Cellular organisation and functions of the olfactory epithelium of pearl spot Etroplus suratensis (Bloch): a light and scanning electron microscopic study

• Autorzy: Ghosh S.K. , Chakrabarti P.
• Języki publikacji: EN

Abstrakty

EN

The cellular organisation of the olfactory rosettes of Etroplus suratensis was studied by light and scanning electron microscopy. The oval shaped olfactory rosette of the fish consists of 12 lamellae radiating from a central raphe. The olfactory lamellae are comprised of restricted areas of sensory epithelium and broad areas of non-sensory epithelium in the apical, middle, and basal regions. The sensory epithelium contains three types of receptor cells: microvillus, ciliated, and rod cells, as well as labyrinth cells and supporting cells. The non-sensory epithelium consists of stratified epithelial and mucous cells. The transitional region between the sensory and non-sensory epithelium consists of ciliated receptor cells, mucous cells, and stratified epithelial cells. The different cells on the olfactory epithelium were discussed regarding the functional significance of the fish concerned. (Folia Morphol 2010; 69, 3: 154–159)

Słowa kluczowe

EN

cellular organization; cellular function; olfactory epithelium; green chromide; Etroplus suratensis; light electron microscopy; scanning electron microscopy

• Wydawca: -
• Czasopismo: Folia Morphologica
• Rocznik: 2010
• Tom: 69
• Numer: 3
• Opis fizyczny: p.154-159,fig.,ref

Twórcy

autor

Ghosh S.K.

• Fisheries Laboratory, Department of Zoology, Burdwan University, West Bengal, India

autor

Chakrabarti P.

• Fisheries Laboratory, Department of Zoology, Burdwan University, Golapbag, Burdwan 713 104, West Bengal, India

Bibliografia

• 1. Arvedlund M, Takemura A (2005) Scanning electron microscopy of the peripheral olfactory organ in small and large juvenile Apogon cyanosoma (Apogonidae: Teleostei). J Mar Biol Assoc UK, 85: 1231–1234.
• 2. Bhute YV, Baile VV (2007) Organization of the olfactory system of the Indian Major Carp Labeo rohita (Hamilton): a scanning and transmission electron microscopic study. J Evol Biochem Physiol, 43: 342–349.
• 3. Cancalon P (1983) Receptor cells of the catfish olfactory mucosa. Chem Senses, 8: 203–209.
• 4. Chakrabarti P, Ghosh SK (2010) Histological and scanning electron microscopical study of the olfactory epithelium of the Indian major carp, Catla catla (Hamilton). Folia Morphol, 69: 24–29.
• 5. Doroshenko MA, Motavkin PA (1986) Olfactory epithelium of marine fishes in scanning electron microscopy. Acta Morphol Hung, 34: 143–155.
• 6. Hansen A, Zeiske E (1998) The peripheral olfactory organ of the zebrafish, Danio rerio: an ultra-structural study. Chem Senses, 23: 39–48.
• 7. Hansen A, Rolen SH, Anderson K, Morita Y, Caprio J, Finger TE (2003) Correlation between olfactory receptor cell type and function in the channel catfish. J Neurosci, 23: 9328–9339.
• 8. Hara TJ (1975) Olfaction in fish. Prog Neurobiol, 5: 271–335.
• 9. Hara TJ (1992) Mechanism of olfaction. In: Hara TJ ed. Fish chemoreception. Chapman and Hall, London, pp. 150–170.
• 10. Hara TJ, Zielinski B (1989) Structural and functional development of the olfactory organ in teleosts. Trans Am Micro Soc, 118: 183–194.
• 11. Hernadi L (1993) Fine structural characterization of the olfactory epithelium and its response to divalent cations Cd²⁺ in the fish Alburnus alburnus (Teleostei, Cyprinidae): a scanning and transmission electron microscopic study. Neurobiol, 1: 11–31.
• 12. Ichikawa M, Ueda K (1977) Fine structure of the olfactory epithelium in the gold fish, Carassius auratus. Cell Tiss Res, 183: 445–455.
• 13. Kleerekoper H (1967) Some aspects of olfaction in fishes, with special reference to orientation. Am Zool, 7: 385–395.
• 14. Moran DT, Rowley JCIII, Aiken GR, Jafek BW (1992) Ultrastructural neurobiology of the olfactory mucosa of the brown trout, Salmo trutta. Micros Res Tech, 23: 28–48.
• 15. Muller JF, Marc RE (1984) Three distinct morphological classes of receptor in fish olfactory organs. J Comp Neurol, 222: 482–495.
• 16. Rahamani AR, Khan SM (1980) Histology of the olfactory epithelium and the accessory nasal sacs of an anabantoid fish, Anabas testudineus (Bloch). Arch Biol, 91: 397–411.
• 17. Shirai N, Utida S (1970) Development and degeneration of the chloride cell during seawater and freshwater adaptation of the Japanese eel Anguilla japonica. Zeitschrift für Zellforsch, 103: 247–264.
• 18. Singh N, Bhatt KC, Bahuguna MK, Kumar D (1995) Fine structure of olfactory epithelium in Schizothoraichthys progatus McClelland and Schizothorax richadsonii Gray (Cyprinidae: Teleostei) from Garhwal Himalaya (India). J Biosci, 20: 385–396.
• 19. Teichmann H (1954) Vergleichende Untersuchungen an der Nase der Fishe. Z Morphol Oekol Tiere, 43: 171–212.
• 20. Yamamoto M (1982) Comparative morphology of the peripheral olfactory organ in teleosts. In: Hara TJ ed. Chemoreception in fishes. Elsevier, Amsterdam, pp. 39–59.
• 21. Yamamoto M, Ueda K (1977) Comparative morphology of fish olfactory epithelium-I Salmoniformes. Bull Japan Soc Sci Fish, 43: 1163–1174.
• 22. Yamamoto M, Ueda K (1978) Comparative morphology of fish olfactory epithelium-III Cypriniformes. Bull Japan Soc Sci Fish, 44: 1201–1206.
• 23. Zeiske E (1973) Morphologische untersuchungen am Geruchsorgan von Zahnkarpfen (Pisces, Cyprinodontoidea). Zeitschrift fur Morphologie der Tiere, 74: 1–16.
• 24. Zeiske E (1974) Morphologische und morphometrische untersuchungen am Geruchsorgan oviparer Zahnkarpfen (Pisces). Zeitschrift fur Morphologie der Tiere, 77: 19–50.
• 25. Zeiske E, Kux J, Melinkat R (1976) Development of the olfactory organ of oviparous and viviparous cyprinodonts (Teleostei). Z Zool Syst Evol, 14: 34–40.
• 26. Zeiske E, Kasumyan A, Bartsch P, Hansen A (2003) Early development of the olfactory organ in sturgeons of the genus Acipenser: A comparative and electron microscopic study. Anat Embryol, 206: 357–372.
• 27. Zeni C, Stagni A (2002) Changes in the olfactory mucosa of the black bullhead Ictalurus melas induced by exposure to sublethal concentrations of sodium dodecylbenzene sulphonate. Dis Aquat Organ, 51: 37–47.
• 28. Zielinski B, Hara TJ (1988) Morphological and physiological development of olfactory receptor cells in rainbow trout (Salmo gairdneri) embryos. J Comp Neurol, 271: 300–311.
• 29. Zielinski B, Hara TJ (1992) Ciliated and microvillar receptor cells degenerate and then differentiate in olfactory epithelium of rainbow trout following olfactory nerve section. Micros Res Tech, 23: 22–27.