Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-24T08:27:28.508Z Has data issue: false hasContentIssue false
  • English
  • Français

Specific features of in vivo and in vitro sperm storage in birds

Published online by Cambridge University Press:  01 November 2007

E. Blesbois  and
J. P. Brillard
E. Blesbois*
Affiliation:
INRA 0085 UMR PRC INRA-CNRS-University François Rabelais-Haras Nationaux, 37380 Nouzilly, France
J. P. Brillard
Affiliation:
INRA 0085 UMR PRC INRA-CNRS-University François Rabelais-Haras Nationaux, 37380 Nouzilly, France
*
E-mail: [email protected]
Get access

Abstract

This review focuses on some of the main features of sperm selection and storage in birds mainly on the basis of studies performed in poultry species, with emphasis on the initial selection of sperm at the female vagina level prior to migration towards the sperm storage tubules. Sperm originating from low-quality males or subjected to inappropriate in vitro storage conditions are rapidly discarded, resulting in impaired fertility in corresponding flocks. In the absence of accessible and appropriate technology for matching the ‘storing’ potential of sperm in the oviduct, conditions for prolonged sperm storage under a liquid (through the use of semen extenders) or a solid state (cryopreservation) have received only limited attention, despite their potential interest to facilitate male and female management in poultry flocks. Despite this, technology for short-term liquid storage is currently used in turkeys, guinea fowl and muscovy ducks and also in progress in chickens. In addition, technology for cryopreservation of avian semen has become available for some species (chicken, goose) to facilitate the management of genetic resources, including the preservation of rare and economically important breeds.

Keywords

cryopreservationin vitro storagespermsperm selectionsperm storage tubules
Type
Full Paper
Information
animal , Volume 1 , Issue 10 , November 2007 , pp. 1472 - 1481
Copyright
Copyright © The Animal Consortium 2007

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Agre, P, Preston, GM, Smith, BL, Jung, JS, Raina, S, Moon, C, Gugino, WB, Nielsen, S 1993. Aquaporin CHIP the archetypal molecular water channel. American Journal Physiology 265, F463F476.Google Scholar
Allen, TE, Grigg, GW 1957. Sperm transport in the fowl. Australian Journal of Agricultural Research 8, 788789.Google Scholar
Ansah, G, Buckland, R 1982. Genetic variation in fowl semen cholesterol and phospholipids levels and the relationship of these lipids with fertility. Poultry Science 61, 623637.CrossRefGoogle Scholar
Bakst, MR 1981. Sperm recovery from oviducts of turkeys at known intervals after insemination and oviposition. Journal of Reproduction and fertility 62, 159164.Google Scholar
Bakst, MR, Wishart, G, Brillard, JP 1994. Oviducal sperm selection, transport and storage in poultry. Poultry Science Reviews 5, 117143.Google Scholar
Blackburn, HD 2006. The national animal germplasm programme: challenges and opportunities for poultry genetic resources. Poultry Science 85, 210215.Google Scholar
Blanco, JM, Gee, G, Wildt, DE, Donogue, AM 2000. Species variation in osmotic, cryoprotectant, and cooling rate tolerance in poultry, eagle, and peregrine falcon spermatozoa. Biology of Reproduction 63, 11641171.Google Scholar
Blesbois, E, Mauger, I 1989. Zinc content of fowl seminal plasma and its effects on spermatozoa after storage at 4°C. British Poultry Science 30, 677685.Google Scholar
Blesbois, E. 1990. The function of seminal plasma in the storage of fowl spermatozoa at 4°C. In Control of fertility in domestic birds, Les Colloques de l’INRA 54 (ed. Brillard JP), pp. 121134.INRA, Versailles.Google Scholar
Blesbois, E, Hermier, D 1990. Effects of high-density lipoproteins on storage at 4°C of fowl spermatozoa. Journal of Reproduction and Fertility 90, 473482.Google Scholar
Blesbois, E, Caffin, JP 1992. ‘Serum like’ albumin of fowl seminal plasma and effects of albumin on fowl spermatozoa stored at 4°C. British Poultry Science 33, 663670.CrossRefGoogle Scholar
Blesbois, E, de Reviers, M 1992. Effect of different fractions of seminal plasma on the fertilising ability of fowl spermatozoa stored in vitro. Journal of Reproduction and Fertility 95, 263268.CrossRefGoogle ScholarPubMed
Blesbois, E, Grasseau, I, Blum, JC 1993. Effects of vitamin E on fowl semen storage at 4°C. Theriogenology 39, 771779.CrossRefGoogle Scholar
Blesbois, E, Lessire, M, Hermier, D 1997. Effect of cryopreservation and diet on lipids of fowl sperm and fertility. Poultry and Avian Biology Reviews 8, 149154.Google Scholar
Blesbois, E, Grasseau, I, Hermier, D 1999. Changes in lipid content of fowl spermatozoa after liquid storage at 2 to 5°C. Theriogenology 52, 325334.Google Scholar
Blesbois, E 2003. Semen storage in turkeys: current status and future practice. In Fifth international symposium on turkey reproduction, pp. 96100. Raleigh, USA.Google Scholar
Blesbois, E, Hermier, D 2003. Specificity of fatty acids in domestic birds spermatozoa. In Phospholipids and male fertility (ed. De Vriese), pp. 7385. American Oil Chemist’s Society Press, Champaign, USA.Google Scholar
Blesbois, E, Grasseau, I, Seigneurin, F 2005. Membrane fluidity and the ability to survive cryopreservation in domestic bird spermatozoa. Reproduction 129, 371378.Google Scholar
Blesbois, E, Dubos, F, Grasseau, I, Richard, MM, Roman, Y, Saint Jalme, M, Seigneurin, F 2006a. Cryopreservation of avian spermatozoa and predictors of ability to freezing. Les Actes du BRG 6, 415431.Google Scholar
Blesbois, E, Brillard, JP, Favennec, JL, Gorvel, PA, Jamenot, P, Seigneurin, F 2006b. Artificial insemination in poultry. Reproduction in Domestic Animals 41, 298.Google Scholar
Blesbois, E 2007. Current status in avian semen cryopreservation. World’s Poultry Science Journal 63, 213222.Google Scholar
Blesbois, E, Seigneurin, F, Grasseau, I, Limouzin, C, Besnard, J, Gourichon, D, Coquerelle, G, Tixier-Boichard, M 2007. Semen cryopreservation for ex-situ management of genetic diversity in chicken. Poultry Science 86, 555564.CrossRefGoogle ScholarPubMed
Birkhead, TR, Brillard, JP 2007. Reproductive isolation in birds: postcopulatory prezygotic barriers. Trends in Ecology and Evolution 22, 266272.Google Scholar
Bradley F 1982. The ultrastructure and function of the primary sperm storage sites in the turkey hen, as affected by season and insemination. PhD thesis, Davis (cal.).Google Scholar
Bréque, C, Surai, P, Brillard, JP 2003. Roles of antioxidants on prolonged storage of avian spermatozoa in vivo and in vitro. Molecular Reproduction and Development 66, 314323.Google Scholar
Bréque, C, Surai, P, Brillard, JP 2006. Antioxidant status of the lower oviduct in the chicken varies with age and dietary vitamin E supplementation. Molecular Reproduction and Development 73, 10451051.CrossRefGoogle Scholar
Brillard JP 1981. Influence de la photopériode quotidienne sur le développement des testicules et sur l’établissement de la spermatogenèse chez la pintade. Thèse de Doctorat, Université de Tours, France.Google Scholar
Brillard, JP, MacDaniel, GR, de Reviers, M, Drane, JW 1989. Expression of several traits of fertility in young and old dwarf broiler breeder hens inseminated with duplicate doses of semen. Poultry Science 68, 558563.Google Scholar
Brillard, JP, Bakst, MR 1990. Quantification of spermatozoa in the sperm storage tubules of turkey hens and its relation to sperm numbers in the perivitelline layer of eggs. Biology of Reproduction 43, 271275.Google Scholar
Brillard, JP 1993. Sperm storage and transport following natural mating and artificial insemination. Poultry Science 72, 923928.Google Scholar
Brillard, JP, Beaumont, C, Scheller, MF 1998. Physiological responses of hens divergently selected on the number of chicks obtained from a single insemination. Journal of Reproduction and Fertility 114, 111117.Google Scholar
Briskie, JV, Montgomerie, R 1993. Patterns of sperm storage in relation to sperm competition in passerine birds. The Condor 95, 442454.CrossRefGoogle Scholar
Briskie, JV 1996. Lack of sperm storage by female migrants and the significance of copulations en route. The Condor 98, 414417.Google Scholar
Burrows, W, Quinn, J 1937. The collection of spermatozoa from the domestic fowl and turkey. Poultry Science 16, 1924.Google Scholar
Chalah, T, Seigneurin, F, Blesbois, E, Brillard, JP 1999. In vitro comparison of fowl sperm viability in ejaculates frozen by three different techniques and relationship with subsequent fertility in vivo. Cryobiology 39, 185191.Google Scholar
Christensen VL 1995. Diluents dilution and storage of poultry semen for six hours. In Proceedings of First International Symposium on the Artificial Insemination of Poultry (ed. MR Bakst and GJ Wishart), pp. 90–106.Google Scholar
Clarke, RN, Sexton, TJ, Ottinger, MA 1982. Effects of holding temperature on storage time, on respiratory rate, motility and fertility of chicken and turkey semen. Poultry Science 61, 19121917.Google Scholar
De Reviers M 1968. Détermination de la durée des processus spermatogénetiques chez le coq à l’aide de thymidine tritiée. VIe Congres International de Reproduction Animale et Insemination Artificielle Paris 1, pp. 183–185.Google Scholar
De Reviers, M 1980. Photoperiodism, testis development and sperm production in the fowl. International Congress on Animal Reproduction, Madrid 9, 519526.Google Scholar
Dimitrov, SG, Atanasov, VK, Surai, PF, Denev, SA 2007. Effect of organic selenium on turkey semen quality during liquid storage. Animal Reproduction Science 100, 311317.Google Scholar
Dohner, JV 2001. The encyclopaedia of historic and endangered livestock and poultry breeds. Yale University Press, New Haven CT, USA.Google Scholar
Donoghue, AM, Donoghue, DJ 1997. Effects of water- and lipid-soluble antioxidants on turkey sperm viability, membrane integrity and motility during liquid storage. Poultry Science 76, 14401445.Google Scholar
Donoghue, AM, Walker-Simmons, MK 1999. The influence of wheat dehydration-induced proteins on the function of turkey spermatozoa after twenty four hours in vitro storage. Poultry Science 78, 235241.Google Scholar
Donoghue, AM, Wishart, GJ 2000. Storage of poultry semen. Animal Reproduction Science 62, 213232.Google Scholar
Douard, V, Hermier, D, Blesbois, E 2000. Changes in turkey semen lipids during liquid in vitro storage. Biology of Reproduction 63, 14501456.Google Scholar
Douard, V, Hermier, D, Magistrini, M, Blesbois, E 2003. Reproductive period affects lipid composition and quality of fresh and stored spermatozoa in turkeys. Theriogenology 59, 753764.CrossRefGoogle ScholarPubMed
Douard, V, Gassama-Diene, A, Hermier, D, Blesbois, E 2004a. Activity of phospholipases A and lysophospholipase in turkey semen and oviducal fluid. Poultry Science 83, 13851393.Google Scholar
Douard, V, Hermier, D, Magistrini, M, Labbé, C, Blesbois, E 2004b. Impact of composition changes in the storage medium on lipids and quality of turkey spermatozoa. Theriogenology 61, 113.Google Scholar
Douard, V, Hermier, D, Magistrini, M, Blesbois, E 2005. Role of seminal plasma in damage to turkey spermatozoa during in vitro storage. Theriogenology 63, 126137.CrossRefGoogle ScholarPubMed
El Zayat, S, Van Thienhoven, A 1960. The effect of glutamate on rooster sperm metabolism and morphology. Poultry Science 39, 12471248.Google Scholar
Etches, RJ 1996. Reproduction in poultry. CAB International, Wallingford, UK.Google Scholar
Fewlass, TA, Sexton, TJ, Shaffner, CS 1975. Effects of various levels of egg yolk, milk, seminal plasma on the respiration and reproductive efficiency of chicken spermatozoa. Poultry Science 54, 346349.Google Scholar
Froman, D 2003. Deduction of a model for sperm storage in the oviduct of the domestic fowl (Gallus domesticus). Biology of Reproduction 69, 248253.CrossRefGoogle Scholar
Fujii, S 1963. Histological and histochemical studies on the oviduct of the domestic fowl with special reference to the region of utero-vaginal junction. Archives of Histology and Cytology 23, 447449.Google Scholar
Giesen, AF, Sexton, TJ 1983. Beltsville poultry semen extender. 9. Effect of storage temperature on turkey semen held eighteen hours. Poultry Science 62, 13051311.Google Scholar
Gilbert, AB, Reynolds, ME, Lorenz, FW 1968. Distribution of spermatozoa in the oviduct and fertility in domestic birds. Histochemistry of the uterovaginal sperm-host glands of domestic hen. Journal of Reproduction and Fertility 16, 433444.Google Scholar
Goodrich-Smith, M, Marquez, BJ 1977. A technique for studying the utero-vaginal sperm storage tubules. Poultry Science 56, 1718.Google Scholar
Halliwell, B, Gutteridge, JMC 1999. Free radicals in biology and medicine. Oxford University Press, Oxford.Google Scholar
Hammerstedt, RH, Graham, JK 1992. Cryopreservation of poultry sperm: the enigma of glycerol. Cryobiology 29, 2638.Google Scholar
Hammerstedt, RH 1995. Cryopreservation of poultry semen – current status and economics. In Proceedings of the first international symposium on the artificial insemination of poultry (ed. M.R. Bakst and GJ Wishart), pp. 229250.Poultry Science Association, Savoy, Illinois, USA.Google Scholar
Hulet, RM, Bakst, MR, Brillard, JP 1995. Effect of filtering turkey semen during collection on fertility and hatchability of turkeys hens. Poultry Science 74, 46.Google Scholar
Iaffaldano, N, Meluzzi, A 2003. Effects of dialysis on quality characteristics of turkey semen during liquid storage. Theriogenology 60, 421427.Google Scholar
Jasper, AW 1950. Storage studies of diluted cock semen for use in artificial insemination of chickens. Poultry Science 34, 11131117.Google Scholar
Kotlowska, M, Dietrich, G, Wojtczak, M, Karol, H, Ciereszko, A 2007. Effects of liquid storage on amidase activity, DNA fragmentation and motility of turkey spermatozoa. Theriogenology 67, 276286.Google Scholar
Krueger, K 2003. Tom management – past, present and future. In Fifth international symposium on turkey reproduction, pp. 7583. Raleigh, USA.Google Scholar
Lake, PE, Ravie, O 1982. Effect on fertility of storing turkey semen for 24 hours at 10°C in fluids of different pH. British Poultry Science 23, 4147.Google Scholar
Lake, PE 1984. The male in reproduction. In Physiology and biochemistry of the domestic fowl, vol. 5 (ed. BM Freeman), pp. 381405. Academic Press, London.Google Scholar
Lake, PE 1986. The history and future of cryopreservation of avian germ plasm. Poultry Science 65, 115.CrossRefGoogle ScholarPubMed
Lorenz, FW 1950. Onset and duration of fertility in turkeys. Poultry Science 29, 2026.Google Scholar
Long, JA 2006. Avian semen cryopreservation: what are the biological challenges? Poultry Science 85, 232236.Google Scholar
Luyet, BJ, Gehenio, PM 1940. Life and death at low temperatures. Biodynamica, Normandy, MO, USA.Google Scholar
Mc Indoe, WM, Lake, PE 1973. Proceedings: aspects of energy metabolism of avian spermatozoa. Journal of Reproduction and Fertility 35, 592593.Google Scholar
Marchand, CR, Gomot, L, de Reviers, M 1977. Etude par autoradiographie et marquage à la thymidine tritiée de la durée de la spermatogénèse du canard de barbarie (Cairina moschata L.). Comptes Rendus des Séances de la Société de Biologie et de ses Filiales 171, 931934.Google Scholar
Massip, A, Leibo, S, Blesbois, E 2004. Cryobiology and the breeding of domestic animals. In Life in the frozen state (ed. E Benson, B Fuller and N Lane), pp. 371392. Taylor and Francis Group, London.CrossRefGoogle Scholar
Nishimura, H, Fan, Z 2002. Sodium and water transport and urine concentration in avian kidney. Symposia of the Society for Experimental Biology 54, 129151.Google Scholar
Noirault, J, Brillard, JP, Bakst, MR 2006. Spermatogenesis in the turkey (Meleagris gallopavo): quantitative approach in immature and adult males subjected to various photoperiods. Theriogenology 65, 845859.Google Scholar
Petite, JN 2006. Avian germplasm preservation: embryonic stem cells or primordial germ cell? Poultry Science 85, 237242.Google Scholar
Reddish, JM, Kirby, JD, Anthony, NB 1996. Analysis of poultry fertility data. 3. Analysis of the duration of fertility in naturally mating Japanese quail. Poultry Science 75, 135139.Google Scholar
Reddy, RP, Sadjadi, M 1990. Selection growth and semen traits in the poultry industry. What can we expect in the future. In Control of fertility in domestic birds (ed. JP Brillard), pp. 4760. Institut Nationale de Recherche Agronomique, Tours, France.Google Scholar
Renden, JA, May, EB, Benoff, FH 1981. Histochemistry of uterovaginal sperm-host glands in Japanese quail (Coturnix coturnix japonica) with reference to the period of oviposition. Poultry Science 60, 25292535.Google Scholar
Scott, TW, White, IG, Annison, EF 1962. Glucose and acetate metabolism by ram, bull, dog and fowl spermatozoa. Biochemical Journal 83, 398404.Google Scholar
Seigneurin, F, Blesbois, E 1995. Effects of the freezing rate on viability and fertility of frozenthawed fowl spermatozoa. Theriogenology 43, 13511358.Google Scholar
Sexton, TJ 1974. Oxidative and glycolytic activity of chicken and turkey spermatozoa. Comparative Biochemistry and Physiology B 48, 5965.CrossRefGoogle Scholar
Sexton, TJ 1977. A new poultry semen extender. 1. Effect of extension on the fertility of chicken semen. Poultry Science 56, 14431446.Google Scholar
Sexton, TJ 1978. A new poultry extender. 3. Effect of storage conditions on the fertility capacity of chicken semen stored at 5°C. Poultry Science 57, 285289.Google Scholar
Sexton, TJ 1982. Beltsville poultry semen extender. 6. Holding turkey semen for six hours at 15°C. Poultry Science 61, 12021208.Google Scholar
Sittmann, K, Abplanalp, H 1965. Duration and recovery of fertility in Japanese quail (Coturnix coturnix japonica). British Poultry Science 6, 245250.Google Scholar
Steele MG, Wishart GJ, 1992a. Characterisation of a mechanism impeding sperm transport through the vagina of the chicken. Proceedings 12th international congress in animal reproduction, The Hague, vol. 3, pp. 1593–1595.Google Scholar
Steele, MG, Wishart, GJ 1992b. Evidence for a species-specific barrier to sperm transport within the vagina of chicken hens. Theriogenology 38, 11071114.Google Scholar
Surai, PF, Wishart, GJ 1996. Poultry artificial insemination technology in the countries of the former USSR. World’s Poultry Science Journal 52, 2743.Google Scholar
Surai, PF, Blesbois, E, Grasseau, I, Chalah, T, Brillard, JP, Wishart, GJ, Cerolini, S, Sparks, NH 1998. Fatty acid composition, glutathione peroxidase and superoxide dismutase activity and total antioxidant activity of avian semen. Comparative Biochemistry and Physiology B. Biochemistry and Molecular Biology 120, 527533.Google Scholar
Surai, PF 2002. Natural antioxidants in avian nutrition and reproduction. Nottingham University Press, Nottingham, UK.Google Scholar
Tai, JJ, Chen, JC, Wu, KC, Wang, DS, Tai, C 2001. Cryopreservation of gander semen. British Poultry Science 42, 384388.Google Scholar
Tajima, A 2002. Production of germ-line chimeras and their application in domestic chicken. Avian and Poultry Biology Review 13, 1530.Google Scholar
Thurston, TJ 1995. Storage of poultry semen above freezing for twenty-four to forty-eight hours. In Proceedings first international symposium on the artificial insemination of poultry (ed. MR Bakst and GJ Wishart), pp. 107122.Google Scholar
Tselutin, K, Seigneurin, F, Blesbois, E 1999. Comparison of cryoprotectants and methods of cryopreservation of fowl spermatozoa. Poultry Science 78, 586590.Google Scholar
Van de Lavoir, MC, Diamond, JH, Leighton, PA, Mather-Love, C, Heyer, BS, Bradshaw, R, Kerchner, A, Hooi, LT, Gessaro, TM, Swanberg, SE, Delany, ME, Etches, RJ 2006. Germline transmission of genetically modified primordial germ cells. Nature 441, 76769.Google Scholar
Williams, K, Frayne, J, Hall, L 1998. Expression of extracellular glutathione peroxidase type 5 (GPX5) in the rat male reproductive tract. Molecular Human Reproduction 4, 841848.Google Scholar
Wishart, G 1984. Metabolism of fowl and turkey spermatozoa at low temperatures. Journal of Reproduction and Fertility 70, 145149.Google Scholar
Wishart, GJ, Carver, L 1984. Glycolytic enzymes of fowl and turkey spermatozoa. Comparative Biochemistry and Physiology B 79, 453455.Google Scholar
Wishart, GJ 1985. Quantitation of the fertilising ability of fresh compared with frozen and thawed fowl spermatozoa. British Poultry Science 26, 375380.Google Scholar
Woelders, H, Zuilberg, CA, Hiemstra, SJ 2006. Animal genetic resources conservation in the Netherlands and Europe: poultry perspective. Poultry Science 85, 216222.Google Scholar
Zaniboni, L, Bakst, MR 2004. Localization of aquaporins in the sperm storage tubules in the turkey oviduct. Poultry Science 83, 12091212.Google Scholar