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Sexual maturity and spermatogenesis under heat stress in the bovine

Published online by Cambridge University Press:  02 September 2010

Jorge de Alba
Affiliation:
Technical Advisor in Livestock, Banco de México, México 1, D.F., formerly Head, Department of Animal Industry, IICA, Turrialba, Costa Rica.
Simón Riera‡
Affiliation:
Graduate Assistant, IICA, Turrialba, Costa Rica
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Extract

Results are presented of an investigation in which 10 bull calves were subjected to heat stress in a climatic chamber from 26 weeks of age to the age of puberty. A similar group of 8 calves sired by the same bull were simultaneously subjected to ambient temperatures in another chamber. Maximum temperature in the hot chamber was 35–36° C. for 8 hours daily and maximum temperature in the temperate chamber was 27° C.

Observations were made on weight and age at puberty and characteristics of the first five ejaculates obtained from each bull. Post-mortem examinations included: carcass weight, weight of all genital organs, measurement of sperm reserves in testicles and epididymides and histological observations of the seminiferous tubules. The results indicated that the hot temperature exposure retarded fertility but that libido was exhibited at essentially the same intensity by both groups. The quality of semen obtained and the concentration of the spermatozoa were much lower in the bulls subjected to the hot environment during their growth period prior to puberty. The poor quality of semen was associated with impaired spermatogenesis.

It is recommended that in all fertility studies conducted with exotic breeds in the tropics, semen of known uniform quality be used. Natural service should not be used.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1966

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References

REFERENCES

Almquist, J. O., & Amann, R. P., 1961. Reproductive capacity of dairy bulls. II. Gonadal and extra-gonadal sperm reserves as determined by direct counts and depletion trials; dimensions and weight of genitals. J. Dairy Sci., 44: 441668.CrossRefGoogle Scholar
Amann, R. P., & Almquist, J. O., 1961. Reproductive capacity of dairy bulls. I. Technique for direct measurement of gonadal and extra-gonadal sperm reserves. J. Dairy Sci., 44: 441537.CrossRefGoogle Scholar
Anderson, J., 1945. Seasonal variation in the reproductive capacity of the bull. J. agric. Sci., 35: 35184.Google Scholar
Bodisco, V., & Mazzari, G., 1962. Eficiencia reproductiva de las vacas Criollas y Pardo Suizas en el Centro de Investigaciones Agronómicas. Boletín Técnico No. 14. MAC. CIA., Maracay, Venezuela.Google Scholar
Bonsma, J. C., 1940. The influence of climatological factors of cattle. Department Agric. S. Afr., reprint no. 223.Google Scholar
Carmo, J. Do, & Batista, C., 1961. Estudio sobre o comportamento de raca Holandesa var. Malhada de Preto, na Fazenda Experimental de Criaçao ‘Santa Monica’, Barao de Juparana, Estado de Río de Janeiro. Brasil, Instituto de Zootecnia (I.N.P.A.M.A.). Boletín No. 29.Google Scholar
Casady, R. B., Myers, R. M., & Legates, J. E., 1953. The effect of exposure to high ambient temperature on spermatogenesis in the dairy bull. J. Dairy Sci., 36: 36–14.CrossRefGoogle Scholar
Crew, F. A. E., 1922. A suggestion as to the cause of the aspermatic condition of the imperfectly descended testis. J. Anat., 56: 5698.Google Scholar
Johnston, J. E., & Branton, C., 1953. Effect of seasonal climatic changes on certain physiological reactions, semen production and fertility of dairy bulls. J. Dairy Sci., 36: 36934.CrossRefGoogle Scholar
Mercier, E., & Salisbury, G. W., 1946. The effects of season on the spermatogenic activity and fertility of dairy bulls used in artificial insemination. Cornell yet., 36: 36301.Google ScholarPubMed
Moore, C. R., 1922. Cryptorchidism experimentally produced. Anat. Rec., 24: 24383.Google Scholar
Ortavant, R., 1959. Spermatogenesis and morphology of the spermatozoon. In Cole, H. H. and Cupps, P. T. Reproduction in Domestic Animals. N.Y. Academic Press, vol. 2, pp. 150.Google Scholar
Schaffer, H. E., & Almquist, J. O., 1948. Vital staining of bovine spermatozoa with an eosin-aniline blue staining mixture. J. Dairy Sci., 31: 31677.Google Scholar
Stott, G. H., & Williams, R. J., 1962. Causes of low breeding efficiency in dairy cattle associated with seasonal high temperatures. J. Dairy Sci., 45: 451369.CrossRefGoogle Scholar
Vohnout, K., 1962. Efectos de la fibra cruda en la nutrición de los bovinos en ambientes cálido-húmedos. Unpublished Thesis. IICA, Turrialba, Costa Rica.Google Scholar