Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).

Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).

El manejo de poblaciones monosexo de machos de tilapias es una solución para las dificultades productivas mostradas por esta especie gracias a su precocidad reproductiva y menores tasas de desarrollo de las hembras. Una población monosexo controla la reproducción indeseada y brinda mayor uniformidad a los lotes, repercutiendo en los ciclos productivos, ganancias superiores y mayor rentabilidad. Se recogen los diferentes protocolos en los campos investigativos y productivos, por los cuales es posible desarrollar poblaciones monosexo de machos de tilapia, como la androgénesis, ginogénesis y GMT, reversión sexual.

Guardado en:

Boletín Científico Centro de Museos Museo de Historia Natural

0123-3068

2462-8190

Restrepo Murillo, Martín A.

Grajales Quintero, Alberto

Hahn von Hessberg, Christine M.

UNIVERSIDAD DE CALDAS

16

2011-01-01

156

172

Colombia

reversión sexual

ginogénesis

Cichlidae

androgénesis

info:eu-repo/semantics/openAccess

http://purl.org/coar/access_right/c_abf2

Boletín Científico del Centro de Museos - 2012

id 5162b4085a55e304cf22900d631f44d1
record_format ojs
spelling Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
MARJANI, M.; JAMILI, S.; MOSTAFAVI, P.G.; RAMIN, M. & MASHINCHIAN, A. 2009. Influence of 17-alpha methyl testosterone on masculinization and growth in tilapia (Oreochromis mossambicus). Journal of fisheries and aquatic science, 4 (1): 71-74.
MACINTOSH, D.J.; VARGHESE, T.J. & RAO-SATYANARAYANA, G.P. 1985. Hormonal sex reversal of wildspawned tilapia in India. Journal of Fish Biology, 26(2): 87-94.
MACLEAN, N.1998. Genetic Manipulation of Farmed Fish In: Biology of Farmed Fish, Black, K & Pickering, A. Sheffield Academic Press.
MAINARDES-PINTO, C.S.R.; FENERICH-VERANI, N.; DE CAMPOS, B.E.S. E LIVRAMENTO-DA SILVA, A. 2000. Masculinização da tilápia do nilo, Oreochromis niloticus, utilizando diferentes rações e diferentes doses de 17 α-metiltestosterona. Rev. Bras. Zootec., 29 (3): 654-659.
MAIR, G.C.; ABUCAY, J.S.; SKIBINSKI, D.O.F.; ABELLA, T.A. & BEARDMORE, J.A. 1997. Genetic manipulation of sex ratio for the large scale production of all-male tilapia Oreochromis niloticus L. Canadian Journal of Fisheries and Aquatic Sciences, 54(2): 396-404.
MAIR, G.C.; DAHILIG, L.R.; MORALES, E.J.; BEARDMORE, J.A. & SKIBINSKI, D.O.F. 1997. Application of genetic techniques for the production of monosex male tilapia in aquaculture: Early experiences from the Philippines. Proceedings of the Fourth Central America Symposium on Aquaculture, Tegucigalpa, Honduras, April 22-24, 225-227.
MANOSROI, J.; PETCHJUL, K. & MANOSROI, A. 2004. Effect of Fluoxymesterone Fish Feed Granule on Sex Reversal of the Hybrid, Thai Red Tilapia (Oreochromis niloticus Linn. x Oreochromis mossambicus Linn.). Journal Asian Fisheries Science, 17: 323-331.
MATEEN, A. & AHMED, I. 2007. Effect of androgen on sex reversal and growth of nile tilapia (Oreochromis niloticus). Journal Pak. J. Agri. Sci., 44 (2): 272-276.
LUCKENBACH, J.A.; GODWIN, J.; DANIELS, H.V.; BEASLEY, J.M.; SULLIVAN, C.V. & BORSKI, R.J. 2004. Induction of diploid gynogenesis in southern flounder (Paralichthys lethostigma) with homologous and heterologous sperm. Journal Aquaculture, 37: 499–516.
MYERS, J.M.; PENMAN, D.J.; RANA, J.K.; BROMAGE, N.; POWELL, S.F. & MCANDREW, B.J. 1995. Applications of induced androgenesis with tilapia. Journal Aquaculture, 137: 150.
NAKAMURA, M. 1981. Effects of 11-ketotestosterone on gonadal sex differentiation in tilapia mossambica. Japanese Society of Scientific Fisheries, 47(10): 1323-1327.
NGUYEN, H.N.; KHAW, H.L.; PONZONI, R.W.; HAMZAH, A. & KAMARUZZAMAN, N. 2007. Can sexual dimorphism and body shape be altered in Nile tilapia (Oreochromis niloticus) by genetic means?. Journal Aquaculture, 272: 38–46.
OWUSU-FRIMPONG, M. & NIJJHAR, B. 1981. Induced sex reversal in tilapia nilotica (cichlidae) with methyl testosterone. Journal Hydrobiologia, 78: 157-160.
PANDIAN, T.J. & KOTEESWARAN, R. 1998. Ploidy induction and sex control in fish. Journal Hydrobiologia, 384: 167–243.
PANDIAN, T.J. & SHEELA, G. 1995. Hormonal induction of sex reversal in fish. Journal Aquaculture, 138: l-22
PEÑA-MENDOZA, B.; J.L. GÓMEZ-MÁRQUEZ, I.H.; SALGADO-UGARTE & D. RAMÍREZ-NOGUERA. 2005. Reproductive biology of Oreochromis niloticus (Perciformes: Cichlidae) at Emiliano Zapata dam, Morelos, Mexico. Rev. Biol. Trop., 53 (3-4): 515-522.
MACINTOSH, D.J. 2008. Risks associated with using methyl testosterone in tilapia farming. Desde http://media.sustainablefish.org/MT_WP.pdf
LÓPEZ, C.A.; CARVAJAL, D.L. & BOTERO, M.C. 2007. Masculinización de tilapia roja (Oreochromis spp) por inmersión utilizando 17 alfa–metiltestosterona. Revista Colombiana de Ciencias Pecuarias, 20: 318-326.
PERÚ. MINISTERIO DE COMERCIO EXTERIOR Y TURISMO DEL PERÚ - MINCETUR. 2004. Perfil de mercado y competitividad exportadora de la tilapia. 2004. Desde http://www.mincetur.gob.pe/comercio/otros/penx/pdfs/Tilapia.pdf
INSTITUTO COLOMBIANO DE DESARROLLO RURAL–INCODER. 2006. Guía práctica de piscicultura en Colombia. Bogotá D.C., 37 –42.
HAHN, C.M.; GIRALDO, C.E.; GRAJALES, A. & MARTÍNEZ, J.A. 2001. Utilización de Citrato de Tamoxifen para obtención de machos en tilapias (Oreochromis niloticus, Trewavas, 1981). Santagueda, Caldas, Colombia: Tesis, Universidad de Caldas, Facultad de Ciencias Agropecuarias, Departamento de sistemas de Producción, Manizales.
HEPHER, B. 2005. Cultivo de peces comerciales. Mexico, D.F.: Editorial Limusa S.A, pp. 63–94.
HERRERA, A.A.; CRUZ, R.R. & THE FISH GENETICS BREEDING PROGRAM GENETIC MANIPULATION FOR IMPROVED TILAPIA PROJECT. 2001. Developmental biology of the supermale YY tilapia (Oreochromis niloticus): Histogenesis of the reproductive system. Journal Science Diliman, 13 (1): 33-40.
HOMKLIN, S.; WATTANODORN, T.; KEE-ONG, S. & LIMPIYAKORN, T. 2009. Biodegradation of 17a-methyltestosterone and isolation of MT-degrading bacterium from sediment of Nile tilapia masculinization pond. Journal Water Science & Technology, 59 (2).
HURTADO, N. 2005. Inversión sexual en tilapias. Revisión bibliografica. Ingenierosconsultores. Lima–Perú.
IHSSEN, P.E.; McKAY, L.R.; McMILLAN, I. & PHILLIPS, R.B. 1990. Ploidy manipulation and gynogenesis in fishes: Cytogenetic and fisheries applications. American Fisheries Society, 119: 698-717.
IJIRI, S.; KANEKO, H.; KOBAYASHI, T.; WANG, D.S.; SAKAI, F.; PAUL- PRASANTH, B.; NAKAMURA, M. & NAGAHAMA, Y. 2008. Sexual dimorphic expression of genes in gonads during early differentiation of a teleost fish, the nile tilapia Oreochromis niloticus. Journal Biology of Reproduction, 78 (2): 333-341.
INSTITUTO DE ACUACULTURA DE STIRLING. 2007. Producción de Tilapia. Panorama acuícola magazine. Mayo–Junio. Desde http://www.panoramaacuicola.com/ediciones/pam_12-4/48-55.pdf
LOGATO, P.V.R.; MURGAS, L.D.S. & DE SOUZA, F.O. 2004. Estudio del efecto de la relación macho hembra en la puesta natural y dosis de 17-∝-metiltestosterona en la reversión sexual de tilapia-del-nilo (Oreochromis niloticus) linaje tailandés. Journalan. Vet. (murcia), 20: 95-103.
JOHNSTONE, R. & STET, R.J.M. 1995. The production of gynogenetic Atlantic salmon, Salmo salar L. Journal Theor. Appl. Genet., 90: 819-826.
JOHNSTONE, R.; MACINTOSH, D.J. & WRIGHT, R.S. 1983. Elimination of orally administered 17α-methyltestosterone by Oreochromis mossambicus (Tilapia) and Salmogairdneri (Rainbow trout) juveniles. Journal Aquaculture, 35: 249–257.
KARAYÜCEL, I.; EZAZ, T.; KARAYÜCEL, S.; MCANDREW, B.J. & PENMAN, D.J. 2004. Evidence for two unlinked ‘‘sex reversal’’ loci in the Nile tilapia,Oreochromis niloticus, and for linkage of one of these to the red body colour gene. Journal Aquaculture, 234: 51–63.
KOBAYASHI, T.; KAJIURA-KOBAYASHI, H. & NAGAHAMA, Y. 2003. Induction of XY sex reversal by estrogen involves altered gene expression in a teleost, tilapia. Journal Cytogenetic and Genome Research, 101: 89-294.
KOMEN, H. & THORGAARD, G. 2007. Androgenesis, gynogenesis and the production of clones in fishes: A review. Journal Aquaculture, 269: 150–173.
LI, G.L.; LIU, X.C. & LIN, H.R. 2006. Effects of aromatizable and nonaromatizable androgens on the sex inversion of red-spotted grouper (Epinephelus akaara). Journal Fish Physiology and Biochemistry, 32: 25–33.
LIAO, I.C. & CHEN, T.P. 1983. Status and prospects of tilapia culture in Taiwan. Proceedings of the first international symposium on Tilapia in aquaculture, 8–13 May, Nazareth, Israel, Tel Aviv University, Israel.
PERSCHBACHER, P.W. 2007. Growth Performance of GMT and Mixed Sex Nile Tilapia Oreochromis niloticus on Natural and Supplemental Feeds. Journal Asian Fisheries Science, 20: 425-431.
PHELPS, R.P. & POPMA, T.J. 2000. Sex reversal of tilapia. In: Costa-Pierce, B.A. & Rakocy, J.E. (Editors). Tilapia Aquaculture in the Americas. The World Aquaculture Society, 2: 34–59.
GALE, W.L.; FITZPATRICK, M.S.; LUCERO, M.; CONTRERAS-SÁNCHEZ, W.M & SCHRECK, C.B. 1999. Masculinization of Nile tilapia (Oreochromis niloticus) by immersion in androgens. Journal Aquaculture, 178: 349–357.
WOHLFARTH, G.W. 1994. The unexploited potential of tilapia hybrids in aquaculture. Journal Aquacult fish manage, 25: 781–788.
TSAI, C.L.; WANG, L.H.; CHANG, C.F. & KAO, C.C. 2000. Effects of Gonadal Steroids on Brain Serotonergic and Aromatase Activity During the Critical Period of Sexual Differentiation in Tilapia, Oreochromis mossambicus. Journal of Neuroendocrinology, 49: 894-898.
TSAI, C.L.; WANG, L.H.; SHIUE, Y.L. & CHAO, T.Y. 2007. Influence of temperature on the ontogenetic expression of neural development-related genes from developing tilapia brain expressed sequence tags. Journal Marine Biotechnology, 9: 243–261.
TUAN, P.A.; LITTLE, D.C. & MAIR, G.C. 1998. Genotypic effects on comparative growth performance of all-male tilapia Oreochromis niloticus (L.). Journal Aquaculture, 59: 293–302.
TVEDT, H.B.; BENFEY, T.J.; MARTIN-ROBICHAUD, D.J.; McGOWAN, C. & REITH, M. 2006. Gynogenesis and sex determination in Atlantic Halibut (Hippoglossushippoglossus). Journal Aquaculture, 252: 573–583.
WASSERMANN, G.J. & AFONSO, L.O.B. 2003. Sex reversal in nile tilapia (Oreochromis niloticus Linnaeus) by androgen immersion. Journal Aquaculture Research, 34: 65-71.
WESSELS, S. & HÖRSTGEN-SCHWARK, G. 2007. Selection experiments to increase the proportion of males in Nile tilapia (Oreochromis niloticus) by means of temperature treatment. Journal Aquaculture, 272 (1): 80–87.
YASUI, G.S.; DOS SANTOS, L.C.; SHIMODA, E.; PINTO-RIBEIRO-FILHO, O.; CALADO, L.L.; SARAIVA-FREITAS, A.; VAZQUEZ-VIDAL JR, M. E BARILE-FERREIRA, E. 2007. Masculinização de três linhagens de tilápias do Nilo utilizando o andrógeno sintético 17-α-metil-testosterona. Journal Zootecnia Tropical, 25 (4): 307-310.
TOGUYENI, A.; FAUCONNEAU, B.; FOSTIER, A.; ABUCAY, J.; MAIR, G. & BAROILLER, J.F. 2002. Influence of sexual phenotype and genotype, and sex ratio on growth performances in tilapia Oreochromis niloticus. Journal Aquaculture, 207: 249–261.
info:eu-repo/semantics/article
http://purl.org/coar/resource_type/c_6501
info:eu-repo/semantics/publishedVersion
http://purl.org/coar/version/c_970fb48d4fbd8a85
info:eu-repo/semantics/openAccess
http://purl.org/coar/access_right/c_abf2
Text
TSAI, C.L.; CHANG, S.L.; WANG, L.H. & CHAO, T.Y. 2003. Temperature influences the ontogenetic expression of aromatase and oestrogen receptor mRNA in the developing tilapia (Oreochromis mossambicus) brain. Journal of Neuroendocrinology, 15: 97–102.
THORGAARD, G.H.; SCHEERER, P.D.; HERSHBERGER, W.K. & MYERS, J.M. 1990. Androgenetic rainbow trout produced using sperm from tetraploid males show improved survival. Journal Aquaculture, 85: 215–221.
PHELPS, R.P.; ARNDT, J.T. & WARRINGTON, R.L. 1999. Masculinization of tilapia fry by immersion in trenbolone acetate (TBA) at a production level. In: K. McElwee, D. Burke, M. Niles, and H. Egna (Editors), Sixteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University., pp.79-80.
ROWELL, C.B.; WATTS, S.A.; WIBBELS, T.; HINES, G.A. MAIR, G. 2002. Androgen and estrogen metabolism during sex differentiation in mono-sex populations of the nile Tilapia, Oreochromis niloticus. Journal General and Comparative Endocrinolog, 12: 151–162.
PHELPS, R.P.; FITZPATRICK, M.S.; CONTRERAS-SÁNCHEZ, W.M.; WARRINGTON, R.L. & ARNDT, J.T. 2000. Detection of mt in pond water after treatment with MT food. In: K. McElwee, D. Burke, M. Niles, X. Cummings, and H. Egna (Editors), Seventeenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, pp. 57-59.
PIFERRER, F. & DONALDSON, E.M. 1994. Uptake and clearance of exogenous estradiol-17-beta and testosterone during the early development of coho salmon Oncorhynchus kisutch, including eggs, alevins and fry. Journal Fish Physiol Biochem, 13(3): 219–232.
PILLAY, T.V.R. 2004. Acuicultura Principios y Prácticas. México D.F.: Editorial Limusa, 445–462.
POPMA, T.J. & GREEN, B.W. 1990. Aquaculture production manual: sex reversal of tilapia in earthen ponds. Research and Development Series No. 35. International Center for Aquaculture, Alabama Agricultural Experiment Station, Auburn University, AL, USA.
POPMA, T. & MASSER, M. 1999. Tilapia Life History and Biology. Southern Regional Aquaculture Center (SRAC), Publication No. 283.
RON, B.; SHIMODA, S.K.; IWAMA, G.K. & GRAU, E.G. 1995. Relationships among ration, salinity, 17α-methyltestosterone and growth in the euryhaline tilapia, Oreochromis mossambicus. Journal Aquaculture, 135: 185-193.
ROUGEOT, C.; PRIGNON, C.; VALENCE, C.; KENGNE, N. MÉLARD, C. 2008. Effect of high temperature during embryogenesis on the sex differentiation process the Nile tilapia, Oreochromis niloticus. Journal Aquaculture, 276: 205-208.
SARDER, M.R.; PENMAN, D.J.; MYERS, J.M. & MCANDREW, B.J. 1999. Production and propagation of fully inbred clonal lines in the nile tilapia (Oreochromis niloticus L). Journal of experimental zoology, 284: 675–685, 1999.
TESSEMA, M.; MÜLLER-BELECKE, A. & HÖRSTGEN-SCHWARK, G. 2006. Effect of rearing temperatures on the sex ratios of Oreochromis niloticus populations. Journal Aquaculture, 258: 270–277.
SCHEERER, P.D.; THORGAARD, G.H.; ALLENDORF, F.W. & KNUDSEN, K.L. 1986. Androgenetic rainbow trout produced from inbred and outbred sperm sources show similar survival. Journal Aquaculture, 57: 289–298.
SHEEHAN, R.; SHASTEEN, S. & SURESH, A. 1999. Better growth in all-female diploid and triploid rainbow trout. Journal American fisheries society,128: 491–498.
SHELTON, W.L. 2000. Methods for androgenesis techniques applicable to tilapia. In: K. McElwee, D. Burke, M. Niles, X. Cummings, and H. Egna (Editors), Seventeenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, pp. 51-55.
STANLEY, J.G. & JONES, J. B. 1976. Morphology of androgenetic and gynogenetic grass carp, Ctenopharyngodon idella (Valenciennes). Journal Fish Biology, 9: 523–528.
SURESH, V. 2000. Últimos avances en el manejo de reproductores de tilapia. Revista acuatic, 10.
TACHIBANA, L.; CASTAGNOLLI, N.; PEZZATO, L.E.; BARROS, M.M.; DE BARROS-VALLE, J. E SIQUEIRA, M.R. 2004. Desempenho de diferentes linhagens de tilápia do Nilo (Oreochromis niloticus) na fase de reversão sexual. Maringá, 26 (3): 305-311.
TAYAMEN, M.M. & SHELTON, W.L. 1978. Inducement of sex reversal in Sarotherodon niloticus (Linnaeus). Journal Aquaculture, 14 (4): 349-354.
GUPTA, M.V. & ACOSTA, B.O. 2004. A review of global tilapia farming practices. Journal Aquaculture Asia, 9 (1): 7-12.
GALBREATH, P.F. & SAMPLES, B.L. 2000. Optimization of thermal shock protocols for induction of triploidy in brook trout. North American journal of aquaculture, 62: 249–259.
FLÓREZ-MUÑOZ, V.F. 1994. Desarrollo científico y tecnológico de un banco de genoma de tilapia. Universidad autónoma Metropolitana.
Boletín Científico
BAROILLER, J.F.; CHOURROUT, D.; FOSTIER, A. & JALABERT, B. 1995. Temperature and sex chromosomes govern sex ratios of the mouthbrooding Cichlid fish Oreochromis niloticus. Journal of Experimental Zoology, 273 (3): 216-223.
BAROILLER, J.F. & JALABERT, B. 1989. Contribution of research in reproductive physiology to the culture of tilapias. Journal Aquai. Liring Resour, 2 (2): 105-1 16.
BARAS, E.; JACOBS, B. & MELARD, C. 2001. Effect of water temperature on survival, growth and phenotypic sex of mixed (XX–XY) progenies of Nile tilapia Oreochromis niloticus. Journal Aquaculture, 192: 187–199.
AZAZA, M.S.; DHRAÏEFA, M.N. & KRAÏEMA, M.M. 2008. Effects of water temperature on growth and sex ratio of juvenile Nile tilapia Oreochromis niloticus (Linnaeus) reared in geothermal waters in southern Tunisia. Journal of Thermal Biology, 33 (2): 98-105.
ARIAS-RODRÍGUEZ, L.; RODRÍGUEZ-IBARRA, L.E. & DEL VALLE- PIGNATARO, G. 2004. Efecto de la radiación UV en la inactivación genética del esperma de Botete diana Sphoeroides annulatus (Jenyns, 1842). Journal Ciencias marinas, 30 (003): 391-402.
ARBOLEDA-OBREGON, D.A. 2005. Reversion sexual de la tilapia roja (Oreochromis sp), una guía básica para el acuicultor. Revista electrónica de veterinaria, 6 (12). Desde http://www.veterinaria.org/revistas/redvet/n121205.html
ABUCAY, J.S.; MAIR, G.C.; SKIBINSKI, D.O.F. & BEARDMORE, J.A. 1999. Environmental sex determination: the effect of temperature and salinity on sex ratio in Oreochromis niloticus L. Journal Aquaculture, 173: 219–234.
ABAD, Z.; GONZÁLEZ, R.; MENDOZA, I.; OLIVA, A.; PIMENTEL, E.; PIMENTEL, R.; MARTÍNEZ, R.; ESTRADA, M.P.; RAMÍREZ, Y. & ARENAL, A. 2007. Production of a high percentage of male offspring in growthenhanced transgenic tilapia using Oreochromis aureus selected pseudofemales. Journal Aquaculture, 270: 541–545.
Boletín Científico del Centro de Museos - 2012
https://creativecommons.org/licenses/by-nc-sa/4.0/
Español
https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/view/4588
Boletín Científico Centro de Museos Museo de Historia Natural
application/pdf
BARRY, T.P.; MARWAH, A. & MARWAH, P. 2007. Stability of 17α methyltestosterone in fish feed. Journal Aquaculture, 271: 523–529.
Artículo de revista
Núm. 1 , Año 2012 : Enero - Junio
1
16
reversión sexual
GMT
ginogénesis
Cichlidae
androgénesis
Restrepo Murillo, Martín A.
Grajales Quintero, Alberto
Hahn von Hessberg, Christine M.
El manejo de poblaciones monosexo de machos de tilapias es una solución para las dificultades productivas mostradas por esta especie gracias a su precocidad reproductiva y menores tasas de desarrollo de las hembras. Una población monosexo controla la reproducción indeseada y brinda mayor uniformidad a los lotes, repercutiendo en los ciclos productivos, ganancias superiores y mayor rentabilidad. Se recogen los diferentes protocolos en los campos investigativos y productivos, por los cuales es posible desarrollar poblaciones monosexo de machos de tilapia, como la androgénesis, ginogénesis y GMT, reversión sexual.
BAROILLER, J.F.; D’COTTA, H.; BEZAULT, E.; WESSELS, S.; & HOERSTGEN-SCHWARK, G. 2009. Tilapia sex determination: Where temperature and genetics meet. Journal Comparative Biochemistry and Physiology, Part A, 153: 30–38.
AGROCADENAS. MINISTERIO DE AGRICULTURA Y DESARROLLO RURAL. 2005. La cadena de la piscicultura en Colombia, una mirada global de su estructura y dinámica 1991-2005. Documento de trabajo Nº 106. Bogotá D.C., Colombia.
BARTLEY, D.M.; RANA, K. & IMMINK. A.J. 2001. The Use of inter-specific hybrids in aquaculture and fisheries. Journal Reviews in fish biology and fisheries, 10 (3): 325-337.
DESPREZ, D.; GÉRAZ, E.; HOAREAU, M.C.; MÉLARD, C.; BOSC, P. &BAROILLER, J.F. 2003a. Production of a high percentage of male offspring with a natural androgen, 11β-hydroxyandrostenedione (11βOHA4), in Florida red tilapia. Journal Aquaculture, 216: 55–65.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001c. Fate of methyltestosterone in the pond environment: detection of MT in pond soil from a CRSP site. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, pp. 79-82.
BEARDMORE, J.A.; MAIR, G.C. & LEWIS, R.I. 2001. Monosex male production in finfish as exemplified by tilapia: applications, problems, and prospects. Journal Aquaculture, 197: 283-301.
CORPORACIÓN COLOMBIA INTERNACIONAL (CCI). 2007. Sembramos a Colombia para el mundo. Cartilla sistemas agropecuarios. Encuesta nacional agropecuaria.
CRAVEDI, J.P.; DEOUS, G.; DEBRAUWER, L.; RAO, D. & PROME, D. 1993. Liquid chromatographic separation andgas-chromatographic mass-spectrometric determination of 17-alpha-methyltestosterone. Anal. Chim. Acta 275, 1–2: 89–94.
DABROWSKI, K.; RODRÍGUEZ, G.; ABIADO, M.A.; CONTRERAS-SÁNCHEZ, W. & CONTRERAS-GARCA, M. 2005. Use of phytochemicals as an environmentally friendly method to sex reverse nile tilapia. In: Burright, J; Flemming, C. and Egna, H. (Editors), Twenty-Second Annual Technical Report. Aquaculture CRSP, Oregon State University, 287-303.
DABROWSKI, K.; RODRÍGUEZ, G.; LEE, K.J.; ABIADO, M.A.G ; CONTRERAS-SÁNCHEZ, W.; MARQUEZCOUTURIER, G. & PHELPS, R. 2004. Studies on fate of methyltestosterone and its metabolites in tilapia and on the use of phytochemicals as an alternative method to produce a monosex population of tilapia. In: R. Harris, I. Courter, and H. Egna (Editors), Twenty-First Annual Technical Report. Aquaculture CRSP, Oregon State University, 53-60.
DESPREZ, D.; MÉLARD, C.; HOAREAU, M.C.; BELLEMÉNE, Y.; BOSC, P. & BAROILLER, J.F. 2003b. Inheritance of sex in two ZZ pseudofemale lines of tilapia Oreochromis aureus. Journal Aquaculture, 218: 131–140.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001b. Masculinization of tilapia by immersion in trenbolone acetate: detection of trenbolone acetate after treatment. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, 47-49.
DEVLIN, R.H. & NAGAHAMA, Y. 2002. Sex determination and sex differentiation in fish: an overview of genetic, physiological, and environmental influences. Journal Aquaculture, 208: 191–364.
DRUMMOND, C.D.; SOLIS-MURGAS, L.D. & VICENTINI, B. 2009. Growth and survival of tilapia Oreochromis niloticus (Linnaeus, 1758) submitted to different temperatures during the process of sex reversal. Journal Ciência e Agrotecnologia, 33(3): 895-902.
EZAZ, M.T. 2002. Analysis of sex determination in nile tilapia (Oreochromis niloticus L.): A molecular genetics approach: Thesis, University of Stirling, Stirling, Scotland, UK.
EZAZ, M.T.; MYERS, J.M.; POWELL, S.F.; McANDREW, B.J. & PENMAN, D.J.2004. Sex ratios in the progeny of androgenetic and gynogenetic YY male Nile tilapia, (Oreochromis niloticus) L. Journal Aquaculture, 232: 205–214.
FELIP, A.; PIFERRER, F.; CARRILLO, M. & ZANUY, S. 2001a. Comparison of the gonadal development and plasma levels of sex steroid hormones in diploid and triploid sea bass, Dicentrarchus labrax L. Journal of Experimental Zoology, 290: 384–395.
FELIP, A.; ZANUY, S.; CARRILLO, M. & PIFERRER, F. 2001b. Induction of triploidy and gynogenesis in teleost fish with emphasis on marine species. Journal Genetica, 111: 175–195.
FITZPATRICK, M.S.; CONTRERAS-SÁNCHEZ, W.M.; MILSTON, R.H.; HORNICK, FEIST, R.W. & SCHRECK, C.B. 1999. Effect of fish density on efficacy of masculinization by immersion in MDHT. In: K. McElwee, D. Burke, M. Niles, and H. Egna (Editors), Sixteenth Annual Technical Report. Pond Dynamics Aquaculture CRSP, Oregon State University, pp. 75-77.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001d. Fate of methyltestosterone in the pond environment: impact of MT-contaminated soil on tilapia sex differentiation. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, 83-86.
Publication
BISWAS, A.K.; MORITA, T.; YOSHIZAKI, G.; MAITA, M. & TAKEUCHI, T. 2005. Control of reproduction in Nile tilapia Oreochromis niloticus (L.) by photoperiod manipulation. Journal Aquaculture, 243: 229–239.
BONGERS, A.B.J.; VELD, E.P.C.; ABO-HASHEMA, K.; BREMMER, I.M.; EDING, E.H.; KOMEN, J. & RICHTER, C.J.J. 1994. Androgenesis in common carp (Cyprinus carpio L.) using UV irradiation in a synthetic ovarian fluid and heat shocks. Journal Aquaculture, 122: 119–132.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001a. Masculinization of tilapia by immersion in trenbolone acetate: growth performance of trenbolone acetate–immersed tilapia. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, 43-46.
BENFEY, T. 1999. The physiology and behavior of triploid fishes. Reviews in fisheries science, 7(1): 39–67.
CAMPOS-MENDOZA, A.; MCANDREWA, B.J.; COWARD, K. & BROMAGEA, N. 2004. Reproductive response of Nile tilapia (Oreochromis niloticus) to photoperiodic manipulation; effects on spawning periodicity, fecundity and egg size. Journal Aquaculture, 231: 299–314.
CHARO-KARISA, H.; REZKC, M.A.; BOVENHUISB, H. & KOMEN, H. 2005. Heritability of cold tolerance in Nile tilapia, Oreochromis niloticus, juveniles. Journal Aquaculture, 249: 115–123.
BEZAULT, E.; CLOTA, F.; DERIVAZ, M.; CHEVASSUS, B. & BAROILLER, J.F. 2007. Sex determination and temperature-induced sex differentiation in three natural populations of Nile tilapia (Oreochromis niloticus) adapted to extreme temperature conditions. Journal Aquaculture, 272 (1):3–16.
CAMPOS-RAMOS, R.; HARVEY, S.C.; McANDREW, B.J. & PENMAN D.J. 2003. An investigation of sex determination in the Mozambique tilapia, Oreochromis mossambicus, using synaptonemal complex analysis, FISH, sex reversal and gynogenesis. Journal Aquaculture, 221: 125–140.
CHAKRABORTY, S.B. & BANERJEE, S. 2009. Culture of monosex nile tilapia under different traditional and non-traditional methods in India. World Journal of Fish and Marine Sciences, 1 (3): 212-217.
CHAKRABORTY, S.B. 2010. Comparative Growth Performance of Mixed-Sex and Monosex Nile Tilapia Population in Freshwater Cage Culture System under Indian Perspective. International Journal of Biology,2 (1) .
CAL, R.M.; VIDAL, S.; MARTÍNEZ, P.; ÁLVAREZ–BLÁZQUEZ, B.; GÓMEZ, C.; & PIFERRER, F. 2006. Growth and gonadal development of gynogenetic diploid Scophthalmus maximus. Journal of Fish Biology, 68: 401–413.
BOMBARDELLI, R.A. & HAYASHI, C. 2005. Masculinização de larvas de tilápia do Nilo (Oreochromis niloticus L.) a partir de banhos de imersão com 17 α-metiltestosterona .R. Bras. Zootec., 34 (2): 365-372.
androgenesis
Cichlidae
gynogenesis
GMT
sex reversion
Journal article
The management of male monosexual tilapia population is a solution to the production difficulties showed by this species due to its reproductive precociousness and low rates of female development. A monosexual population controls non-desired reproduction and provides higher levels of uniformity in each lot, having an impact on the productive cycles, higher profit and better profitability. Different protocols in the research and productive fields which allow monosexual tilapia male populations such as androgenesis, gynogenesis and GMT are gathered.
Protocols monograph to obtain monsexual tilapia nilótica populations (Oreochromis niloticus; TREW. 1983)
0123-3068
https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/download/4588/4202
2462-8190
172
156
2012-01-01T00:00:00Z
2011-01-01
https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/view/4588
2012-01-01T00:00:00Z
institution UNIVERSIDAD DE CALDAS
thumbnail https://nuevo.metarevistas.org/UNIVERSIDADDECALDAS/logo.png
country_str Colombia
collection Boletín Científico Centro de Museos Museo de Historia Natural
title Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
spellingShingle Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
Restrepo Murillo, Martín A.
Grajales Quintero, Alberto
Hahn von Hessberg, Christine M.
reversión sexual
ginogénesis
Cichlidae
androgénesis
androgenesis
Cichlidae
gynogenesis
sex reversion
title_short Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
title_full Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
title_fullStr Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
title_full_unstemmed Monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (Oreochromis niloticus; TREW. 1983).
title_sort monografía de protocolos para obtener poblaciones monosexo de tilapia nilótica (oreochromis niloticus; trew. 1983).
title_eng Protocols monograph to obtain monsexual tilapia nilótica populations (Oreochromis niloticus; TREW. 1983)
description El manejo de poblaciones monosexo de machos de tilapias es una solución para las dificultades productivas mostradas por esta especie gracias a su precocidad reproductiva y menores tasas de desarrollo de las hembras. Una población monosexo controla la reproducción indeseada y brinda mayor uniformidad a los lotes, repercutiendo en los ciclos productivos, ganancias superiores y mayor rentabilidad. Se recogen los diferentes protocolos en los campos investigativos y productivos, por los cuales es posible desarrollar poblaciones monosexo de machos de tilapia, como la androgénesis, ginogénesis y GMT, reversión sexual.
description_eng The management of male monosexual tilapia population is a solution to the production difficulties showed by this species due to its reproductive precociousness and low rates of female development. A monosexual population controls non-desired reproduction and provides higher levels of uniformity in each lot, having an impact on the productive cycles, higher profit and better profitability. Different protocols in the research and productive fields which allow monosexual tilapia male populations such as androgenesis, gynogenesis and GMT are gathered.
author Restrepo Murillo, Martín A.
Grajales Quintero, Alberto
Hahn von Hessberg, Christine M.
author_facet Restrepo Murillo, Martín A.
Grajales Quintero, Alberto
Hahn von Hessberg, Christine M.
topicspa_str_mv reversión sexual
ginogénesis
Cichlidae
androgénesis
topic reversión sexual
ginogénesis
Cichlidae
androgénesis
androgenesis
Cichlidae
gynogenesis
sex reversion
topic_facet reversión sexual
ginogénesis
Cichlidae
androgénesis
androgenesis
Cichlidae
gynogenesis
sex reversion
citationvolume 16
citationissue 1
citationedition Núm. 1 , Año 2012 : Enero - Junio
publisher Boletín Científico
ispartofjournal Boletín Científico Centro de Museos Museo de Historia Natural
source https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/view/4588
language Español
format Article
rights info:eu-repo/semantics/openAccess
http://purl.org/coar/access_right/c_abf2
Boletín Científico del Centro de Museos - 2012
https://creativecommons.org/licenses/by-nc-sa/4.0/
references MARJANI, M.; JAMILI, S.; MOSTAFAVI, P.G.; RAMIN, M. & MASHINCHIAN, A. 2009. Influence of 17-alpha methyl testosterone on masculinization and growth in tilapia (Oreochromis mossambicus). Journal of fisheries and aquatic science, 4 (1): 71-74.
MACINTOSH, D.J.; VARGHESE, T.J. & RAO-SATYANARAYANA, G.P. 1985. Hormonal sex reversal of wildspawned tilapia in India. Journal of Fish Biology, 26(2): 87-94.
MACLEAN, N.1998. Genetic Manipulation of Farmed Fish In: Biology of Farmed Fish, Black, K & Pickering, A. Sheffield Academic Press.
MAINARDES-PINTO, C.S.R.; FENERICH-VERANI, N.; DE CAMPOS, B.E.S. E LIVRAMENTO-DA SILVA, A. 2000. Masculinização da tilápia do nilo, Oreochromis niloticus, utilizando diferentes rações e diferentes doses de 17 α-metiltestosterona. Rev. Bras. Zootec., 29 (3): 654-659.
MAIR, G.C.; ABUCAY, J.S.; SKIBINSKI, D.O.F.; ABELLA, T.A. & BEARDMORE, J.A. 1997. Genetic manipulation of sex ratio for the large scale production of all-male tilapia Oreochromis niloticus L. Canadian Journal of Fisheries and Aquatic Sciences, 54(2): 396-404.
MAIR, G.C.; DAHILIG, L.R.; MORALES, E.J.; BEARDMORE, J.A. & SKIBINSKI, D.O.F. 1997. Application of genetic techniques for the production of monosex male tilapia in aquaculture: Early experiences from the Philippines. Proceedings of the Fourth Central America Symposium on Aquaculture, Tegucigalpa, Honduras, April 22-24, 225-227.
MANOSROI, J.; PETCHJUL, K. & MANOSROI, A. 2004. Effect of Fluoxymesterone Fish Feed Granule on Sex Reversal of the Hybrid, Thai Red Tilapia (Oreochromis niloticus Linn. x Oreochromis mossambicus Linn.). Journal Asian Fisheries Science, 17: 323-331.
MATEEN, A. & AHMED, I. 2007. Effect of androgen on sex reversal and growth of nile tilapia (Oreochromis niloticus). Journal Pak. J. Agri. Sci., 44 (2): 272-276.
LUCKENBACH, J.A.; GODWIN, J.; DANIELS, H.V.; BEASLEY, J.M.; SULLIVAN, C.V. & BORSKI, R.J. 2004. Induction of diploid gynogenesis in southern flounder (Paralichthys lethostigma) with homologous and heterologous sperm. Journal Aquaculture, 37: 499–516.
MYERS, J.M.; PENMAN, D.J.; RANA, J.K.; BROMAGE, N.; POWELL, S.F. & MCANDREW, B.J. 1995. Applications of induced androgenesis with tilapia. Journal Aquaculture, 137: 150.
NAKAMURA, M. 1981. Effects of 11-ketotestosterone on gonadal sex differentiation in tilapia mossambica. Japanese Society of Scientific Fisheries, 47(10): 1323-1327.
NGUYEN, H.N.; KHAW, H.L.; PONZONI, R.W.; HAMZAH, A. & KAMARUZZAMAN, N. 2007. Can sexual dimorphism and body shape be altered in Nile tilapia (Oreochromis niloticus) by genetic means?. Journal Aquaculture, 272: 38–46.
OWUSU-FRIMPONG, M. & NIJJHAR, B. 1981. Induced sex reversal in tilapia nilotica (cichlidae) with methyl testosterone. Journal Hydrobiologia, 78: 157-160.
PANDIAN, T.J. & KOTEESWARAN, R. 1998. Ploidy induction and sex control in fish. Journal Hydrobiologia, 384: 167–243.
PANDIAN, T.J. & SHEELA, G. 1995. Hormonal induction of sex reversal in fish. Journal Aquaculture, 138: l-22
PEÑA-MENDOZA, B.; J.L. GÓMEZ-MÁRQUEZ, I.H.; SALGADO-UGARTE & D. RAMÍREZ-NOGUERA. 2005. Reproductive biology of Oreochromis niloticus (Perciformes: Cichlidae) at Emiliano Zapata dam, Morelos, Mexico. Rev. Biol. Trop., 53 (3-4): 515-522.
MACINTOSH, D.J. 2008. Risks associated with using methyl testosterone in tilapia farming. Desde http://media.sustainablefish.org/MT_WP.pdf
LÓPEZ, C.A.; CARVAJAL, D.L. & BOTERO, M.C. 2007. Masculinización de tilapia roja (Oreochromis spp) por inmersión utilizando 17 alfa–metiltestosterona. Revista Colombiana de Ciencias Pecuarias, 20: 318-326.
PERÚ. MINISTERIO DE COMERCIO EXTERIOR Y TURISMO DEL PERÚ - MINCETUR. 2004. Perfil de mercado y competitividad exportadora de la tilapia. 2004. Desde http://www.mincetur.gob.pe/comercio/otros/penx/pdfs/Tilapia.pdf
INSTITUTO COLOMBIANO DE DESARROLLO RURAL–INCODER. 2006. Guía práctica de piscicultura en Colombia. Bogotá D.C., 37 –42.
HAHN, C.M.; GIRALDO, C.E.; GRAJALES, A. & MARTÍNEZ, J.A. 2001. Utilización de Citrato de Tamoxifen para obtención de machos en tilapias (Oreochromis niloticus, Trewavas, 1981). Santagueda, Caldas, Colombia: Tesis, Universidad de Caldas, Facultad de Ciencias Agropecuarias, Departamento de sistemas de Producción, Manizales.
HEPHER, B. 2005. Cultivo de peces comerciales. Mexico, D.F.: Editorial Limusa S.A, pp. 63–94.
HERRERA, A.A.; CRUZ, R.R. & THE FISH GENETICS BREEDING PROGRAM GENETIC MANIPULATION FOR IMPROVED TILAPIA PROJECT. 2001. Developmental biology of the supermale YY tilapia (Oreochromis niloticus): Histogenesis of the reproductive system. Journal Science Diliman, 13 (1): 33-40.
HOMKLIN, S.; WATTANODORN, T.; KEE-ONG, S. & LIMPIYAKORN, T. 2009. Biodegradation of 17a-methyltestosterone and isolation of MT-degrading bacterium from sediment of Nile tilapia masculinization pond. Journal Water Science & Technology, 59 (2).
HURTADO, N. 2005. Inversión sexual en tilapias. Revisión bibliografica. Ingenierosconsultores. Lima–Perú.
IHSSEN, P.E.; McKAY, L.R.; McMILLAN, I. & PHILLIPS, R.B. 1990. Ploidy manipulation and gynogenesis in fishes: Cytogenetic and fisheries applications. American Fisheries Society, 119: 698-717.
IJIRI, S.; KANEKO, H.; KOBAYASHI, T.; WANG, D.S.; SAKAI, F.; PAUL- PRASANTH, B.; NAKAMURA, M. & NAGAHAMA, Y. 2008. Sexual dimorphic expression of genes in gonads during early differentiation of a teleost fish, the nile tilapia Oreochromis niloticus. Journal Biology of Reproduction, 78 (2): 333-341.
INSTITUTO DE ACUACULTURA DE STIRLING. 2007. Producción de Tilapia. Panorama acuícola magazine. Mayo–Junio. Desde http://www.panoramaacuicola.com/ediciones/pam_12-4/48-55.pdf
LOGATO, P.V.R.; MURGAS, L.D.S. & DE SOUZA, F.O. 2004. Estudio del efecto de la relación macho hembra en la puesta natural y dosis de 17-∝-metiltestosterona en la reversión sexual de tilapia-del-nilo (Oreochromis niloticus) linaje tailandés. Journalan. Vet. (murcia), 20: 95-103.
JOHNSTONE, R. & STET, R.J.M. 1995. The production of gynogenetic Atlantic salmon, Salmo salar L. Journal Theor. Appl. Genet., 90: 819-826.
JOHNSTONE, R.; MACINTOSH, D.J. & WRIGHT, R.S. 1983. Elimination of orally administered 17α-methyltestosterone by Oreochromis mossambicus (Tilapia) and Salmogairdneri (Rainbow trout) juveniles. Journal Aquaculture, 35: 249–257.
KARAYÜCEL, I.; EZAZ, T.; KARAYÜCEL, S.; MCANDREW, B.J. & PENMAN, D.J. 2004. Evidence for two unlinked ‘‘sex reversal’’ loci in the Nile tilapia,Oreochromis niloticus, and for linkage of one of these to the red body colour gene. Journal Aquaculture, 234: 51–63.
KOBAYASHI, T.; KAJIURA-KOBAYASHI, H. & NAGAHAMA, Y. 2003. Induction of XY sex reversal by estrogen involves altered gene expression in a teleost, tilapia. Journal Cytogenetic and Genome Research, 101: 89-294.
KOMEN, H. & THORGAARD, G. 2007. Androgenesis, gynogenesis and the production of clones in fishes: A review. Journal Aquaculture, 269: 150–173.
LI, G.L.; LIU, X.C. & LIN, H.R. 2006. Effects of aromatizable and nonaromatizable androgens on the sex inversion of red-spotted grouper (Epinephelus akaara). Journal Fish Physiology and Biochemistry, 32: 25–33.
LIAO, I.C. & CHEN, T.P. 1983. Status and prospects of tilapia culture in Taiwan. Proceedings of the first international symposium on Tilapia in aquaculture, 8–13 May, Nazareth, Israel, Tel Aviv University, Israel.
PERSCHBACHER, P.W. 2007. Growth Performance of GMT and Mixed Sex Nile Tilapia Oreochromis niloticus on Natural and Supplemental Feeds. Journal Asian Fisheries Science, 20: 425-431.
PHELPS, R.P. & POPMA, T.J. 2000. Sex reversal of tilapia. In: Costa-Pierce, B.A. & Rakocy, J.E. (Editors). Tilapia Aquaculture in the Americas. The World Aquaculture Society, 2: 34–59.
GALE, W.L.; FITZPATRICK, M.S.; LUCERO, M.; CONTRERAS-SÁNCHEZ, W.M & SCHRECK, C.B. 1999. Masculinization of Nile tilapia (Oreochromis niloticus) by immersion in androgens. Journal Aquaculture, 178: 349–357.
WOHLFARTH, G.W. 1994. The unexploited potential of tilapia hybrids in aquaculture. Journal Aquacult fish manage, 25: 781–788.
TSAI, C.L.; WANG, L.H.; CHANG, C.F. & KAO, C.C. 2000. Effects of Gonadal Steroids on Brain Serotonergic and Aromatase Activity During the Critical Period of Sexual Differentiation in Tilapia, Oreochromis mossambicus. Journal of Neuroendocrinology, 49: 894-898.
TSAI, C.L.; WANG, L.H.; SHIUE, Y.L. & CHAO, T.Y. 2007. Influence of temperature on the ontogenetic expression of neural development-related genes from developing tilapia brain expressed sequence tags. Journal Marine Biotechnology, 9: 243–261.
TUAN, P.A.; LITTLE, D.C. & MAIR, G.C. 1998. Genotypic effects on comparative growth performance of all-male tilapia Oreochromis niloticus (L.). Journal Aquaculture, 59: 293–302.
TVEDT, H.B.; BENFEY, T.J.; MARTIN-ROBICHAUD, D.J.; McGOWAN, C. & REITH, M. 2006. Gynogenesis and sex determination in Atlantic Halibut (Hippoglossushippoglossus). Journal Aquaculture, 252: 573–583.
WASSERMANN, G.J. & AFONSO, L.O.B. 2003. Sex reversal in nile tilapia (Oreochromis niloticus Linnaeus) by androgen immersion. Journal Aquaculture Research, 34: 65-71.
WESSELS, S. & HÖRSTGEN-SCHWARK, G. 2007. Selection experiments to increase the proportion of males in Nile tilapia (Oreochromis niloticus) by means of temperature treatment. Journal Aquaculture, 272 (1): 80–87.
YASUI, G.S.; DOS SANTOS, L.C.; SHIMODA, E.; PINTO-RIBEIRO-FILHO, O.; CALADO, L.L.; SARAIVA-FREITAS, A.; VAZQUEZ-VIDAL JR, M. E BARILE-FERREIRA, E. 2007. Masculinização de três linhagens de tilápias do Nilo utilizando o andrógeno sintético 17-α-metil-testosterona. Journal Zootecnia Tropical, 25 (4): 307-310.
TOGUYENI, A.; FAUCONNEAU, B.; FOSTIER, A.; ABUCAY, J.; MAIR, G. & BAROILLER, J.F. 2002. Influence of sexual phenotype and genotype, and sex ratio on growth performances in tilapia Oreochromis niloticus. Journal Aquaculture, 207: 249–261.
TSAI, C.L.; CHANG, S.L.; WANG, L.H. & CHAO, T.Y. 2003. Temperature influences the ontogenetic expression of aromatase and oestrogen receptor mRNA in the developing tilapia (Oreochromis mossambicus) brain. Journal of Neuroendocrinology, 15: 97–102.
THORGAARD, G.H.; SCHEERER, P.D.; HERSHBERGER, W.K. & MYERS, J.M. 1990. Androgenetic rainbow trout produced using sperm from tetraploid males show improved survival. Journal Aquaculture, 85: 215–221.
PHELPS, R.P.; ARNDT, J.T. & WARRINGTON, R.L. 1999. Masculinization of tilapia fry by immersion in trenbolone acetate (TBA) at a production level. In: K. McElwee, D. Burke, M. Niles, and H. Egna (Editors), Sixteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University., pp.79-80.
ROWELL, C.B.; WATTS, S.A.; WIBBELS, T.; HINES, G.A. MAIR, G. 2002. Androgen and estrogen metabolism during sex differentiation in mono-sex populations of the nile Tilapia, Oreochromis niloticus. Journal General and Comparative Endocrinolog, 12: 151–162.
PHELPS, R.P.; FITZPATRICK, M.S.; CONTRERAS-SÁNCHEZ, W.M.; WARRINGTON, R.L. & ARNDT, J.T. 2000. Detection of mt in pond water after treatment with MT food. In: K. McElwee, D. Burke, M. Niles, X. Cummings, and H. Egna (Editors), Seventeenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, pp. 57-59.
PIFERRER, F. & DONALDSON, E.M. 1994. Uptake and clearance of exogenous estradiol-17-beta and testosterone during the early development of coho salmon Oncorhynchus kisutch, including eggs, alevins and fry. Journal Fish Physiol Biochem, 13(3): 219–232.
PILLAY, T.V.R. 2004. Acuicultura Principios y Prácticas. México D.F.: Editorial Limusa, 445–462.
POPMA, T.J. & GREEN, B.W. 1990. Aquaculture production manual: sex reversal of tilapia in earthen ponds. Research and Development Series No. 35. International Center for Aquaculture, Alabama Agricultural Experiment Station, Auburn University, AL, USA.
POPMA, T. & MASSER, M. 1999. Tilapia Life History and Biology. Southern Regional Aquaculture Center (SRAC), Publication No. 283.
RON, B.; SHIMODA, S.K.; IWAMA, G.K. & GRAU, E.G. 1995. Relationships among ration, salinity, 17α-methyltestosterone and growth in the euryhaline tilapia, Oreochromis mossambicus. Journal Aquaculture, 135: 185-193.
ROUGEOT, C.; PRIGNON, C.; VALENCE, C.; KENGNE, N. MÉLARD, C. 2008. Effect of high temperature during embryogenesis on the sex differentiation process the Nile tilapia, Oreochromis niloticus. Journal Aquaculture, 276: 205-208.
SARDER, M.R.; PENMAN, D.J.; MYERS, J.M. & MCANDREW, B.J. 1999. Production and propagation of fully inbred clonal lines in the nile tilapia (Oreochromis niloticus L). Journal of experimental zoology, 284: 675–685, 1999.
TESSEMA, M.; MÜLLER-BELECKE, A. & HÖRSTGEN-SCHWARK, G. 2006. Effect of rearing temperatures on the sex ratios of Oreochromis niloticus populations. Journal Aquaculture, 258: 270–277.
SCHEERER, P.D.; THORGAARD, G.H.; ALLENDORF, F.W. & KNUDSEN, K.L. 1986. Androgenetic rainbow trout produced from inbred and outbred sperm sources show similar survival. Journal Aquaculture, 57: 289–298.
SHEEHAN, R.; SHASTEEN, S. & SURESH, A. 1999. Better growth in all-female diploid and triploid rainbow trout. Journal American fisheries society,128: 491–498.
SHELTON, W.L. 2000. Methods for androgenesis techniques applicable to tilapia. In: K. McElwee, D. Burke, M. Niles, X. Cummings, and H. Egna (Editors), Seventeenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, pp. 51-55.
STANLEY, J.G. & JONES, J. B. 1976. Morphology of androgenetic and gynogenetic grass carp, Ctenopharyngodon idella (Valenciennes). Journal Fish Biology, 9: 523–528.
SURESH, V. 2000. Últimos avances en el manejo de reproductores de tilapia. Revista acuatic, 10.
TACHIBANA, L.; CASTAGNOLLI, N.; PEZZATO, L.E.; BARROS, M.M.; DE BARROS-VALLE, J. E SIQUEIRA, M.R. 2004. Desempenho de diferentes linhagens de tilápia do Nilo (Oreochromis niloticus) na fase de reversão sexual. Maringá, 26 (3): 305-311.
TAYAMEN, M.M. & SHELTON, W.L. 1978. Inducement of sex reversal in Sarotherodon niloticus (Linnaeus). Journal Aquaculture, 14 (4): 349-354.
GUPTA, M.V. & ACOSTA, B.O. 2004. A review of global tilapia farming practices. Journal Aquaculture Asia, 9 (1): 7-12.
GALBREATH, P.F. & SAMPLES, B.L. 2000. Optimization of thermal shock protocols for induction of triploidy in brook trout. North American journal of aquaculture, 62: 249–259.
FLÓREZ-MUÑOZ, V.F. 1994. Desarrollo científico y tecnológico de un banco de genoma de tilapia. Universidad autónoma Metropolitana.
BAROILLER, J.F.; CHOURROUT, D.; FOSTIER, A. & JALABERT, B. 1995. Temperature and sex chromosomes govern sex ratios of the mouthbrooding Cichlid fish Oreochromis niloticus. Journal of Experimental Zoology, 273 (3): 216-223.
BAROILLER, J.F. & JALABERT, B. 1989. Contribution of research in reproductive physiology to the culture of tilapias. Journal Aquai. Liring Resour, 2 (2): 105-1 16.
BARAS, E.; JACOBS, B. & MELARD, C. 2001. Effect of water temperature on survival, growth and phenotypic sex of mixed (XX–XY) progenies of Nile tilapia Oreochromis niloticus. Journal Aquaculture, 192: 187–199.
AZAZA, M.S.; DHRAÏEFA, M.N. & KRAÏEMA, M.M. 2008. Effects of water temperature on growth and sex ratio of juvenile Nile tilapia Oreochromis niloticus (Linnaeus) reared in geothermal waters in southern Tunisia. Journal of Thermal Biology, 33 (2): 98-105.
ARIAS-RODRÍGUEZ, L.; RODRÍGUEZ-IBARRA, L.E. & DEL VALLE- PIGNATARO, G. 2004. Efecto de la radiación UV en la inactivación genética del esperma de Botete diana Sphoeroides annulatus (Jenyns, 1842). Journal Ciencias marinas, 30 (003): 391-402.
ARBOLEDA-OBREGON, D.A. 2005. Reversion sexual de la tilapia roja (Oreochromis sp), una guía básica para el acuicultor. Revista electrónica de veterinaria, 6 (12). Desde http://www.veterinaria.org/revistas/redvet/n121205.html
ABUCAY, J.S.; MAIR, G.C.; SKIBINSKI, D.O.F. & BEARDMORE, J.A. 1999. Environmental sex determination: the effect of temperature and salinity on sex ratio in Oreochromis niloticus L. Journal Aquaculture, 173: 219–234.
ABAD, Z.; GONZÁLEZ, R.; MENDOZA, I.; OLIVA, A.; PIMENTEL, E.; PIMENTEL, R.; MARTÍNEZ, R.; ESTRADA, M.P.; RAMÍREZ, Y. & ARENAL, A. 2007. Production of a high percentage of male offspring in growthenhanced transgenic tilapia using Oreochromis aureus selected pseudofemales. Journal Aquaculture, 270: 541–545.
BARRY, T.P.; MARWAH, A. & MARWAH, P. 2007. Stability of 17α methyltestosterone in fish feed. Journal Aquaculture, 271: 523–529.
BAROILLER, J.F.; D’COTTA, H.; BEZAULT, E.; WESSELS, S.; & HOERSTGEN-SCHWARK, G. 2009. Tilapia sex determination: Where temperature and genetics meet. Journal Comparative Biochemistry and Physiology, Part A, 153: 30–38.
AGROCADENAS. MINISTERIO DE AGRICULTURA Y DESARROLLO RURAL. 2005. La cadena de la piscicultura en Colombia, una mirada global de su estructura y dinámica 1991-2005. Documento de trabajo Nº 106. Bogotá D.C., Colombia.
BARTLEY, D.M.; RANA, K. & IMMINK. A.J. 2001. The Use of inter-specific hybrids in aquaculture and fisheries. Journal Reviews in fish biology and fisheries, 10 (3): 325-337.
DESPREZ, D.; GÉRAZ, E.; HOAREAU, M.C.; MÉLARD, C.; BOSC, P. &BAROILLER, J.F. 2003a. Production of a high percentage of male offspring with a natural androgen, 11β-hydroxyandrostenedione (11βOHA4), in Florida red tilapia. Journal Aquaculture, 216: 55–65.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001c. Fate of methyltestosterone in the pond environment: detection of MT in pond soil from a CRSP site. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, pp. 79-82.
BEARDMORE, J.A.; MAIR, G.C. & LEWIS, R.I. 2001. Monosex male production in finfish as exemplified by tilapia: applications, problems, and prospects. Journal Aquaculture, 197: 283-301.
CORPORACIÓN COLOMBIA INTERNACIONAL (CCI). 2007. Sembramos a Colombia para el mundo. Cartilla sistemas agropecuarios. Encuesta nacional agropecuaria.
CRAVEDI, J.P.; DEOUS, G.; DEBRAUWER, L.; RAO, D. & PROME, D. 1993. Liquid chromatographic separation andgas-chromatographic mass-spectrometric determination of 17-alpha-methyltestosterone. Anal. Chim. Acta 275, 1–2: 89–94.
DABROWSKI, K.; RODRÍGUEZ, G.; ABIADO, M.A.; CONTRERAS-SÁNCHEZ, W. & CONTRERAS-GARCA, M. 2005. Use of phytochemicals as an environmentally friendly method to sex reverse nile tilapia. In: Burright, J; Flemming, C. and Egna, H. (Editors), Twenty-Second Annual Technical Report. Aquaculture CRSP, Oregon State University, 287-303.
DABROWSKI, K.; RODRÍGUEZ, G.; LEE, K.J.; ABIADO, M.A.G ; CONTRERAS-SÁNCHEZ, W.; MARQUEZCOUTURIER, G. & PHELPS, R. 2004. Studies on fate of methyltestosterone and its metabolites in tilapia and on the use of phytochemicals as an alternative method to produce a monosex population of tilapia. In: R. Harris, I. Courter, and H. Egna (Editors), Twenty-First Annual Technical Report. Aquaculture CRSP, Oregon State University, 53-60.
DESPREZ, D.; MÉLARD, C.; HOAREAU, M.C.; BELLEMÉNE, Y.; BOSC, P. & BAROILLER, J.F. 2003b. Inheritance of sex in two ZZ pseudofemale lines of tilapia Oreochromis aureus. Journal Aquaculture, 218: 131–140.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001b. Masculinization of tilapia by immersion in trenbolone acetate: detection of trenbolone acetate after treatment. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, 47-49.
DEVLIN, R.H. & NAGAHAMA, Y. 2002. Sex determination and sex differentiation in fish: an overview of genetic, physiological, and environmental influences. Journal Aquaculture, 208: 191–364.
DRUMMOND, C.D.; SOLIS-MURGAS, L.D. & VICENTINI, B. 2009. Growth and survival of tilapia Oreochromis niloticus (Linnaeus, 1758) submitted to different temperatures during the process of sex reversal. Journal Ciência e Agrotecnologia, 33(3): 895-902.
EZAZ, M.T. 2002. Analysis of sex determination in nile tilapia (Oreochromis niloticus L.): A molecular genetics approach: Thesis, University of Stirling, Stirling, Scotland, UK.
EZAZ, M.T.; MYERS, J.M.; POWELL, S.F.; McANDREW, B.J. & PENMAN, D.J.2004. Sex ratios in the progeny of androgenetic and gynogenetic YY male Nile tilapia, (Oreochromis niloticus) L. Journal Aquaculture, 232: 205–214.
FELIP, A.; PIFERRER, F.; CARRILLO, M. & ZANUY, S. 2001a. Comparison of the gonadal development and plasma levels of sex steroid hormones in diploid and triploid sea bass, Dicentrarchus labrax L. Journal of Experimental Zoology, 290: 384–395.
FELIP, A.; ZANUY, S.; CARRILLO, M. & PIFERRER, F. 2001b. Induction of triploidy and gynogenesis in teleost fish with emphasis on marine species. Journal Genetica, 111: 175–195.
FITZPATRICK, M.S.; CONTRERAS-SÁNCHEZ, W.M.; MILSTON, R.H.; HORNICK, FEIST, R.W. & SCHRECK, C.B. 1999. Effect of fish density on efficacy of masculinization by immersion in MDHT. In: K. McElwee, D. Burke, M. Niles, and H. Egna (Editors), Sixteenth Annual Technical Report. Pond Dynamics Aquaculture CRSP, Oregon State University, pp. 75-77.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001d. Fate of methyltestosterone in the pond environment: impact of MT-contaminated soil on tilapia sex differentiation. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, 83-86.
BISWAS, A.K.; MORITA, T.; YOSHIZAKI, G.; MAITA, M. & TAKEUCHI, T. 2005. Control of reproduction in Nile tilapia Oreochromis niloticus (L.) by photoperiod manipulation. Journal Aquaculture, 243: 229–239.
BONGERS, A.B.J.; VELD, E.P.C.; ABO-HASHEMA, K.; BREMMER, I.M.; EDING, E.H.; KOMEN, J. & RICHTER, C.J.J. 1994. Androgenesis in common carp (Cyprinus carpio L.) using UV irradiation in a synthetic ovarian fluid and heat shocks. Journal Aquaculture, 122: 119–132.
CONTRERAS-SÁNCHEZ, W.M.; FITZPATRICK, M.S. & SCHRECK, C.B. 2001a. Masculinization of tilapia by immersion in trenbolone acetate: growth performance of trenbolone acetate–immersed tilapia. In: A. Gupta, K. McElwee, D. Burke, J. Burright, X. Cummings, and H. Egna (Editors), Eighteenth Annual Technical Report. Pond Dynamics/Aquaculture CRSP, Oregon State University, 43-46.
BENFEY, T. 1999. The physiology and behavior of triploid fishes. Reviews in fisheries science, 7(1): 39–67.
CAMPOS-MENDOZA, A.; MCANDREWA, B.J.; COWARD, K. & BROMAGEA, N. 2004. Reproductive response of Nile tilapia (Oreochromis niloticus) to photoperiodic manipulation; effects on spawning periodicity, fecundity and egg size. Journal Aquaculture, 231: 299–314.
CHARO-KARISA, H.; REZKC, M.A.; BOVENHUISB, H. & KOMEN, H. 2005. Heritability of cold tolerance in Nile tilapia, Oreochromis niloticus, juveniles. Journal Aquaculture, 249: 115–123.
BEZAULT, E.; CLOTA, F.; DERIVAZ, M.; CHEVASSUS, B. & BAROILLER, J.F. 2007. Sex determination and temperature-induced sex differentiation in three natural populations of Nile tilapia (Oreochromis niloticus) adapted to extreme temperature conditions. Journal Aquaculture, 272 (1):3–16.
CAMPOS-RAMOS, R.; HARVEY, S.C.; McANDREW, B.J. & PENMAN D.J. 2003. An investigation of sex determination in the Mozambique tilapia, Oreochromis mossambicus, using synaptonemal complex analysis, FISH, sex reversal and gynogenesis. Journal Aquaculture, 221: 125–140.
CHAKRABORTY, S.B. & BANERJEE, S. 2009. Culture of monosex nile tilapia under different traditional and non-traditional methods in India. World Journal of Fish and Marine Sciences, 1 (3): 212-217.
CHAKRABORTY, S.B. 2010. Comparative Growth Performance of Mixed-Sex and Monosex Nile Tilapia Population in Freshwater Cage Culture System under Indian Perspective. International Journal of Biology,2 (1) .
CAL, R.M.; VIDAL, S.; MARTÍNEZ, P.; ÁLVAREZ–BLÁZQUEZ, B.; GÓMEZ, C.; & PIFERRER, F. 2006. Growth and gonadal development of gynogenetic diploid Scophthalmus maximus. Journal of Fish Biology, 68: 401–413.
BOMBARDELLI, R.A. & HAYASHI, C. 2005. Masculinização de larvas de tilápia do Nilo (Oreochromis niloticus L.) a partir de banhos de imersão com 17 α-metiltestosterona .R. Bras. Zootec., 34 (2): 365-372.
type_driver info:eu-repo/semantics/article
type_coar http://purl.org/coar/resource_type/c_6501
type_version info:eu-repo/semantics/publishedVersion
type_coarversion http://purl.org/coar/version/c_970fb48d4fbd8a85
type_content Text
publishDate 2011-01-01
date_accessioned 2012-01-01T00:00:00Z
date_available 2012-01-01T00:00:00Z
url https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/view/4588
url_doi https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/view/4588
issn 0123-3068
eissn 2462-8190
citationstartpage 156
citationendpage 172
url2_str_mv https://revistasojs.ucaldas.edu.co/index.php/boletincientifico/article/download/4588/4202
_version_ 1797158159628894208

Código QR

Estadísticas y Métricas Alternativas

Títulos similares