Valores morfométricos en larvas de Yamú Brycon amazonicus (Pisces: Characidae) obtenidas con semen fresco y crioconservado

Tatiana M. Mira-López; Víctor M. Medina-Robles; Yohana M. Velasco-Santamaría; Pablo E. Cruz-Casallas

doi:10.17533/udea.acbi.329340

Authors

Tatiana M. Mira-López University of the Llanos
Víctor M. Medina-Robles University of the Llanos
Yohana M. Velasco-Santamaría University of the Llanos
Pablo E. Cruz-Casallas University of the Llanos

DOI:

https://doi.org/10.17533/udea.acbi.329340

Keywords:

Brycon amazonicus, cryopreservation, corporal growth, morphometry, yamú

Abstract

In order to evaluate the differences in the corporal growth, development and survival of yamú (Brycon amazonicus), larvae obtained from eggs fertilized with fresh (FS) and cryopreserved (CS) sperm were used. Males and females of yamú were hormonally stimulated with carp pituitary extract. The sperm obtained was evaluated and diluted in an egg yolk, glucose and dimethylsulfoxide solution and frozen in nitrogen vapours. Eggs from the same female were seminated in dry with fresh and cyopreserved sperm and the larvae obtained were evaluated from the hatching (0 hours) until 60 hours post-hatching (HPH). In each larva, the total length(TL), notocordal length (NL), yolk sac volume (YSV) and larvae survival from 35 to 60 HPH were determined. Significant differences in the TL were observed only at 42 and 54 HPH being the larvae from the CS the longest (6.5 ± 0.04 and 6.8 ± 0.04 mm, respectively). In terms of NL, the higher lengths were observed at 0, 3 and 54 HPH; larvae from FS was longer at 0 HPH (3.3 ± 0.02 mm) and larvae from CS were longer at 3 and 54 HPH (4.1 ± 0.05and 6.6 ± 0.04 mm, respectively). The highest YSV was observed at 9 HPH in larvae from FS (0.6 ± 0.01 mm³). No significant differences were observed in the survival between treatments. In conclusion, in the experimental condition above described, the corporal growth, development and survival of yamú larvae obtained from FS and CS did not change significantly in terms of LT, NL, and YSV until 60 HPH.

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Author Biography

Tatiana M. Mira-López, University of the Llanos

Research Group on Reproduction and Toxicology of Aquatic Organisms (GRITOX). Instituto de Acuicultura de los Llanos, Universidad de los Llanos. Villavicencio, Colombi

References

Aitken J, Fisher H. 1994. Reactive oxygen speciesgeneration and human spermatozoa: the balance ofbenefit and risk. BioEssays, 16:259-267.

Alvarez E, Storey BT. 1992. Evidence for increased lipidperoxidative damage and loss of superoxidedismutase activity as a mode of sublethalcryodamage to human sperm duringcryopreservation. Journal of Andrology, 13:232-241.

Arias-Castellanos JA. 1995. Contribución al conocimien-to biológico de los peces de los llanos yamú (Bryconsiebenthalae) y sapuara (Semaprochiloduslaticep), con fines de cultivo. Informe final Universi-dad de los Llanos-COLCIENCIAS. Colombia

Arias-Castellanos JA. 2001. Avances en la nutrición yalimentación del yamú. Pp. 4-8. En: Eslava MPR (ed.).Memorias VII jornada de acuicultura tercera re-unión regional del género Brycon. Universidad delos Llanos (IALL). Villavicencio, Colombia.

Arias-Castellanos JA; Balaguera D; Rodriguez CM. 2003.Desarrollo larvario del yamú Brycon siebenthalae.Revista Orinoquia, 7(1-2):28-33.

Atencio-García VJ. 1999. Alguns aspectos da fisiologiado yamú (Brycon siebenthalae, Eigenman 1912).Revisión teórica acerca de la especie yamú.Universidade Federal de Santa Catarina.Florianópolis, Brasil.

Atencio-García VJ. 2000. Influência da primera alimentaçãona alevinagem do yamú Brycon siebenthalae(Eigenmann, 1912). Disertación (M.Sc Acuicultura).Departamento de Aquicultura, Centro de CiênciasAgrárias, Universidade Federal de Santa Catarina.Floriniapolis, Brasil.

Atencio-García VJ, Zaniboni FE, Pardo CSC, Arias CJA,Vásquez TW. 2002. Influencia de la primera alimenta-ción en el alevinaje del yamú Brycon siebenthalae.Pp. 65-76. En: Eslava MPR (ed.). Memorias VIII jor-nada de acuicultura. Universidad de los Llanos(IALL). Villavicencio, Colombia.

Ceccarelli P. 1997. Canibalismo em larvas de matrinxãBryconcephalus (Günther, 1869). Disertación demaestría. Instituto de Biociências de Botucatu.Universidade Estadual Paulista. Botucatu, Brasil.

Cruz-Casallas PE, Pardo CSC, Arias CJA, Lombo RDA.2004. Cryopreservation of yamú Brycon siebenthalaeMilt. Journal of the World Aquaculture Society,35(4):529-535.

Cruz-Casallas PE, Velasco-Santamaría YM. 2004.Crioconservación de semen de yamú (Bryconsiebenthalae): calidad seminal, dosis inseminante ysistemas de empaque. Pp. 27-34. En: Eslava MPR(ed.). Memorias II Congreso Colombiano deAcuicultura. Universidad de los Llanos (IALL).Villavicencio, Colombia.

Galindo BD. 2002. Descripción del desarrollo larval delyamú (Bryconsiebenthalae). Tesis de pregrado. Fa-cultad de Zootecnia. Universidad de la Salle. Bogo-tá, Colombia.

Gilbert SF. 1949. Developmental biology.SinauerAssociates, Inc. U. S. A.

Gisbert E, Williot P. 1997. Larval behavior and effect ofthe timing of initial feeding on growth and survivalof Siberian sturgeon (Acipenserbaen) larvae undersmall scale hatchery production. Aquaculture,156:63-76.

González E, Fresneda A. 1999. Criopreservación de semende cachama blanca (Piaractus brachipomus) y bagrerayado (Pseudoplatystoma fasciatum). Revista Co-lombiana de Ciencias Pecuarias, 12(suplemen-to):197-199.

Iglesias J, Rodríguez-Ojea G, Peleteiro JB. 1995. Effectof light and temperature on the development of turboteggs (Scophthalmus maximus L.). ICES MarineScience Symposia, 201:40-44.

Jenkis KK, Woods LC. 2002. The cryopreservation ofstriped bass Moronesaxatilis semen. Journal of theWorld Aquaculture Society, 33(1):70-77.

Kubota Y, Shimada A, Shima A. 1995. DNA alterationdetected in the progeny of paternally irradiatedJapanese medaka fish (Oryzias latipes). ProceedingsNational Academy of Science (U. S. A.), 92:330-334.

Labbe C, Martoriati A, Devaux A, Maisse G. 2001. Effect ofsperm cryopreservation on sperm DNA stability andprogeny development in rainbow trout. MolecularReproduction and Development, 60:397-404.

Lima F. 2003. Subfamily Briconinae (Characins, tetras). Pp.742. En: Reis RE, Kullander SO, Ferraris CJ (eds.).Check list of the freshwater fishes of South and Cen-tral American. Porto Alegre: Edipucrs. Brasil.

Lopes R, Senhorini JA, Suarez. 1995. Desenvolvimientoembrionario e larval do matrinxã (Brycon cephalus).Boletín técnico CEPTA. Pirasununga Brasil.

Lopes S, Jurisicova A, Sun JG, Casper RF. 1998. Reactiveoxygen species: potential cause for DNAfragmentation in human spermatozoa. HumanReproduction, 13:896-900.

Marsteinsdottir G, Steinarsson A. 1998. Maternalinfluences on the size and viability of Iceland codGadus morhua eggs and larvae. Journal of FishBiology, 52:1241-1258.

Miskolczi E, Mihalffy S, Patakiné E, Urbányi B, HorváthA. 2005. Examination of larval malformations in Africancatfish Clarias gariepinus following fertilization withcryopreserved sperm. Aquaculture, 247:119-125.

Nascimento FL, Lima CARMA. 2000. Descrição de larvasdas principais espécies de peixes utilizadas pela pes-ca no Pantanal. Boletim de Pesquisa (EMBRAPAPantanal, Brasil), 25:1-25.

Ogier B, Le Vern Y, Kerboeuf D, Maisse G. 1997. Flowcytometric evaluation of mitochondrial activity andmembrane integrity in fresh and cryopreservedrainbow trout (Oncorhynchus mykiss) spermatozoa.Cryobiology, 34:141-149.

Ogier B, Labbé C, Maisse G. 1999. Membrane integrity,mitochondrial activity, ATP content, and motility ofthe European catfish (Silurus glanis) testicularspermatozoa after freezing with differentcryoprotectants. Cryobiology, 39:177-184.

Osse JWM, van den Boogaart JGM. 1995. Fish larvae,development, allometric growth, and the aquaticenvironment. ICES Marine Science Symposia,201:21-34.

Panagiotaki P, Geffen AJ. 1992. Parental effects on sizevariation in fish larvae. Journal of Fish Biology,41:37-42.

Pepin P, Myers RA. 1991. Significance of egg and larvalsize to recruitment variability of temperate marine fish.Canadian Journal of Fisheries and AquaticSciences, 48:1802-1828.

Pinto M, Castagnolli N. 1984. Desenvolvimiento inicial dupacu Colossoma mitrei (Berg, 1895). AnuariosSimpósio Brasileiro Aquicultura, 3:12.

Potthoff T. 1984. Clearing and staining techniques. Pp. 35-37. En: Moser HG, Richards WJ, Cohen DM, FahayMP, Kendall AW, Richardson SL (eds.). Ontogeny and sistematics of fishes. American Society ofIchthyologists and Herpetologists. Florida, U. S. A.

Probst WN, Kraus G, Rideout RM, Trippel EA. 2006.Parental effects on early life history traits of haddockMelanogrammus aeglefinus. ICES Journal ofMarine Science, 63:224-234.

Rana KJ. 1985. Influence of egg size on the growth, onsetof feeding, point-of-no-return and survival of unfedOreochromis mossambicusfry. Aquaculture,46:1802-1828.

Rideout RM, Triple EA, Litvak MK. 2004. Paternal effectson haddock early life history cleavage patterns.Journal of Fish Biology, 64:695-701.

Rodriguez H, Valentine MR, Holmquist GP, Akman SA,Termini J. 1999. Mapping of peroxyl radicalinduced damage on genomic DNA. Biochemistry,38:16578-16588.

Saillant E, Chatain B, Forstier A, Przybyla C, Fauvel C.2001. Parental influence on early development inthe European sea bass. Journal of Fish Biology,58:1585-1600.

Sanches PV, Nakatani K, Bialetzki A. 1999. Morphologicaldescription of the developmental stages ofParauchenipterus galeatus (Linnaeus, 1766)(Siluriformes, Auchenipteridae) on the floodplain ofthe upper Paraná river. Revista Brasileira deBiologia, 59(3):429-438.

Senhorini JA. 1995. Desenvolvimiento larval do pacuPiaractusmesopotamicus, Holmberg, 1987 (PiscesCharacidae), em viveiros. Disertación de maestria.Universidade Estadual Paulista Júlio de MesquitaFilho, UNESP, Brasil.

Thorpe JE, Morgan GIG. 1978. Parental influence on growthrate, smolting rate and survival in hatchery rearedjuvenile Atlantica salmon Salmo salar. Journal ofFish Biology, 13:549-556.

Torres QE. 2000. Apuntes sobre el cultivo del yamú en losLlanos Orientales. Pp. 9-10. En: Eslava MPR (ed.).Memorias VI jornada de acuicultura segunda re-unión regional del género Brycon. Universidad delos Llanos (IALL). Villavicencio, Colombia.

Trasler JM, Hales BF, Robaire B. 1985. Paternalcyclophosphamide treatment of rats causes fetal lossand malformations without affecting male fertility.Nature, 316:144-146.

Urbányi B, Miskolczi E, Mihálffy S, Patakiné EV, HorváthÁ. 2003. Examination of larval malformations in Africancatfish Clariasgariepinus following fertilization withcryopreserved sperm. Book of abstracts WorldAquaculture. Salvador, Brasil.