Hostname: page-component-77c89778f8-m42fx Total loading time: 0 Render date: 2024-07-22T22:08:31.080Z Has data issue: false hasContentIssue false
  • English
  • Français

Oestrous cycle synchronization in Zebu cattle and its use in cattle production and management in the tropics*

Published online by Cambridge University Press:  27 March 2009

W. Jöchle ,
M. A. Hidalgo ,
T. Giménez  and
R. Garcia C.
W. Jöchle
Affiliation:
Institute of Veterinary Science, Syntex ResearchPalo Alto, California, U.S.A.
M. A. Hidalgo
Affiliation:
Institute of Veterinary Science, Syntex ResearchPalo Alto, California, U.S.A.
T. Giménez
Affiliation:
Institute of Veterinary Science, Syntex ResearchPalo Alto, California, U.S.A.
R. Garcia C.
Affiliation:
Institute of Veterinary Science, Syntex ResearchPalo Alto, California, U.S.A.
Get access Rights & Permissions [Opens in a new window]

Summary

Between March and August 1968 to 1970, Chlormadinone acetate (CAP), 10 mg/head/ day, was administered to 668 Zebu cows and heifers for oestrous cycle synchronization for 14, 12, or 9 days, the latter schedule supported by an injection of 5 mg estradiol valerate on day 2 to achieve luteolysis. Applied orally over a period of 14 days, CAP provided a reliable method for cycle synchronization. The severe anoestrous rate experienced in all herds reduced the overall percentage of synchronized animals. Fertility from insemination during the first synchronization period (day 2 to 10 after treatment) was slightly, yet insignificantly reduced, but was completely restored during the second synchronization period (day 20–30). Insemination only during this second synchronization period resulted in conception and pregnancy rates similar to those combined from the first and second synchronization period.

Of factors tested for influencing synchronization and fertility, presence or absence of penis-deviated teaser bulls (psycho-stimulation) had no effect on the percentage of animals synchronized, or on post-treatment fertility. In well-managed herds, the percentage of animals responding to treatment was predetermined by the number of animals already cycling, reflecting their phase of reproductive life. Levels of management had an important impact on the success of cycle synchronization combined with artificial insemination. Both methods are managerial tools for improvement of already good management. Their failure under insufficient management conditions has diagnostic value.

Possibilities and limits shown for oestrous cycle synchronization in Zebu cattle were similar to those reported in European cattle. Within these limits, CAP can be employed successfully as a means for cycle synchronization, providing sufficient synchronization and acceptable fertility and allowing economical use of artificial insemination.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 80 , Issue 2 , April 1973 , pp. 329 - 340
Copyright
Copyright © Cambridge University Press 1973

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

Ayalon, N. & Weis, Y. (1970). The influence of a teaser ball on oestrus detection. Refuah vet. 27, 22–5.Google Scholar
Esparza, H., Giménez, T., Hidalgo, M. A. & Jöchle, W. (1972). Preparation of teaser animals (bulls, boars and rams) by penis deviation. (In preparation.)Google Scholar
Grunert, E., Frerking, H. & Herrler, H. (1971). Beitrag zur Zyklussynchronisation und Brunstinduktion bei Milchrindern mit Chlormadinonazetat (CAP). Tierärztl. Umsch. 26, 14.Google Scholar
Günzler, O. & Jöchle, W. (1966). Hormonale Sterilitätsprophylaxe beim Bind. 1. Mitteilung: Routinemässige orale Gestagenanwendung post partum. Zuchthyg. 1, 109–16.CrossRefGoogle Scholar
Günzler, O. & Geisler, B. (1970). Versuche über die Möglichkeiten der programmierten Fertilisation und deren Effektivität. Züchtungskunde 42, 342–8.Google Scholar
Jöchle, W. (1969 a). Anwendung der Gestagene in Veterinärmedizin und Zootechnik. Kap. XII, Handbuch d. exp. Pharmakologie, Bd. XXII/2, 606719. Berlin-Heidelberg-New York: Springer Verlag.Google Scholar
Jöchle, W. (1969 b). Latest trends and practical problems which arise during estrus synchronization. Proc. S. Afr., Soc. Anim. Prod. 8, 23–7.Google Scholar
Jöchle, W. (1972 a). Seasonal fluctuations of reproductive functions in Zebu cattle. Int. J. Biomet. 16, 131–44.CrossRefGoogle ScholarPubMed
Jöchle, W. (1972 b). Pharmacologic aspects of cycle control in domestic animals. Proc. 7th World Congr., Anim. Reprod. and Artif. Insem. (in Press).Google Scholar
Jöchle, W. (1972 c). Seasonal influences on reproductive patterns in Zebu and Zebu crossbred cattle in the tropics. Proc. 1th World Congr., Anim. Reprod. and Artif. Insem. (in Press).CrossRefGoogle Scholar
Kordts, E. (1970). Zur Brunstsynchronisation bei Jungrindern. Dt. tierärztl. Wschr. 77, 287.Google Scholar
Landsberg, H. E., Lippmann, H., Paffen, K. H. & Troll, C. (1966). World Maps of Climatology, 3rd edition. Edited under the sponsorship of the Heidelberger Akademie der Wissenschaften, by Rodenwald, E. and Jusatz, H. J.. Berlin-Heidelberg-New York: Springer Verlag.Google Scholar
Macfarlane, S. & Saleka, R. (1971). Synchronization of oestrus and ovulation in Bos indicus heifers using an orally active progestogen. E. Afr. agric. For. J. 36, 353.CrossRefGoogle Scholar
Nersesjan, S. S. (1959). The use of vasectomized bulls as biological stimulators in controlling infertility in cows (Russ.). Trudy erevan. zoo vet. Inst. No. 23. (Anim. Breed. Abstr. 30 (1962), 220.)Google Scholar
Petropavlovskii, V. V. & Rykova, A. I. (1958). The stimulation of sexual functions in cows. Trudy ul'yanov. sel'.-khoz. Inst. 5 (2), 193–9. (Anim. Breed. Abstr. 29 (1961), 798) [60, 65].Google Scholar
Plasse, D., Warnick, A. C. & Koger, N. (1970). Reproductive behavior of Bos indicus females in a subtropical environment. IV. Length of oestrus cycle, duration of oestrus, time of ovulation, fertilization and embryo survival in Great Brahman heifers. J. Anim. Sci. 30, 6372.CrossRefGoogle Scholar
Schipilow, W. S. (1958). Das Stimulieren des Geschlechtszyklus bei Färsen und Kühen. Nachr. land- wirtsch. Timirjasew.-Adad. No. 3, 197214 (Russ.). Ref. in Landw. Zentbl., III, 3, 57.Google Scholar
Schmidt, H. F., Smidt, D. & Jöchle, W. (1970). Untersuchungen zur Beeinflussung des ovariellen Zyklus beim Rind mit Gestagenen. Dts. tierärztl. Wschr. 77, 456–9, 553–8.Google Scholar
Schmidt, H. F., Huber, E., Günzler, O., Jöchle, W. & Smidt, D. (1970). Hormonale Sterilitätsprophylaxe beim Rind: II. Mitteilung: Beobachtungen während und nach der Gestagenanwendung post partum. Zuchthyg. 5, 1126.CrossRefGoogle Scholar
Schmidt, H. F., Smidt, D. & Jöchle, W. (1972). Untersuchungen zur Zyklusbeeinflussung bei Rindern unter praktischen Bedingungen in Tanzania. Tagung über Physiologie der Fortpflanzung der Haustiere. Zuchthyg. 7, 92 (Abstract).Google Scholar
Skinner, J. D. & Bonsma, J. C. (1964). The effect of early introduction of vasectomized bulls upon the sexual activity of the breeding herd. Proc. S. Ajr. Soc. Anim. Prod. No. 3, Pretoria, pp. 60–2.Google Scholar
Wiltbank, J. N., Shumway, R. Phil Parker, W. R. & Zimmerman, D. R. (1967). Duration of estrus, time of ovulation, and fertilization rate in beef heifers synchronized with dihydroxyprogesterone acetophenide. J. Anim. Sci. 26, 764–7.CrossRefGoogle ScholarPubMed