Combined Effect of Bypass Fat and Hormonal Protocol on the Performance of Reproductive Disorder Crossbred Cattle


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Authors

  • K. Sethy
  • S. Tripathy
  • R.K. Swain
  • S.K. Mishra
  • N. Panda
  • K. Behera
  • S.K. Panda
  • G.P. Sabat
  • U. Mishra

Keywords:

Bypass fat, Crossbred cattle, Double synch, Estra- double synch, Reproduction

Abstract

Bypass fat is the calcium salt of fatty acid used as a major source of energy for production and reproduction in high yielding cattle. Hormonal protocols may not be effective for treating reproductive problems in energy deficient animals. Henceforth, the current study was undertaken to evaluate the effect of hormonal protocol in reproductive disorder crossbred Jersey cattle supplemented with bypass fat. A 60 days study was conducted taking eighty reproductive disordered Jersey cattle consisting of 48 cows and 32 heifers divided into four groups having 20 animals each (containing both anoestrus (12) and repeat breeder (8).  Group T0 was control (normal feeding practices of farmer consisting of straw-based diet and locally available concentrate like wheat bran and mung chunies), T1 group: T0+ Bypass fat @ 100g/day/animal), T2 group: T1+ hormone (Double synch) and T3 group: T1+ hormone (Estra-double synch). The growth rate, blood haematological, serum biochemicals and reproductive status of the animals were assessed. Significant improvement in average daily gain and reproductive performances was observed in treated animals as compared to control. Maximum conception was achieved in group T3 (70%) followed by group T2 (60 %) and T1 (40 %). So, it was found that bypass fat along with estra double synch protocol is most suitable in field condition for preventing reproductive disorder in cross bred cattle.

Author Biography

  • K. Sethy

    Department of Animal Nutrition

    Student

References

A.O.A.C. 1995. Official Methods of Analysis,16th edition Association of Official Analytical Chemists, Washington, DC.

Barros, C.M., Moreira, M.B.P., Figueiredo, R.A., Teixeira, A.B. and Trinca, L.A. 1999. Synchronization of ovulation in beef cows (Bos indicus) using GnRH, PGF2α and Estradiol Benzoate. Theriogenology. 9:139-152.

Biradar, S., Tandle, M.K., Haribabu, Y., Usturge, S.M., Patil, N.A. and Suranagi, M.D. 2014. Study on efficacy of Cosynch and Ovsynch protocol on fertility in repeat breeder buffaloes. Indian Journal of advances in Plant Research.1: 1-3.

Diskin, M.G., Kenny, D.A., Dunne, L. and Sreenan, J.M. 2002. Systemic progesterone pre and post AI and early embryo survival in cattle. Proceedings of the Agricultural Research Forum, Tullamore, Ireland, pp. 27.

Duncan, D.B.1955. Multiple range and multiple “F” tests. Biometrics.11: 1-42.

Ferguson, D., James, T., Galligan, D.and Neal, T. 1994. Principal descriptors of body condition score in Holstein cows. Journal of Dairy Science. 77(9): 2695-2703.

Garg, M.R.1997. Bypass fat production using acid oil, its effect on in vitro rumen fermentation and effect of its feeding on in sacco DM disappearance in sheep. Asian-Australasian Journal of Animal Sciences.10 (6):571-574.

Grewal, R. S., Tyagi, N., Lamba, J.S., Ahuja, C.S.and Saijpaul, S.2014. Effect of bypass fat and niacin supplementation on the productive performance and blood profile of lactating crossbred cows under field conditions. Animal Nutrition and Feed Technology.14(3): 573-581.

Haider, M. S., Bilal, M., Ahmed, H., Anwar, M., Sattar, A. and Andrabi, S.M.H. 2017. Effect of CIDR with or without GnRH and double PGF2α based estrus synchronization protocols on estrus response and pregnancy per AI in non-descript cows of the Punjab. Journal of Animal and Plant Sciences.27 (4): 1108-1114.

Hamam, A.M., AbdelGawad, E.M.M., Ali, A.H. and Amer, H.A.2013. Effect of CIDR -ovsynch regimen as a pharmacological agent on fertility, blood and hormonal patterns of cross breed cows. Global Journal of Pharmacology.7: 383-389.

Imakawa, K., Day, M.L. and Zalesky, D.D.1987. Effects of 17 beta estradiol and diets varying in energy on secretion of luteinizing hormone in beef heifers. Journal of Animal Science.64: 805.

Jain, M.C.1986. Veterinary Hematology. 4th edition. Lea and Febiger, Pheladelphia, USA.

Johnson, P.W. 1940. Livestock weights from measurements. Minnesota Agricultural Experiment Station, Folder 70.

Karcagi, G., Roland, T. G., Piroska, R., Gyula, H. and Ferenc, H.2010. Milk production, peripartal liver triglyceride concentration and plasma metabolites of dairy cows fed diets supplemented with calcium soaps or hydrogenated triglycerides of palm oil. Journal of Dairy Research.77(2): 151-158.

Khamas, D. J., Al-Hamedawi, T.M.and Al-Jeburii, K.O. 2013. The effect of using different periods of estrus synchronization on the reproductive performance and subsequent haematological value before and during pregnancy in Holstein heifers. International Journal of Science and Nature.4 (1): 63-67.

Layek, S. S., Mohanty, T.K., Kumaresan, A., Behera, K. and Chand, S. 2011. Behavioural signs of estrus and their relationship to time of ovulation in Zebu (Sahiwal) cattle. Animal Reproduction Science.129(3-4): 140-145.

Moriel, P., Goncalves, E.P., Nayigihugu, V., Aines, G., Block, E. and Hess, B.W. 2009. Conception rates of beef cows fed a supplement with rumen-protected fat. Midwest ADSA-ASAS Abstr. #281

Nakrani, B.B., Panchal, M.T., Dhami, A.J., Hadiya, K.K., Patel, J.A.,Gosai, R.K. and Shah, R.G. 2014. Influence of controlled breeding techniques on oestrus induction response, conception rate and plasma progesterone profile in anoestrus buffaloes. Global Journal of Medical Research.14(3): 1-6.

Parmar, S.C., Khasatiya, C.T., Chaudhary, J.K., Patel, R.V. and Dhamsaniya, H.B. 2015. Serum metabolic and minerals profile in norgestomet primed postpartum anestrous Surti buffaloes. Veterinary World. 8: 625-630.

Rutigliano, H.M., Lima, F.S., Cerri, R.L., Greco, L.F., Vilela, J.M., Magalhães, V., Silvestre, F.T., Thatcher, W.W. and Santos, J.E. 2008. Effects of method of pre synchronization and source of selenium on uterine health and reproduction in dairy cows. Journal of Dairy Science.91:3323–3336.

Sahoo, J. K., Das, S.K., Sethy, K., Mishra, S.K., Swain, R.K., Mishra, P.C. and Sahoo, S.P.2016. Comparative evaluation of hormonal protocol on the performance of crossbred cattle. Tropical Animal Health and Production. 49(2):259-263.

Savalia, K.K., Dhami, A.J., Hadiya, K.K., Patel, K.R. and Sarvaiya, N.P. 2014. Influence of controlled breeding techniques on fertility and plasma progesterone, protein and cholesterol profile in true anestrus and repeat breeding buffaloes. Veterinary World.7:727-732.

Savsani, H. H., Murthy, K.S., Padodara, R.J., Bhadaniya, A.R. and Kalaria, V.A. 2013. Effect of bypass fat supplementation on haematology growth and reproductive performance in Jaffarabadi buffaloes. Asian Journal of Animal Science. 8(1): 12–15.

Scheffler, J. M., Buskirk, D.D., Rust, S.R., Cowley, J.D. and Doumit, M.E. 2003. Effect of repeated administration of combination trenbolone acetate and estradiol implants on growth, carcass traits, and beef quality of long-fed Holstein steers. Journal of Animal Science.81(10): 2395-2400.

SPSS. 2008. Statistical packages for Social Sciences, Version 17.0, SPSS Inc., Illinois, USA.

Staples, C.R., Burke, J.M. and Thatcher, W.W. Influence of supplemental fats on reproductive tissues and performance of lactating cows. Journal of Dairy Science.81:856–871.

Stevenson, J.S., Smith, J.F. and Hawkins, D.E. 2000. Reproductive outcomes for dairy heifers treated with combinations of prostaglandin F2α, norgestomet and gonadotropin-releasing hormone. Journal of Dairy Science.83: 2008–2015.

Trenkle, A. 1976. The anabolic effect of estrogens on nitrogen metabolism of growing and finishing cattle and sheep. Environmental Quality and Safety Supplement. 12:79-88.

Tyagi, N., Thakur, S.S. and Shelke, S.K.2010. Effect of bypass fat supplementation on productive and reproductive performance in crossbred cows. Tropical Animal Health and Production. 42(8): 1749-1755.

Wadhwa, M., Grewal, R.S., Bakshi, M.P.S. and Brar, P.S. 2012.Effect of supplementing bypass fat on the performance of high yielding crossbred cows. Indian Journal of Animal Science. 82(2): 200.

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Submitted

30-06-2022

Published

16-11-2022

Issue

Vol. 39 No. 3 (2022)

Section

Ruminant

License

Copyright remains with the society and author jointly. However, material can be used for research, teaching and to achieve goals of the society.

How to Cite

Sethy, K., Tripathy, S., Swain, R., Mishra, S., Panda, N., Behera, K., Panda, S., Sabat, G., & Mishra, U. (2022). Combined Effect of Bypass Fat and Hormonal Protocol on the Performance of Reproductive Disorder Crossbred Cattle: . Indian Journal of Animal Nutrition, 39(3). https://epubs.icar.org.in/index.php/IJAN/article/view/125301