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Development of the neotropical catfish Rhamdia quelen (Siluriformes, Heptapteridae) incubated in different temperature regimes

Published online by Cambridge University Press:  27 October 2009

Alana Marielle Rodrigues-Galdino ,
Camila Valente Maiolino ,
Mariana Forgati ,
Lucélia Donatti ,
Jorge Daniel Mikos ,
Paulo César Falanghe Carneiro  and
Flavia Sant'Anna Rios
Alana Marielle Rodrigues-Galdino
Affiliation:
Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil.
Camila Valente Maiolino
Affiliation:
Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil.
Mariana Forgati
Affiliation:
Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil.
Lucélia Donatti
Affiliation:
Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil.
Jorge Daniel Mikos
Affiliation:
Pontifícia Universidade Católica do Paraná, Setor de Piscicultura (LAPEP), R. Benjamim Claudino Barbosa n° 3184, CEP 83005–970 – São José dos Pinhais, PR, Brazil.
Paulo César Falanghe Carneiro
Affiliation:
Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA)–Tabuleiros Costeiros, PO Box 44, CEP 49025–040, Aracaju, SE, Brazil.
Flavia Sant'Anna Rios*
Affiliation:
Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil. Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil.
*
All correspondence to: Flavia S. Rios. Universidade Federal do Paraná, Departamento de Biologia Celular, PO Box 19031, CEP 81531–990, Curitiba–PR, Brazil. e-mail: [email protected]
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Summary

The developmental stages for the embryonic and larval periods of the silver catfish (Rhamdia quelen) kept at different temperatures (21, 24, 27 and 30°C) are described. Fish were analysed under light and scanning electron microscopy. For embryonic development, we described 25 stages, which were grouped into seven periods named zygote, cleavage, blastula, gastrula, segmentation, pharyngula and hatching periods. For larval development, we defined three stages (early, mid, and late larvae). Additionally, the main ontogenetic events during the post-larvae and early juvenile periods were also described. This species presents a well developped lateral line and chemosensory systems that grow up during the larval period, maturing in the post-larvae. All tested temperatures are viable to R. quelen development, but a shorter incubation period was necessary to complete the development at lower temperatures. However, some malformations (heart edema) were verified at 30°C.

Keywords

Developmental biologyEmbryologyFishJundiáOrganogenesis
Type
Research Article
Information
Zygote , Volume 18 , Issue 2 , May 2010 , pp. 131 - 144
Copyright
Copyright © Cambridge University Press 2009

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References

Alves, M.S.D. & Moura, A. (1992). Estádios de desenvolvimento embrionário de curimatã-pioa Prochilodus affinis (Reinhardt, 1874) (Pisces, Prochilodontidae). In: Anais do Encontro Anual de Aqüicultura, Minas Gerais, Belo Horizonte. vol. 10, pp. 61–71.Google Scholar
Anjos, D.B. & Anjos, C.R. (2006). Biologia reprodutiva e desenvolvimento embrionário e larval do Cardinal tetra, Paracheirodon axelrodi Schultz, 1956 (Characiformes, Characidae), em laboratório. B. Inst. Pesca. 32, 151–60.Google Scholar
Appelbaum, S. & Riehl, R. (1997). Scanning electron microscopic observations of the chemo- and mechanoreceptors of carp larvae (Cyprinus carpio) and their relationship to early behaviour. Aquat. Living Res. 10, 112.CrossRefGoogle Scholar
Arenzon, A., Lemos, C.A. & Bohrer, M.B.C. (2002). The influence of temperature on the embryonic development of the annual fish Cynopoecilus melanotaenia (Cyprinodontiformes, Rivulidae). Braz. J. Biol. 62, 743–7.CrossRefGoogle ScholarPubMed
Azevedo, P. & Gomes, A.L. (1942). Contribuição ao estudo da biologia da Traíra Hoplias malabarica (Bloch, 1794). Bol. Ind. Anim. 5, 1564.Google Scholar
Barcellos, I.J.G., Wassermann, G.F., Scott, A.P., Woehl, V.M, Luthier, F., Quevedo, R.M., Ittzés, I. & Krieger, M.H. (2002). Plasma steroids concentrations in relation reproductive cycle cultured male Rhamdia quelen. J. Fish Biol. 61, 751–63.CrossRefGoogle Scholar
Britski, H.A., Silimon, K.Z. & Lopes, B.S. (1999). Peixes do Pantanal: Manual de Identificação. Brasilia (Brazil): Embrapa.Google Scholar
Carneiro, P.C.F., Mikos, J.D. & Bendhack, F. (2003). Processamento: O jundiá como matéria prima. Panorama da Aqüicultura. 13, 1721.Google Scholar
Cavicchioli, M. & Leonhardt, J.H. (1993). Estudo do desenvolvimento morfológico de larvas de Curimbatá, Prochilodus scrofa (Steindachner, 1882), obtidas de reprodução induzida. Rev. Unimar. 15, 109–24.Google Scholar
Chippari-Gomes, A.R., Gomes, L.C. & Baldisserotto, B. (1999). Lethal temperatures for silver catfish Rhamdia quelen, fingerlings. J. Appl. Aquacult. 9, 1121.CrossRefGoogle Scholar
Cook, M.A., Kate, M.G., Michael, B.R. & Plesha, P.D. (2005). Effects of salinity and temperature during incubation on hatching and development of lingcod Ophiodon elongatus Girard, embryos. Aquacult. Res. 36, 1298–303.CrossRefGoogle Scholar
Finn, R.N. (2007). The physiology and toxicology of salmonid eggs and larvae in relation to water quality criteria. Aquat. Toxicol. 81, 337–54.CrossRefGoogle ScholarPubMed
Fujimura, K. & Okada, N. (2007). Development of the embryo, larva and early juvenile of Nile tilapia Oreochromis niloticus (Pisces: Cichlidae). Developmental staging system. Develop Growth Differ. 49, 301–24.CrossRefGoogle ScholarPubMed
Gabillard, J.C., Weil, C., Rescan, P.Y., Navarro, I., Gutierrez, J., & Le Bail, P.Y. (2005). Does the GH/IGF system mediate the effect of water temperature on fish growth? A review. Cybium 29, 107–17.Google Scholar
Garside, E.T. (1966). Developmental rate and vertebral number in salmonids. J. Fish. Res. 23, 1537–51.CrossRefGoogle Scholar
Godinho, H.M., Fenerich, N.A. & Narahara, M.Y. (1978). Desenvolvimento embrionário e larval de Rhamdia hilarii (Valenciennes, 1840) (Siluriformes, Pimelodidae). Rev. Brasil. Biol. 38, 151–6.Google Scholar
Gomes, L.C., Golombieski, J.I., Chippari-Gomes, A.R. & Baldisserotto, B. (2000). Biologia do jundiá Rhamdia quelen (Pisces, Pimelodidae): uma revisão. Ciência Rural 30, 179–85.CrossRefGoogle Scholar
González-Doncel, M., Okihiro, M.S., Villalobos, S.A., Hinton, D.E & Tarazona, J.V. (2005). A quick reference guide to the normal development of Oryzias latipes (Teleostei, Adrianichthyidae). J. Appl. Ichthyol. 21, 3952.CrossRefGoogle Scholar
Govoni, J.J., Boehlert, G.W. & Watanabe, Y. (1986). The physiology of digestion in fish larvae. Environ. Biol. Fishes 16, 5977; apud Maciel, C.M.R.R. Ontogenia de Larvas de Piracanjuba, Brycon orbignyanus Valenciennes (1849) (Characiformes, Characidae, Bryconinae). (2006). Masters Degree, Universidade Federal de Viçosa, Viçosa.CrossRefGoogle Scholar
Guedes, D.S. (1980). Contribuição ao estudo da sistemática e alimentação de jundiás (Rhamdia spp) na região central do Rio Grande do Sul (Pisces, Pimelodidae). Santa Maria – RS. Masters Degree, Universidade Federal de Santa Maria, Santa Maria.Google Scholar
Kamler, E. (1992). Early Life History of Fish: An Energetics Approach. London: Chapman & Hall.CrossRefGoogle Scholar
Kimmel, C.B., Ballard, W.W., Kimmel, S.R., Ullmann, B. & Schilling, T.F. (1995). Stages of embryonic development of the zebrafish. Dev.Dynamics 203, 253310.CrossRefGoogle ScholarPubMed
Lasker, R., Feder, H.M., Theilacker, G.H. & May, R.C. (1970). Feeding, growth, and survival of Engraulis mordax larvae reared in the laboratory. Marine Biology 5, 345–53.CrossRefGoogle Scholar
Luz, R.K. & Zaniboni-Filho, E. (2002). Larvicultura do Mandi-amarelo Pimelodus maculatus Lacépède, 1803 (Siluriformes: Pimelodidae) em diferentes densidades de estocagem nos primeiros dias de vida. Rev. Bras. Zootec. [online]. 31, 560–5.CrossRefGoogle Scholar
Luz, R.K., Reynalte-Tataje, D.A., Ferreira, A.A. & Zaniboni-Filho, E. (2001). Desenvolvimento embrionário e estágios larvais do Mandi-Amarelo Pimelodus maculatus. Bol. Inst. Pesca. 27, 4955.Google Scholar
Martell, D.J., Kieffer, J.D. & Trippel, E.A. (2005). Effects of temperature during early life history on embryonic and larval development and growth in haddock. J. Fish Biol. 66, 1558–75.CrossRefGoogle Scholar
Neumann, E. (2008). Desenvolvimento inicial de jatuarana, Brycon amazonicus (Teleostei, Characidae). Masters Degree, Centro de Aqüicultura da Universidade Estadual Paulista-Centro de Aqüicultura, Jaboticabal.Google Scholar
Ninhaus-Silveira, A., Foresti, F. & Azevedo, A. (2006). Structural and ultrastructural analysis of embryonic development of Prochilodus lineatus (Valenciennes, 1836) (Characiforme; Prochilodontidae). Zygote 14, 217–29.CrossRefGoogle ScholarPubMed
Ojanguren, A.F., Reyes-Gavilan, F.G. & Muñoz, R.R. (1999). Effects of temperature on growth and efficiency of yolk utilisation in eggs and pre-feeding larval stages of Atlantic salmon. Aquacult. Internat. 7, 81–7.CrossRefGoogle Scholar
Pereira, C.R., Barcellos, L.J.G., Kreutz, L.C., Quevedo, R.M., Ritter, F. & Silva, L.B. (2006). Embryonic and larval development of jundiá (Rhamdia quelen, Quoy & Gaimard, 1824, Pisces, Teleostei), a South American catfish. Braz J. Biol. 66, 1057–63.CrossRefGoogle Scholar
Ribeiro, C.R., Leme dos Santos, H.S. & Bolzan, A.A. (1995). Estudo comparativo da embriogênese de peixes ósseos (Pacu, Piaractus mesopotamicus; Tambaqui Calossoma macropomum e hibrído Tambacu). Rev. Bras. Biol. 55, 6578.Google Scholar
Romagosa, E., Narahara, M.Y. & Fenerich-Verani, N. (2001). Stages of embryonic development of the “matrinxã,” Brycon cephalus (Pisces, Characidae). Bol. Inst. Pesca. 27, 2732.Google Scholar
Sanches, P.V., Nakatani, K. & Bialetzki, A. (1999) Morphological description of developmental stages of Parauchenipterus galeatus (Linnaeus, 1766) (Siluriformes, Auchenipteridae) on the floodplain of the Upper Paraná River. Rev. Bras. Biol. 59, 429–38.CrossRefGoogle Scholar
Sanches, P.V., Baumgartner, G. & Bialetzki, A. (2001). Caracterização do desenvolvimento inicial de Leporinus friderici (Osteichthyes, Anostomidae) da bacia do Rio Paraná, Brasil. Acta Scientiarum 23, 383–9.Google Scholar
Saka, Ş., Firat, K. & Çoban, D. (2004). Development of the common dentex (Dentex dentex) eggs in relation to temperature.Aquaculture Research 35, 224–31.CrossRefGoogle Scholar
Sato, Y., Sampaio, E.V., Fenerich-Verani, N. & Verani, J.R. (2006). Biologia reprodutiva e reprodução induzida de duas espécies de Characidae (Osteichthyes, Characiformes) da bacia do São Francisco, Minas Gerais, Brasil. Rev. Bras. Zoo. 23, 267–73.CrossRefGoogle Scholar
Schulz, & Leuchtenberger, . (2006). Activity patterns of South American silver catfish (Rhamdia quelen). Braz. J. Biol. 66, 565–74.CrossRefGoogle ScholarPubMed
Theilackerg, H. (1978). Effect of starvation on the histological and morphological characteristics of jack mackerel Uchurus symmetricus, larvae. Fish. Bull. US. 76, 403–14.Google Scholar
Van Snik, G.M.J., Van Den Boogaart, J.G.M. & Osse, J.W.M. (1997). Larval growth patterns in Cyprinus carpio and Clarias gariepinus with attention to the finfold. J. Fish Biol. 50, 1339–52.Google Scholar
Vernier, J.M. (1969). Table chronologique du développement embryonnaire de la truite arcenciel, Salmo gairdneri. Ann. Embryol. Morphol. 2, 495520.Google Scholar