Effect of Age at First Calving on Calving Interval and Dry Period Length Traits of Holstein Cows

Document Type : Other

Author

Department of Agriculture, Payame Noor University, PO BOX 19395-3697 Tehran, Iran.

Abstract

The objectives of present study were to study of the first calving age effect on calving interval and dry period length and the estimation of variance components, breeding values and genetic and phenotypic trends of these traits in different classes of first calving age (20-23.5, 23.5-26 and ≥26 month) of Holstein cows in Isfahan province. Calving records of 62796 cows calved in 72 herds during 1994 to 2015 were used for analyses. The analysis of data was performed in Mixed procedure of SAS9.2 software and estimation of variance components and breeding values of traits was done with REML method of DMU package. The results showed the lowest least squares mean of calving interval and dry period length were for the first age class and the first (20-23.4) and second (23.5-26) age classes, respectively, and the greatest least squares mean was for the third age class in both traits (P<0.01). The lowest breeding value mean of calving interval were calculated in the second age class and for dry period length in the first age class (P<0.01). For genetic trend, the lowest amount in both traits was observed for the first and second classes of first calving age. Also, decreasing trend with reduction in first calving age was observed for phenotypic trend in recent years (P<0.01). Therefore, according to these results, the first and second classes of first calving age (<26 month) could be suggested for Holstein dairy herds in Isfahan province.

Keywords

References

  1. Aghajari, Z.; Ayatollahi Mehrgardi, A.; Tahmasbi, R. and Moghbeli, M., 2015. Genetic and phenotypic trends of productive and reproductive traits in Iranian Holstein dairy cattle of Isfahan Province. Iranian Journal of Applied Animal Science. Vol. 5, No. 4, pp: 819-825.
  2. Ben Gara, A.; Bouraoui, R.; Rekeik, B.; Hammami, H. and Rouissi, H., 2009. Optimal age at first calving for improved milk yield and length of productive life in Tunisian Holstein cows. American-Eurasian Journal of Agronomy. Vol. 2, No. 3, pp: 162-167.
  3. Buaban, S.; Duangjindam, M.; Suzuki, M.; Masuda, Y.; Sanpote, J. and Kuchida, K., 2015. Short communication: Genetic analysis for fertility traits of heifers and cows from smallholder dairy farms in a tropical environment. Journal of Dairy Science. Vol. 98, pp: 4990-4998.
  4. CastilloJuarez,H.; Oltenacu,P.O.;Blake,R.W.;Mcculloch, C.E. and Cienfuegos-Rivas, E.G., 2000. Effect of herd environment on the genetic and phenotypic relationships among milk yield, conception rate and somatic cell score in Holstein cattle. Journal of Dairy Science.
    Vol. 83, pp: 807-814.
  5. Cavani, L.; Garcia, D.A.; Carreño, L.O.D.; Ono, R.K.; Pires, M.P.; Farah, M.M.; Ventura, H.T.; Millen, D.D. and Fonseca, R., 2015. Estimates of genetic parameters for reproductive traits in Brahman cattle breed. Journal of Animal Science. Vol. 93, pp: 3287-3291.
  6. Cooke, J.; Cheng, Z.; Bourne, N. and Wathes, D., 2013. Association between growth rates, age at first calving and subsequent fertility, milk production and survival in Holstein Friesian heifers. Journal of Animal Science. Vol. 91,
    pp: 1-12.
  7. Faraji-Arough, H. and Rokouei, M., 2016. Bayesian inference of genetic parameters for reproductive traits in Sistani native cows using Gibbs sampling. Journal of Livestock Science and Technologies. Vol. 4, No. 2, pp: 39-49.
  8. Ghiasi, H.; Pakdel, A.; Nejati-Javaremi, A.; Mehrabani-Yeganeh, H.; Honarvar, M.; González-Recio, O.; Jesus-Carabaño, M. and Alenda, R., 2011. Genetic variance components for female fertility in Iranian Holstein cows. Livestock Science. Vol. 96, pp: 1-4.
  9. Ghiasi, H. and Honarvar, M., 2016. Genetic and phenotypic trends of fertility traits Iranian Holstein cows. Iranian Journal of Applied Animal Science. Vol. 6, No. 1, pp: 53-58.
  10. Hare, E.; Norman, H.D. and Wright, J.R., 2006. Trends in calving ages and calving intervals for dairy cattle breed in the United States. Journal of Dairy Science. Vol. 89, pp: 365-370.
  11. Heinrichs, A.J., 1993. Raising dairy replacement to meet the need of the 21st century. Journal of Dairy Science.
    Vol. 76, pp: 3179-3187.
  12. Henderson, C., 1988. Theoretical basis and computational methods for a number of different animal models. Journal of Dairy Science (Supplement 2). Vol. 71, pp: 1-16.
  13. Madsen, P. and Jensen, J., 2007. A user's guide to DMU. University of Aarhus, DJF, Research Centre Foulum, Denmark.
  14. Makgahlela, M.L.; Banga, C.B.; Norris, D.; Dzama, K. and Ngambi, J.W., 2008. Genetic Analysis of Age at First Calving and Calving Interval in South African Holstein Cattle Asian. Journal of Animal and Veterinary Advances. Vol. 3, pp: 197-205.
  15. Montaldo, H.H.; Casillo-Juarez, H.; Valencia-Posadas, M.; Cienfuegos-Rivas, E.G. and Ruiz-Lopez, F.J., 2010. Genetic and environmental parameters for milk production, udder health, and fertility traits in Mexican Holstein cows. Journal of Dairy Science. Vol. 93, pp: 2168-2175.
  16. Mourits, M.C.M.; Dijkhuizen, A.A.; Hurine, R.B.M. and Galligan, D.T., 1997. Technical and economic models to support heifer management decisions: basic concepts. Journal of Dairy Science. Vol. 80, pp: 1406-1415.
  17. Nilforooshan, M. and Edriss, M., 2004. Effect of age at first calving on some productive and longevity traits in Iranian Holsteins of the Isfahan Province. Journal of Dairy Science. Vol. 87, pp: 2130-2135.
  18. Pirlo, G., 1997. Rearing cost of replacement heifer and optimal age at first calving. (In Italian) Supplement of L’Informatore Agrario. Vol. 37, pp: 9-12.
  19. Pirlo, G.; Miglior, F. and Speroni, M., 2000. Effect of age at first calving on production traits and on difference between milk yield returns and rearing costs in Italian Holsteins. Journal of Dairy Science. Vol. 83, pp: 603-608.
  20. Plate-Church, A., 2002. Determining Optimal Age at First Calving. Communications Manager, Cooperative Resources International. National Animal Health Monitoring System.
  21. Ruiz-Sanchez, R.; Blake, R.W.; Castro-Gamez, H.M.A.; Sanchez, F.; Montaldo, H.H. and Castillo-Juarez,
    H., 2007.     Changes in the association between milk yield and age at first calving in Holstein cows with herd environment level for milk yield. Journal of Dairy Science. Vol. 90, No. 4, pp: 4830-4834.
  22. Salazar Carranza, M.; Castillo Badill, G.; Murillo Herrera, J.; Hueckmann Voss, F. and Jose Romero Zuniga, J., 2014. Effect of age at first calving on first lactation milk yield in Holstein cows from Costa Rican specialized dairy herds. Open Journal of Veterinary Medicine. Vol. 4, pp: 197-203.
  23. Salem, M.; Esmail, H.; Sadek, R. and Nigm, A., 2006. Phenptyipic and genetic parameters of milk production and reproductive performance of Holestein cattle under the intensive production system in Egypt. Egyptian Journal of Animal Production. Vol. 43, pp: 1-10.
  24. Sahin, A.; Ulutaş, Z.; Yýlmaz Adkinson, A.W. and Adkinson, R., 2014. Genetic parameters of first lactation milk yield and fertility traits in Brown Swiss cattle. Annals of Animal Science. Vol. 14, pp: 545-557.
  25. SAS 9.2, SAS Institute Inc. 2008. SAS 9.2 Help and Documentation. Cary, NC: SAS.
  26. Suzuki, M., 2006. Heritability of herd life and relationship between herd life and milk production, type and fertility traits of Holstein cows in Japan. Nihon Chikusan Gakkaiho.
    Vol. 77, No. 1, pp: 9-15.

 

 

Journal of Animal Environment
Volume 9, Issue 4
January 2018
Pages 57-64

Files

Share

How to cite

Statistics