Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos

Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos

El sistema de producción porcina en Colombia, ha tenido un gran crecimiento en los últimos años, gracias a la implementación de técnicas como la inseminación artificial, la cual permite realizar un mejoramiento genético incrementando la productividad. Sin embargo, el modelo de manejo de los reproductores y donantes de semen no es el adecuado, siendo mantenidos en confinamiento, alimentados con dietas que no suplen los requerimientos de micronutrientes (Zn y Se) alterando la calidad seminal. Por lo anterior, se han propuesto modelos de suplementación con microminerales, tales como el Zinc y el Selenio. En el presente artículo se recopila, relaciona y discute, los diferentes efectos de la suplementación con estos microminerales, sobre los dis... Ver más

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Revista Colombiana de Ciencia Animal - RECIA

2027-4297

HERNANDEZ H, DARWIN

CARRILLO-GONZALEZ, DIEGO

SALAZAR, LUIS

UNIVERSIDAD DE SUCRE

10.24188/recia.v8.n0.2016.397

8

2016-12-01

400

410

Colombia

Espermatogénesis.

Reproducción animal

Microminerales

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spelling Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
LÓPEZ, M.; URBANO, A.; CÁRDENAS, M. 2012. Manual De Laboratorio Para El Análisis De Semen. OmniaScience. DOI: http://dx.doi.org/10.3926/oss.5
OMU, A.; AL-AZEMI, M.; AL-MAGHREBI, M.; MATHEW, C.; OMU, E.; KEHINDE, E.; ANIM, J.; ORIOWO, M.; MEMON, A. 2015. Molecular Basis For The Effects Of Zinc Deficiency On Spermatogenesis: An experimental Study In The Sprague-Dawley Rat Model. International Journal Of Urology 31 (1):57-64.
OLATUNBOSUN, S.; ADESEOLU, F. 2013. Seminal Plasma pH, Inorganic Phosphate, Total And Ionized Calcium Concentrations In The Assessment Of Human Spermatozoa Function. Journal Clinical And Diagnostic Research 7 (11):2483-2486.
OBERLENDER, G.; MURGAS, L.; ZANGERONIMO, M.; SILVA, A.; PEREIRA, L.; MUZZI, R. 2012. Comparison Of Two Different Methods For Evaluating Boar Semen Morphology. Archivos Medicina Veterinaria 44:201 – 205.
MYCJELKSA, M.; PATEL, A.; RIZANER, N.; MAZUREK, M.; KEUN, H.; PATEL, A.; GANAPATHY, V.; DJAMGOZ, M. 2009. Citrate Transport And Metabolism In Mamalian Cells. BioEssays 31:10-20.
MCDOWELL, R. 2003. Minerals In Animal And Human Nutrition. Second Edition. Ed. Elsevier. Reino De Los Países Bajos.
MARIN-GUZMAN, J.; MAHAN, D.; WHITMOYER, R. 2000. Effect Of Dietary Selenium And Vitamin E on The Ultraestructure And ATP Concentration Of Boar Spermatozoa, And The Efficacy Of Added Sodium Selenite In Extended Semen On. Journal Of Animal Science 78:1544-1550.
MARIN-GUZMAN, J.; MAHAN, D.; CHUNG, Y; PATE, L.; POPE, W. 1997. Effects Of Dietary Selenium And Vitamin E On Boars Performance And Tissue Responses, Semen Quality And Subsequent Fertilization Rates In Mature Gilts. Journal Of Animal Science 75:2994-3003.
MAL, G.; VYAS, S.; SRIVASAN, A.; PATIL, N.; PATHAK, M. 2015. Studies On Liquefaction Time And Proteins Involved In The Improvement Of Seminal Characteristics In Dromedary Camels (Camelus Dromedarius). Scientifica 2016.
LOVERCAMP, K.; STEWART, K.; LIN, X; FLOWER, W. 2013. Effect Of Dietary Selenium On Boar Sperm Quality. Animal Reproduction Science 138:268-275.
LÓPEZ, A. 2012. Fresh Boar Semen: Quality Control And Production. Universiteit Gent. Holanda. Disponible en: URL: http://www.rohh.ugent.be/v3/research/phd/2012/LopezRodriguez_A.pdf
PETROCELLI, H.; BATISTA, C.; GOSALVEZ J. 2015. Seasonal Variation In Sperm Characteristics In Southern Uruguay. Revista Brasileira de Zootecnia 44 (1):1-7.
LISHKO, P.; BOTCHKINA, I.; FEDORENKO, A., KIRICHOK, Y. 2010. Acid Extrusion From Human Spermatozoa Is Mediated by Flagellar Voltage-Gated Proton Channel. Cell 40 (3):327-337.
LECHOWSKY, J. 2009. Effect Of Vitamin C On Semen Quality Of Duroc Breed Boars And Their Crossbreds With Hampshire And Pietrain. ANNALES 27(2):12-18.
KUMAR, S; KUMAR, A.; ABDUL, W.; KUMAR, D. 2011. Importance Of Micro Minerals On Reproductive Livestock. Veterinary World 4 (5):230-233.
KUMAR, P.; YADAV, B.; YADAV, S. 2014. Effect Of Zinc And Selenium Supplementation On Semen Quality Of Barbari Bucks. Indian Journal Of Animal Research 48 (4):366-369.
KUMAR, N.; VERMA, R.; SINGH, L.; VARSHNEY, P.; DASS, R. 2006. Effect Of Different Levels And Sources Of Zinc Supplementation On Quantitative And Qualitative Semen Attributes And Serum Testosterone Level In Crossbred Cattle (Bos IndicusxBos Taurus) Bulls. Reproduction Nutrition Development 46: 662-675.
KUBUS, S.A. 2010. Inseminación artificial porcina. Manual práctico para profesionales, Madrid, España
KRISHNA, S.; MAJUMDAR, I.; GRISHIN, N. 2003. Structural Classification Of Zinc Fingers. Nucleic Acids Research 31 (2):532-550.
KOLODZIEJ, A.; JACYNO, E. 2004. Effect Of Dietary Selenium And Vitamin E Supplementation On Reproductive Performance Of Young Boars. Electronic Journal of Polish Agricultural Universities, Animal Husbandry 7 (1):68-75
KOCHMAN, K., GAJEWSKA, A.; KOLOWSKI, H.; MASIUKIEWICZ.; RSESZOTARSKA, B. 1992. Increased LH And FSH Release From The Anterior pituitary Of Ovaroectomized Rat, In Vivo, By Copper-, Nickel-, And Zinc-LHRH Complexes. Journal Of Inorganic Biochemistry 48:41-46.
KING’ORI, A. 2012. The Breeding Boar – Maximizing Productivity. International Journal of livestock Research 2(3):7-14.
OSREDKAR, J.; SUSTAR, N. 2011. Copper and Zinc, Biological Role and Significance Of Copper/Zinc Imbalance. Journal Of Clinical Toxicology. Disponible en URL: http://www.omicsonline.org/copper-and-zinc-biological-role-and-significance-of-copper-zincimbalance-2161-0495.S3-001.php?aid=3055
PLESSIS, S.; GOKUL, S.; AGARWAL, A. 2013. Semen Hyperviscosity: Causes, Consecuences And Cures. Frontiers In Bioscience 5: 224-231.
JACYNO, E.; KAW?CKA, M. 2002. Influence Of Organic Se + Vitamn E And Organic Se + Vitamin E On Reproductive Performance Of Young Boars. Agricultural And Food Science In Findland 2:175-174.
ZHAO, J.; DONG, Z.; HU, X.; LONG, Z.; LIU, Q.; BISHAO, S.; WANG, Q.; WU, Q.; LI, L. 2016. Zinc Levels In Seminal Plasma And Their Correlation With Male Infertility: A Systematic Review And Meta-analysis. Scientific Reports 2 (6):1-10.
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YATOO, M.; SAXENA, A.; DEEPA, P.; HABEAB, B.; DEVI, S.; JATAV, R.; DIMRI, U. 2013. Role Of Trace Elements In Animals: A Review. Veterinarian World 6:963-967.
ROY, B.; BAGHEL, R.; MOHANTY, T.; MONDAL, G. 2013. Zinc And Male Reproduction In Domestic Animals: A Review. Indian Journal Animal Nutrition 30 (4):339-350.
WILSON, M.; ROZEBOOM, K.; CRENSHAW, T. 2004. Boar Nutrition For Optimum Sperm Production. Disponible en: URL: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.519.2703&rep=rep1&type=pdf
VELÁSQUEZ, C. 2013. Factores Que Influyen En La Calidad y Principales Características Del Verraco. Tesis de Grado. Universidad Nacional José Faustino Sánchez Carrión. Huacho-Perú.
THONGCHALAM, K.; RUKKWAMSUL, T.; CHOMCHAI, S. 2012. Blood And Semen Selenium Concentrations And Semen Quality In Boars Supplemented With Organic Or Inorganic Selenium. Journal Of Animal And Veterinary Advances 11 (5):603-608.
TAREQ, K.; SHARMIN, Q.; TAKAGI, Y.; HAMANO, K.; SAWADA, T.; TSUJII, H. 2010. Effect Of Selenium And Vitamin E On Acrosome Reaction In Porcine Spermatozoa. Reproductive Medicine And Biology 9:73-81.
SOLIS, K. 2007. Evaluación De La Calidad De Semen De Verracos Utilizados Para Inseminación Artificial Consumiendo Spermax Forte®. Tesis de Grado. Universidad Zamorano. Honduras.
SMITH, O.; AKINBAMIJO, O. 2000. Micronutrients And Reproduction In Farm Animals. Animal reproduction Science 60-61:549-560.
SHANMUGAM, M.; PRAKASH, B.; KUMAR, E.; PANDA, K. 2015. Dietary Organic Zinc And Selenium supplementation Improves Semen Quality And Fertility In Layer Breeders. Indian Journal Of Animal Sciences 85 (2):202-204.
SHALINI, S.; BANSAL, M. 2008. Dietary Selenium De?ciency As Well As Excess Supplementation Induces Multiple Defects In Epididymal Spermatozoa: Understanding The Role Of Selenium In Male Fertility. International Journal Of Andrology 31:438–449.
SHALINI, S.; BANSAL, M. 2006. Role Of Selenium In Spermatogenesis: Differential Expression Of Cjun And Cfos In Tubular Cells Of Mice Testis 292 (1):27-38.
SALINAS, G. 2010. Bioquímica De La Selenocisteína, el 21er Aminoácido, y Rol De Las Selenoproteínas En La Salud Humana. Mensaje Bioquímico 34:121-133.
JONSSON, M.; LINSE, S.; FROHM, B.; LUNDWALL, A.; MALM, J. 2005. Semenogelins I And II Bind Zinc And Regulate The Activity Of Prostate-Speci?c Antigen. Biochemical Journal 387:447-453.
HORKÝ, P.; JAN?ÍKOVÁ, P.; ZEMAN, L. 2011. The Influence Of The Organic And Inorganic Form Of Zinc On Volume Ejaculate, Sperm, Concentration And Percentaje Of Pathologic Sperm. Research In Pigs Breeding (1) 5:22-27.
HOPPERT, M. 2011. Metalloenzymes. Reitner, J.; Thiel, V, Encyclopedia Of Geobiology. Springer, The Netherlands.
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Revista Colombiana de Ciencia Animal - RECIA
Universidad de Sucre
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Artículo de revista
Núm. s , Año 2016 : RECIA 8(Supl):DICIEMBRE
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AHSAN, U.; KAMRAN, Z.; SHMAD, S.; BABA, W.; RIZA, W.; IQBAL, Z. 2014. Role Of Selenium In Animal Reproduction – A review. Animal Reproduction Science 146:55-62.
Espermatogénesis.
Reproducción animal
Microminerales
HERNANDEZ H, DARWIN
CARRILLO-GONZALEZ, DIEGO
SALAZAR, LUIS
El sistema de producción porcina en Colombia, ha tenido un gran crecimiento en los últimos años, gracias a la implementación de técnicas como la inseminación artificial, la cual permite realizar un mejoramiento genético incrementando la productividad. Sin embargo, el modelo de manejo de los reproductores y donantes de semen no es el adecuado, siendo mantenidos en confinamiento, alimentados con dietas que no suplen los requerimientos de micronutrientes (Zn y Se) alterando la calidad seminal. Por lo anterior, se han propuesto modelos de suplementación con microminerales, tales como el Zinc y el Selenio. En el presente artículo se recopila, relaciona y discute, los diferentes efectos de la suplementación con estos microminerales, sobre los distintos mecanismos fisiológico-moleculares que afectan las principales características seminales del cerdo.
https://creativecommons.org/licenses/by-nc-sa/4.0/
https://revistas.unisucre.edu.co/index.php/recia/article/view/397
AL-ANI, N.; AL KAWAZ, U.; SAEED, T. 2015. Protective Influence Of Zinc On Reproductive Parameters In Male Rat Treated With Cadmiun. American Journal Of Medicine And Medical Sciences 5 (2):73-81.
BONET, S.; DOLORES, M.; PINART, E.; SANCHO S.; BUSALLEU E.; YESTE M.; CASAS, I. 2006. Biotecnológica De La Reproducción Porcina: Estado actual y futuro de las técnicas de análisis seminal.  Anaporc: revista de la Asociación de Porcinocultura Científica 6 (63):18-23.
HEIDEMAN, R.2013. The Molecular And Cellular Bases Of Physiological Regulation. KLEIN, B. Cunningham´s Textbook Of Veterinary Phisiology. 5 ed. Elsevier-Saunders, St. Louis, Missouri (USA).
GONZÁLEZ, F. 2001. Function Of Seminal Vesicles And Their Correlation On Male Fertility. Asian journal of Andrology 3:251-258.
FRUNZ?, I.; CERNESCU, H.; KORODOI G. 2008. Physical And Chemical Parameters Of Boar Sperm. Lucr?ri Stiin?ifice Medicin? Veterinar? 41: 631-640.
FRITZIE, C.; YAMAGUCHI, S.; MIURA, C.; OHTA, T.; TOZAWA, Y.; IWAI, T.; MIURA, T.2011. Tolerance Of Spermatogonia To Oxidative Stress Is Due To High Levels Of Zinc And Cu/Zn Superoxide Dismutase. PLoS ONE 6 (2):e16938
DE LAMIRANDE, E.; LAMONTHE, G. 2010. Levels Of Semenogelin In Human Spermatozoa Decrease During Capacitation: Involvement Of Reactive Oxygen Species And Zinc. Human Reproduction 25 (7):1619-1630.
CROXFORD, T.; MCCORMICK, N.; KELLEHER. 2011. Moderate Zinc Deficiency Reduces Testicular Zip6 And Zip10 Abundance And Impairs Spermatogenesis In Mice. The Journal Of Nutrition 141 (3):359-365.
CHEAH, Y.; YANG, W. 2011. Functions Of Essential Nutrition For High Quality Spermatogénesis. Advances In Bioscience And Biotechnology 2:182-197.
CARRIÓN, D.; MEDEL, P. 2001. Interacción Nutrición Reproducción En Ganado Porcino. XVII Curso De Especialización FEDNA. España.
BONET, S.; GARCÍA, E.; SEPÚLVEDA, L. 2013. The Boar Reproductive System. Págs. 65-107 en: BONET, S.; CASAS, I.; HOLT, W.; YESTE, M., Boar Reproduction. Fundamentals And New Biological Trends. Ed. Springer. Libro en Formato Electrónico.
BJÖRNDAHL, L.; KUVIST, U. 2010. Human Sperm Chromatin Stabilization: A Proposed Model Including Zinc Bridges. Molecular Human Reproduction 16 (1):23-29.
Publication
BANSAL, A.; BILASPURI, G. 2010. Impacts of Oxidative Stress and Antioxidants on Semen Functions. Veterinary Medicine International 2011:1-7.
AUDET. I.; LANFOREST. J.P.; MARTINEAU, G.P.; MATTE, J.J. 2004. Effect Of Vitamin Supplements On Soome Aspects Of Performance, Vitamin Status, And Semen Quiality In Boars. Journal Of Animal Science 82:626-633.
ARESTOVA, I.; ALEKSEEV, V. 2013. Morphological Analysis Of The Sperms Of breeding Boars Maintained on Nutritional Supplements. Global Veterinaria 11 (1):84-87.
AMIDU, N.; OWIREDU, W.; BEKOE, M.; QUAYE, L. 2012. The Impact Of Seminal Zinc And Fructose Concentration On Human Sperm Characteristic. Journal Of Medical And Biomedical Sciences 1 (1):14-20.
ANDRAVI, S. 2014. Applied Andrology In Water Buffalo. CHENOWETH, P.; LORTON, S. (eds), Animal Andrology. Theories And Applications. Ed. CAB International. Londres, Reino Unido.
Trace minerals
Journal article
The Colombian pig production system has grown considerably in recent years, thanks to the implementation of techniques such as artificial insemination, which allows genetic improvement to increase productivity. However, the management model of semen donors and donors is not adequate, being kept in confinement, fed diets that do not meet the requirements of micronutrients (Zn and Se) altering seminal quality. Therefore, supplementation models with microminerals, such as Zinc and Selenium, have been proposed. This article compiles, relates and discusses the different effects of supplementation with these microminerals on the different physiological-molecular mechanisms that affect the main seminal characteristics of the pig.
Effect of supplementation with zinc and selenium on seminal quality in pigs
Spermatogenesis.
Animal reproduction
400
https://doi.org/10.24188/recia.v8.n0.2016.397
2016-12-01
10.24188/recia.v8.n0.2016.397
2016-12-01T00:00:00Z
2027-4297
410
2016-12-01T00:00:00Z
https://revistas.unisucre.edu.co/index.php/recia/article/download/397/438
institution UNIVERSIDAD DE SUCRE
thumbnail https://nuevo.metarevistas.org/UNIVERSIDADDESUCRE/logo.png
country_str Colombia
collection Revista Colombiana de Ciencia Animal - RECIA
title Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
spellingShingle Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
HERNANDEZ H, DARWIN
CARRILLO-GONZALEZ, DIEGO
SALAZAR, LUIS
Espermatogénesis.
Reproducción animal
Microminerales
Trace minerals
Spermatogenesis.
Animal reproduction
title_short Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
title_full Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
title_fullStr Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
title_full_unstemmed Efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
title_sort efecto de la suplementación con zinc y selenio sobre la calidad seminal en cerdos
title_eng Effect of supplementation with zinc and selenium on seminal quality in pigs
description El sistema de producción porcina en Colombia, ha tenido un gran crecimiento en los últimos años, gracias a la implementación de técnicas como la inseminación artificial, la cual permite realizar un mejoramiento genético incrementando la productividad. Sin embargo, el modelo de manejo de los reproductores y donantes de semen no es el adecuado, siendo mantenidos en confinamiento, alimentados con dietas que no suplen los requerimientos de micronutrientes (Zn y Se) alterando la calidad seminal. Por lo anterior, se han propuesto modelos de suplementación con microminerales, tales como el Zinc y el Selenio. En el presente artículo se recopila, relaciona y discute, los diferentes efectos de la suplementación con estos microminerales, sobre los distintos mecanismos fisiológico-moleculares que afectan las principales características seminales del cerdo.
description_eng The Colombian pig production system has grown considerably in recent years, thanks to the implementation of techniques such as artificial insemination, which allows genetic improvement to increase productivity. However, the management model of semen donors and donors is not adequate, being kept in confinement, fed diets that do not meet the requirements of micronutrients (Zn and Se) altering seminal quality. Therefore, supplementation models with microminerals, such as Zinc and Selenium, have been proposed. This article compiles, relates and discusses the different effects of supplementation with these microminerals on the different physiological-molecular mechanisms that affect the main seminal characteristics of the pig.
author HERNANDEZ H, DARWIN
CARRILLO-GONZALEZ, DIEGO
SALAZAR, LUIS
author_facet HERNANDEZ H, DARWIN
CARRILLO-GONZALEZ, DIEGO
SALAZAR, LUIS
topicspa_str_mv Espermatogénesis.
Reproducción animal
Microminerales
topic Espermatogénesis.
Reproducción animal
Microminerales
Trace minerals
Spermatogenesis.
Animal reproduction
topic_facet Espermatogénesis.
Reproducción animal
Microminerales
Trace minerals
Spermatogenesis.
Animal reproduction
citationvolume 8
citationissue s
citationedition Núm. s , Año 2016 : RECIA 8(Supl):DICIEMBRE
publisher Universidad de Sucre
ispartofjournal Revista Colombiana de Ciencia Animal - RECIA
source https://revistas.unisucre.edu.co/index.php/recia/article/view/397
language Español
format Article
rights http://purl.org/coar/access_right/c_abf2
info:eu-repo/semantics/openAccess
https://creativecommons.org/licenses/by-nc-sa/4.0/
references LÓPEZ, M.; URBANO, A.; CÁRDENAS, M. 2012. Manual De Laboratorio Para El Análisis De Semen. OmniaScience. DOI: http://dx.doi.org/10.3926/oss.5
OMU, A.; AL-AZEMI, M.; AL-MAGHREBI, M.; MATHEW, C.; OMU, E.; KEHINDE, E.; ANIM, J.; ORIOWO, M.; MEMON, A. 2015. Molecular Basis For The Effects Of Zinc Deficiency On Spermatogenesis: An experimental Study In The Sprague-Dawley Rat Model. International Journal Of Urology 31 (1):57-64.
OLATUNBOSUN, S.; ADESEOLU, F. 2013. Seminal Plasma pH, Inorganic Phosphate, Total And Ionized Calcium Concentrations In The Assessment Of Human Spermatozoa Function. Journal Clinical And Diagnostic Research 7 (11):2483-2486.
OBERLENDER, G.; MURGAS, L.; ZANGERONIMO, M.; SILVA, A.; PEREIRA, L.; MUZZI, R. 2012. Comparison Of Two Different Methods For Evaluating Boar Semen Morphology. Archivos Medicina Veterinaria 44:201 – 205.
MYCJELKSA, M.; PATEL, A.; RIZANER, N.; MAZUREK, M.; KEUN, H.; PATEL, A.; GANAPATHY, V.; DJAMGOZ, M. 2009. Citrate Transport And Metabolism In Mamalian Cells. BioEssays 31:10-20.
MCDOWELL, R. 2003. Minerals In Animal And Human Nutrition. Second Edition. Ed. Elsevier. Reino De Los Países Bajos.
MARIN-GUZMAN, J.; MAHAN, D.; WHITMOYER, R. 2000. Effect Of Dietary Selenium And Vitamin E on The Ultraestructure And ATP Concentration Of Boar Spermatozoa, And The Efficacy Of Added Sodium Selenite In Extended Semen On. Journal Of Animal Science 78:1544-1550.
MARIN-GUZMAN, J.; MAHAN, D.; CHUNG, Y; PATE, L.; POPE, W. 1997. Effects Of Dietary Selenium And Vitamin E On Boars Performance And Tissue Responses, Semen Quality And Subsequent Fertilization Rates In Mature Gilts. Journal Of Animal Science 75:2994-3003.
MAL, G.; VYAS, S.; SRIVASAN, A.; PATIL, N.; PATHAK, M. 2015. Studies On Liquefaction Time And Proteins Involved In The Improvement Of Seminal Characteristics In Dromedary Camels (Camelus Dromedarius). Scientifica 2016.
LOVERCAMP, K.; STEWART, K.; LIN, X; FLOWER, W. 2013. Effect Of Dietary Selenium On Boar Sperm Quality. Animal Reproduction Science 138:268-275.
LÓPEZ, A. 2012. Fresh Boar Semen: Quality Control And Production. Universiteit Gent. Holanda. Disponible en: URL: http://www.rohh.ugent.be/v3/research/phd/2012/LopezRodriguez_A.pdf
PETROCELLI, H.; BATISTA, C.; GOSALVEZ J. 2015. Seasonal Variation In Sperm Characteristics In Southern Uruguay. Revista Brasileira de Zootecnia 44 (1):1-7.
LISHKO, P.; BOTCHKINA, I.; FEDORENKO, A., KIRICHOK, Y. 2010. Acid Extrusion From Human Spermatozoa Is Mediated by Flagellar Voltage-Gated Proton Channel. Cell 40 (3):327-337.
LECHOWSKY, J. 2009. Effect Of Vitamin C On Semen Quality Of Duroc Breed Boars And Their Crossbreds With Hampshire And Pietrain. ANNALES 27(2):12-18.
KUMAR, S; KUMAR, A.; ABDUL, W.; KUMAR, D. 2011. Importance Of Micro Minerals On Reproductive Livestock. Veterinary World 4 (5):230-233.
KUMAR, P.; YADAV, B.; YADAV, S. 2014. Effect Of Zinc And Selenium Supplementation On Semen Quality Of Barbari Bucks. Indian Journal Of Animal Research 48 (4):366-369.
KUMAR, N.; VERMA, R.; SINGH, L.; VARSHNEY, P.; DASS, R. 2006. Effect Of Different Levels And Sources Of Zinc Supplementation On Quantitative And Qualitative Semen Attributes And Serum Testosterone Level In Crossbred Cattle (Bos IndicusxBos Taurus) Bulls. Reproduction Nutrition Development 46: 662-675.
KUBUS, S.A. 2010. Inseminación artificial porcina. Manual práctico para profesionales, Madrid, España
KRISHNA, S.; MAJUMDAR, I.; GRISHIN, N. 2003. Structural Classification Of Zinc Fingers. Nucleic Acids Research 31 (2):532-550.
KOLODZIEJ, A.; JACYNO, E. 2004. Effect Of Dietary Selenium And Vitamin E Supplementation On Reproductive Performance Of Young Boars. Electronic Journal of Polish Agricultural Universities, Animal Husbandry 7 (1):68-75
KOCHMAN, K., GAJEWSKA, A.; KOLOWSKI, H.; MASIUKIEWICZ.; RSESZOTARSKA, B. 1992. Increased LH And FSH Release From The Anterior pituitary Of Ovaroectomized Rat, In Vivo, By Copper-, Nickel-, And Zinc-LHRH Complexes. Journal Of Inorganic Biochemistry 48:41-46.
KING’ORI, A. 2012. The Breeding Boar – Maximizing Productivity. International Journal of livestock Research 2(3):7-14.
OSREDKAR, J.; SUSTAR, N. 2011. Copper and Zinc, Biological Role and Significance Of Copper/Zinc Imbalance. Journal Of Clinical Toxicology. Disponible en URL: http://www.omicsonline.org/copper-and-zinc-biological-role-and-significance-of-copper-zincimbalance-2161-0495.S3-001.php?aid=3055
PLESSIS, S.; GOKUL, S.; AGARWAL, A. 2013. Semen Hyperviscosity: Causes, Consecuences And Cures. Frontiers In Bioscience 5: 224-231.
JACYNO, E.; KAW?CKA, M. 2002. Influence Of Organic Se + Vitamn E And Organic Se + Vitamin E On Reproductive Performance Of Young Boars. Agricultural And Food Science In Findland 2:175-174.
ZHAO, J.; DONG, Z.; HU, X.; LONG, Z.; LIU, Q.; BISHAO, S.; WANG, Q.; WU, Q.; LI, L. 2016. Zinc Levels In Seminal Plasma And Their Correlation With Male Infertility: A Systematic Review And Meta-analysis. Scientific Reports 2 (6):1-10.
YATOO, M.; SAXENA, A.; DEEPA, P.; HABEAB, B.; DEVI, S.; JATAV, R.; DIMRI, U. 2013. Role Of Trace Elements In Animals: A Review. Veterinarian World 6:963-967.
ROY, B.; BAGHEL, R.; MOHANTY, T.; MONDAL, G. 2013. Zinc And Male Reproduction In Domestic Animals: A Review. Indian Journal Animal Nutrition 30 (4):339-350.
WILSON, M.; ROZEBOOM, K.; CRENSHAW, T. 2004. Boar Nutrition For Optimum Sperm Production. Disponible en: URL: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.519.2703&rep=rep1&type=pdf
VELÁSQUEZ, C. 2013. Factores Que Influyen En La Calidad y Principales Características Del Verraco. Tesis de Grado. Universidad Nacional José Faustino Sánchez Carrión. Huacho-Perú.
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