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Testicular structure and spermatogenesis of Amazonian freshwater cururu stingray Potamotrygon cf. histrix

Published online by Cambridge University Press:  23 August 2010

Sérgio Fonseca Zaiden ,
Richard Phillip Brinn ,
Jaydione Luiz Marcon  and
Elisabeth Criscuolo Urbinati
Sérgio Fonseca Zaiden*
Affiliation:
Department of Biology, University of Rio Verde – FESURV, Campus Universitário, s/n. Rio Verde, Goiás, CEP: 75901-970. Brazil.
Richard Phillip Brinn
Affiliation:
Department of Biology, Florida International University, FloridaUSA.
Jaydione Luiz Marcon
Affiliation:
Department of Physiological Sciences, Federal University of Amazonas (UFAM), Manaus, Amazonas, Brazil.
Elisabeth Criscuolo Urbinati
Affiliation:
Department of Animal Morphology and Physiology, Faculty of Agriculture and Veterinarian Sciences/Aquaculture Center, São Paulo State University (UNESP), Via de Acesso Prof. Paulo Donato Castelane, s/n. Jaboticabal, São Paulo, Brazil.
*
All correspondence to: Sérgio Fonseca Zaiden. Department of Biology, University of Rio Verde – FESURV, Campus Universitário, s/n. Rio Verde, Goiás, CEP: 75901-970. Brazil. Tel: +55 64 3621-2200. Fax: +55 64 3621-2210. e-mail: sfzaiden@hotmail.com
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Summary

The cururu stingray Potamotrygon cf. histrix, a new and endemic Amazonian freshwater species, presents appropriate characteristics for fish keeping and is exploited from its natural environment. The present study identified the testicular structure and spermatogenesis of this species. Gonads from adult male specimens were dissected, fixed and processed for histological analysis. The testes were of testicular/epigonial type. The presence of germinal papillae was observed in the upper portion of organ with primordial germ cells and Sertoli cell precursors. The testis was lobular with zonal organization and cystic gametogenesis, with the occurrence of spermatoblasts. The Sertoli cells underwent morphological modifications over the course of gamete formation. The spermatozoids had long heads and were spiraled on their own axis. Information on the reproductive biology will serve as basis for studies on the reproduction and phylogeny of this peculiar group of cartilaginous fish.

Keywords

Epigonial testesGerminal papillaIntratesticular ductSertoli cellSpermatoblast
Type
Research Article
Information
Zygote , Volume 19 , Issue 3 , August 2011 , pp. 245 - 253
Copyright
Copyright © Cambridge University Press 2010

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References

Araújo, M.L.G., Charvet-Almeida, P. & Almeida, M.P. (2004). Conservation status of freshwater stingrays (Chondrichthyes: Potamotrygonidae) in the Brazilian Amazon. In Biology and Conservation of Elasmobranchs: Symposium Proceedings. VI International Congress on the Biology of Fish, American Fisheries Society (Physiology Section), Manaus, Hotel Tropical, pp. 4959.Google Scholar
Babel, J.S. (1967). Reproduction, life history and ecology of the round stingray, Urolophus halleri Cooper. Calif. Fish Game Bull. 137, 1104.Google Scholar
Barone, M., De Ranieri, S., Fabiani, O., Pirone, A. & Serena, F. (2007). Gametogenesis and maturity stages scale of Raja asterias Delaroche, 1809 (Chondrichthyes, Rajidae) from the South Ligurian Sea. Hydrobiologia 580, 245–54.CrossRefGoogle Scholar
Camhi, M., Fowler, S., Musick, J., Brauntingam, A. & Fordham, S. (1998). Sharks and their relatives–ecology and conservation. IUCN/SSC Shark Specialist Group. IUCN. Switzerland and Cambridge, UK: Gland. 43 pp.Google Scholar
Carvalho, M.R., Lovejoy, N.R. & Rosa, R.S. (2003). Potamotrygonidae (river stingrays). In Checklist of the Freshwater Fishes of South and Central America. (eds. Reis, R.E. & Kullander Ferraris, S.O. Jr), pp. 22–8. C.J. Porto Alegre: EDIPUCRS, Brasil.Google Scholar
Charvet-Almeida, P. & Almeida, M.P. Contribuição ao conhecimento, distribuição e aos desafios para a conservação dos elasmobrânquios (raias e tubarões) no Sistema Solimões-Amazonas. (2007). In Conservação da várzea: identificação e caracterização de regiões biogeográficas (Albernaz, A.L.K.M., Org.). pp. 199235. ProVárzea Ibama, [Technical report in Portuguese].Google Scholar
Charvet-Almeida, P., Araújo, M.L.G., Rosa, R.S. & Rincon, G. (2002). Neotropical freshwater stingrays: diversity and conservation status. IUCN Shark News, 14, 4751.Google Scholar
Charvet-Almeida, P., Araújo, M.L.G. & Almeida, M.P. (2005). Reproductive aspects of freshwater stingrays (Chondrichthyes: Potamotrygonidae) in the Brazilian Amazon basin. J. Northw. Atl. Fish. Sci. 35, 165–71.CrossRefGoogle Scholar
Chatchavalvanich, K., Thogpan, A. & Nakai, M. (2004). Structure of the testis and genital duct of freshwater stingray, Himantura signifier (Elasmobranchii: Myliobatiformes: Dasyatidae). Ichthyol. Res. 52, 123–31.CrossRefGoogle Scholar
Chatchavalvanich, K., Thogpan, A. & Nakai, M. (2005). Ultrastructure of spermiogenesis in a freshwater stingray, Himantura signifier. Ichthyol. Res. 52, 379–85.CrossRefGoogle Scholar
Conrath, C.L. & Musick, J.A. (2002). Reproductive biology of the smooth dogfish, Mustelus canis, in the northwest Atlantic Ocean. Environ. Biol. Fishes 64, 367–77.CrossRefGoogle Scholar
Compagno, L.J.V. & Cook, S.F. (1995). The exploitation and conservation of freshwater elasmobranchs: status of taxa and prospects for the future. J. Aquaricult. Aquatic Sci. 7, 6290.Google Scholar
Gelsleichter, J., Rasmussen, L.E.L., Marine, C.A., Tyminki, J., Chang, B. & Lombardi-Carlson, L. (2002). Serum steroid concentrations and development of reproductive organs during puberty in male bonnethead sharks, Sphyrna tiburo. Fish Physiol. Biochem. 26, 389401.CrossRefGoogle Scholar
Girard, M., Rivalan, P. & Sinquin, G. (2000). Testis and sperm morphology in two deep-water squaloid sharks, Centroscymnus coelolepis and Centrophorus squamosus. J. Fish Biol. 57, 1575–89.Google Scholar
Henningsen, A.D. (2000). Notes on reproduction in the southern stingray, Dasyatis americana (Chondrichthyes: Dasyatidae), in a captive environment. Copeia 3, 826–8.CrossRefGoogle Scholar
Hoenig, J.M. & Gruber, S.H. (1990). Life-history patterns in the elasmobranchs: implications for fisheries management. In: Elasmobranchs as living resources: advances in the biology, ecology, systematics, and the status of fisheries, vol. 90 (eds Pratt, H.L. Jr., Gruber, S.H. & Taniuchi, T.), pp. 116. U.S. Department of Commerce, NOAA Technical Report NMFS. IBAMA (2008). IN 204/2008. Accessible at http://www.ibama.gov.br/recursos-pesqueiros/wp-content/files/in_ibama_204_2008_raiasdoce_retificada.pdf. Captured on 12 February 2010.Google Scholar
Liguoro, A., Prisco, M., Mennella, C., Ricchiari, L., Angelini, F. & Andreuccetti, P. (2004). Distribution of terminal sugar residues in the testis of the spotted ray Torpedo marmorata. Mol. Reprod. Dev. 68, 524–30.CrossRefGoogle ScholarPubMed
Lovejoy, N.R. (1996). Systematics of myliobatoid elasmobranchs: with emphasis on the phylogeny and historical biogeography of neotropical freshwater stingrays (Potamotrygonidae: Rajiformes). Zool. J. Linm. Soc. 117, 207–57.CrossRefGoogle Scholar
Lutton, B.V. & Callard, I.P. (2006). Evolution of reproductive-immune interactions. Integr. Comp. Biol. 46, 1060–9.CrossRefGoogle ScholarPubMed
Lutton, B.V. & Callard, I.P. (2008). Influence of reproductive activity, sex steroids and seasonality on epigonial organ cellular proliferation in the skate (Leucoraja erinacea). Gen. Comp. Endocrinol. 155, 116–25.CrossRefGoogle Scholar
Martin, R.A. (2005). Conservation of freshwater and euryhaline elasmobranchs: a review. J. Mar. Biol. Ass. U.K. 85, 1049–73.CrossRefGoogle Scholar
Maruska, K.P., Cowie, E.G. & Tricas, T.C. (1996). Periodic gonadal activity and protacted mating in elasmobranch fishes. J. Exp. Zool. 276, 219–32.3.0.CO;2-Q>CrossRefGoogle Scholar
McClusky, L.M.A. (2005). Stage and season effects on cell cycle and apoptotic activities of germ cells and Sertoli cells during spermatogenesis in the spiny dogfish (Squalus acanthias). Reproduction 129, 89102.CrossRefGoogle ScholarPubMed
McClusky, L.M.A. (2006). Stage-dependency of apoptosis and the blood-testis barrier in the dogfish shark (Squalus acanthias): cadmium-induced changes as assessed by vital fluorescence techniques. Cell Tissue Res. 325, 541–53.CrossRefGoogle ScholarPubMed
Moreau, M-A. & Coomes, O.T. (2007). Aquarium fish exploitation in Western Amazonia: conservation issues in Peru. Environ. Cons. 34, 1222.CrossRefGoogle Scholar
Mull, C.G., Lowe, C.G. & Young, K.A. (2008). Photoperiod and water temperature regulation of seasonal reproduction in male round stingray (Urobatis halleri). Comp. Biochem. Physiol., Part A. 151, 717–25.CrossRefGoogle Scholar
Oddone, M.C. & Vooren, C.M. (2005). Reproductive biology of Atlantoraja cyclophora (Regan 1903) (Elasmobranchii: Rajidae) of southern Brazil. ICES J. Mar. Sci. 62, 10951103.CrossRefGoogle Scholar
Oldfield, R.G. (2005a). Biology, husband and reproduction of freshwater stingrays I. Tropical Fish Hobbyist 53 (12), 114–6.Google Scholar
Oldfield, R.G. (2005b). Biology, husband and reproduction of freshwater stingrays II. Tropical Fish Hobbyist 54 (1), 110–2.Google Scholar
Piercy, A., Gelsleichter, J. & Snelson, F.F. Jr. (2003). Morphological and histological changes in the genital ducts of the male atlantic stingray, Dasyatis sabina during the seasonal reproductive cycle. Fish Physiol. Biochem. 29, 2335.CrossRefGoogle Scholar
Piferrer, F.C. & Callard, G.V. (1995). Inhibition of deoxyribonucleic acid synthesis during premeiotic stages os spermatogenesis by a factor from testis-associated lymphomyeloid tissue in the dogfish shark (Squalus acanthias). Biol. Reprod. 53, 390–8.CrossRefGoogle Scholar
Pratt, H.L. Jr (1988). Elasmobranch gonad structure: a description and survey. Copeia 3, 719–29.CrossRefGoogle Scholar
Prisco, M., Liguoro, A., D'Onghia, B., Ricchari, L., Andreuccetti, P. & Angelini, F. (2002). Fine structure of Leydig and Sertoli cells in the testis of immature and mature spotted ray Torpedo marmorata. Mol. Reprod. Dev. 63, 192201.Google Scholar
Prisco, M., Liguoro, A., Comitato, R., Cardone, A., D'Onghia, B., Ricchiari, L., Angelini, F. & Andreuccetti, P. (2003). Apoptosis during spermatogenesis in the spotted ray Torpedo marmorata. Mol. Rep. Dev. 64, 341–8.CrossRefGoogle ScholarPubMed
Rosa, R.S. 1985. A systematic revision of the south american freshwater stingrays (Chondrichthyes: Potamotrygonidae). Doctorate Thesis, Williamsburg, College of William and Mary, 523 pp.Google Scholar
Sulikowski, J.A., Tsang, P.C.W. & Howell, W.H. (2005). Age and size at sexual maturity for the winter skate, Leucoraja ocellata, in the Western Gulf of Maine based on morphological, histological and steroid hormone analyses. Environ. Biol. Fish. 72, 429–41.CrossRefGoogle Scholar
Teshima, K. & Takeshita, K. (1992). Reproduction of the freshwater stingray, Potamotrygon magdalenae taken from the Magdalena River system in Colombia, South America. Bull. Seikai Nat. Fish. Res. Inst. 70, 1127.Google Scholar
Tricas, T.C., Maruska, K.P. & Rasmussen, L.E.L. (2000). Annual cycles of steroid hormone production, gonad development and reproductive behavior in the Atlantic stingray. Gen. Comp. Endocrinol. 118, 209–25.CrossRefGoogle ScholarPubMed
Wourms, J.P. (1977). Reproduction and development in Chondrichthyan fishes. Am. Zool. 17, 379410.CrossRefGoogle Scholar