Effect of heat stress on age at first calving in Mehsana buffaloes under field progeny testing programme


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Authors

  • Pravin B Purohit SDAU, NDRI
  • Jay Prakash Gupta Sardarkrushinagar Dantiwada Agricultural University Indian Veterinary Research Institute http://orcid.org/0000-0003-2012-3633
  • Jagdish D Chaudhari SDAU
  • Tanvir M Bhatt SDAU
  • Mahesh M Pawar SDAU
  • Amit K Srivastava SDAU
  • Mayank P Patel SDAU
  • P A Patel DURDA
  • M N Prajapati DURDA

Keywords:

Heat stress, Progeny testing, Age at first calving, Sire evaluation, BLUP

Abstract

he records of 7791 Mehsana buffaloes sired by 182 sires on age at first calving (AFC) spread over a period of 24 years (1989 to 2012), collected from Dudhsagar Research and Development Association (DURDA), Dudhsagar Dairy, Mehsana. Meteorological data of the region (where field progeny testing was undergoing), were collected from the center of Indian Meteorological Department (IMD), Pune to know the association of AFC with heat stress indicators. The least squares mean and heritability of AFC were estimated. Various heat stress models were screened for optimization (Based on value of R2, adjusted R2, AIC and BIC) and effect of heat stress was quantified. Depending on the estimate of AFC and THI, months of the year were classified in to various heat stress zones. Sires were evaluated (both by BLUP-SM and BLUP-AM) for AFC in different HSZ, in order to identify optimum sire for each of the zone. The least squares mean estimate for AFC was 1419.61±2.18 days. The heritability estimates were obtained as 0.14±0.02 (LSML), 0.775±0.003 (BLUP-SM) and 0.13±0.023 (BLUP-AM).  THI 6 model (Yousef, 1985) was found to be the best suited model and it was observed that AFC was declined by 1.26 day with per unit rise in THI. Year was classified in to NHSZ (non heat stress zone – November to March), HSZ (heat stress zone- April to October) and CHSZ (critical heat stress zone- June to August). The average breeding values of Mehsana buffalo bulls evaluated for AFC by BLUP-SM and BLUP-AM in NHSZ, HSZ and in CHSZ were estimated to be 1389.36, 1380.37 and 1375.04 days and 1389.33, 1382.85 and 1375.53 days, respectively. It was indicated that the bulls having superior performance in NHSZ were not as better performer in HSZ and CHSZ. This warrants that evaluation of bulls may be done separately in each heat stress zone and suitable bull for breeding under each HSZ may be identified.

Author Biographies

  • Pravin B Purohit, SDAU, NDRI
    AGB
  • Jay Prakash Gupta, Sardarkrushinagar Dantiwada Agricultural University Indian Veterinary Research Institute
    Assistant Professor and Incharge Head, AGB
  • Jagdish D Chaudhari, SDAU
    AGB
  • Tanvir M Bhatt, SDAU
    AGB
  • Mahesh M Pawar, SDAU
    Animal Nutrition
  • Amit K Srivastava, SDAU
    LPM
  • Mayank P Patel, SDAU
    LRS
  • P A Patel, DURDA
    TI Manager
  • M N Prajapati, DURDA
    TI Manager

References

Anonymous (2013) Breed wise estimated livestock population based on breed survey-2013, Ministry of Agriculture & farmer welfare, Department of Animal Husbandry, Dairying & Fisheries, Krishi Bhawan, New Delhi

Bahashwan S (2020) The Dhofari cattle breed; productive and reproductive performance. Development 32:2

BAHS (2019) Basic Animal Husbandry Statistics - 2019. Ministry of Fisheries, Animal Husbandry & Dairyng, http://dadf.gov.in (Accessed on 26th August, 2020)

Becker WA (1975) Manual of Quantitative Genetics, Washington State University, Pullman, Washington. p.170

Berman A, Horovitz T, Kaim M, Gacitua H (2016) A comparison of THI indices leads to a sensible heat-based heat stress index for shaded cattle that aligns temperature and humidity stress. Int J Biometeorol 60(10):1453-62

Bhatt TM (2019) Genetic evaluation of Mehsana buffaloes based on various lactation curve models. M.V.Sc Thesis, Sardarkrushinagar Dantiwada Agricultural University, Sardarkrushinagar, Gujarat

Bianca W (1962) Relative importance of dry-and wet-bulb temperatures in causing heat stress in cattle. Nature 195(4838):251-2

Chaudhari, J. D. (2016). Genetic evaluation of Mehsana buffaloes under field progeny testing programme in Mehsana district. M.V.Sc. Thesis, Sardarkrushinagar Dantiwada Agricultural Univeresity, Sardarkrushinagar, Gujarat

Draper NR, Smith H (1998) Applied regression analysis. John Wiley & Sons, Inc., New York Vol. 326

Harvey WR (1990) User’s Guide for LSMLWM and MIXMDL PC-2 version. Mixed Model Least-Squares and Maximum Likelihood Computer Programme. 4255. Mumford Drive, Columbus, Ohio 43220, U.S.A, pp. 10-41

Henderson CR (1975) Best linear unbiased estimation and prediction under a selection model. Biometrics 31:423-47

Kramer CY (1957) Extension of multiple range tests to group correlated adjusted means. Biometrics 13(1):13-8

Mader TL, Davis MS, Brown-Brandl T (2006) Environmental factors influencing heat stress in feedlot cattle. J Anim Sci 84(3):712-719

Meyer K (2007) WOMBAT—A tool for mixed model analyses in quantitative genetics by restricted maximum likelihood (REML). J Zhejiang Univ Sci 8(11):815-21

National Research Council (1971) A guide to environmental research on animals. National academic science. Washington, DC

Oikawa T (2017) Effect of heat stress on age at first calving of Japanese Black cows in Okinawa. Anim Sci J 88(3):439-444

Ojango JM, Pollott GE (2001) Genetics of milk yield and fertility traits in Holstein-Friesian cattle on large-scale Kenyan farms. J Anim Sci 79(7):1742-1750

Parmar GA, Gupta JP, Chaudhari JD, Pandey DP, Prajapati BM, Sathwara RN, Patel PA (2019) Study of genetic and non genetic factors affecting age at first calving and wet average in Mehsana buffaloes. Buffalo Bulletin 38(1):11-17

Prajapati BM, Gupta JP, Pandey DP, Chaudhari JD, Parmar GA, PA P, Prajapati MN, Sathawara RN (2017) Non genetic factors affecting age at first calving in Mehsana buffaloes. Life Sciences Leaflets 87:8-15

Purohit PB, Gupta JP, Chaudhari JD, Bhatt TM, Pawar MM, Srivastava AK, Patel MP (2020) Effect of Heat Stress on Production and Reproduction Potential of Dairy Animals Vis-À-Vis Buffaloes. Int J Livest Res 10(3):1-23

R Core Team. (2019). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL https://www.R-Project.org/

Sathwara RN (2018) Univariate versus bivariate models for genetic evaluation of Mehsana buffaloes using first lactation production and fertility traits. M.V.Sc. Thesis, Sardarkrushinagar Dantiwada Agricultural Univeresity, Sardarkrushinagar, Gujarat

Sathwara RN, Gupta JP, Chaudhari JD, Parmar GA, Prajapati BM, Bhatt TM, Patel MA (2018) Effect of non-genetic factors on various reproduction traits in Mehsana buffaloes. In: National symposium on Sustainable management of livestock and poultry diversity for enhancing the farmer’s income. Bikaner, Rajasthan, India, 8-10 February, pp. 259

Swiger LA, Harvey WR, Everson DO, Gregory KE (1964) The variance of intraclass correlation involving groups with one observation. Biometrics 1:818-26

Teke B, Akdag F (2012) The effect of heat stress on some reproductive traits in Jersey cows under semi-humid conditions in Turkey. Bulg J Agric Sci 18(4):506-10

Thom EC (1959) The discomfort index. Weatherwise 12(2):57-61

Yousef MK (1985) Stress physiology in livestock. Volume I. Basic principles. CRC press

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Submitted

2021-03-27

Published

2021-09-11

Issue

Vol. 74 No. 4 (2021)

Section

ANIMAL PRODUCTION & REPRODUCTION

How to Cite

Purohit, P. B., Gupta, J. P., Chaudhari, J. D., Bhatt, T. M., Pawar, M. M., Srivastava, A. K., Patel, M. P., Patel, P. A., & Prajapati, M. N. (2021). Effect of heat stress on age at first calving in Mehsana buffaloes under field progeny testing programme. Indian Journal of Dairy Science, 74(4). https://epubs.icar.org.in/index.php/IJDS/article/view/111145