postural control of upside‐down catfish is related to the localization of the utricle, the saccule and the lagena and the distribution of the different types of hair cell of the otolith organs. Furthermore, the distribution of the hair cells suggests that the otolith organs in S. nigriventris can detect three‐dimensional postural changes like the organs of other fishes showing generally observed upside‐up swimming posture.

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