Abstract
Fertility traits are as important as production traits in crossbred bovine population. Assessment of the fertility of bull in any frozen semen production program and evaluation of the conception rate under actual field conditions provide valuable information. The objective of this retrospective study was to estimate the effect of genetic and non-genetic influence on conception rate of frozen semen bulls maintained at Bharatiya Agro-Industries Foundation (BAIF) Pune based on the conception rate in cattle population of small holder dairy farmer system. The data comprising of 1,08,238 insemination records pertaining to 83 Holstein Friesian pure and crossbred bulls available at BAIF Pune were used to analyze conception rate. The fixed effect solutions and covariance components were estimated by linear mixed model using the restricted maximum likelihood method in WOMBAT software. The genetic correlations were estimated using bivariate analysis between post thaw motility and conception rate. The study was based on fertility related information from cows maintained in different villages of India and thus reflects the actual fertility of frozen semen used. The study was suggestive of influence of very small fraction of genetic effect and higher impact of management effect on conception rate. Fertility-related information available from this study is an invaluable asset in decision making process of breeding policies.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data availability
Not applicable.
Code availability
Not applicable.
References
20th livestock census, 2019. Department of Animal Husbandry and Dairying, Government of India Animal Husbandry Statistics Division. Livestock Census. 20th Livestock Census 2019-all India Report. Ministry of Fisheries, Animal Husbandry and Dairying. Available from: http://dahd.nic.in/animal-husbandry-statistics. Accessed 20th July 2021.
Bansal, S.K., Bhagat, R.L., Sinha, A.K., Yadav, A.L. and Phadke N.L., 2019. Factors affecting conception rate in AI bred cattle under field conditions of Bihar, Indian Journal of Animal Sciences, 89 (1), 110–112.
Bastin, C., Loker, S., Gengler, N., Sewalem, A. and Miglior, F., 2010. Genetic relationships between body condition score and reproduction traits in Canadian Holstein and Ayrshire first-parity cows, Journal of Dairy Science, 93(5), 2215-2228.
Berry, D.P., Buckley, F., Dillon, P., Evans, R.D., Rath, M. and Veerkamp, R.F., 2003. Genetic relationship among the body score condition scores, body weights, milk yield, and fertility in dairy cows, Journal of Dairy Sciences, 86, 2193-2204.
Berry, D.P., Coughlan, S. and Evans, R.D., 2007. Preliminary genetic evaluation of female fertility in Ireland, Interbull Bulletin, 37, 125-128.
Berry, D.P., Evans, R.D. and Parland, S.Mc, 2011. Evaluation of bull fertility in dairy and beef cattle using cow field data, Theriogenology, 75(1), 172-181.
Bhagat, R.L. and Gokhale, S.B., 2013. Factors affecting conception rate in crossbred cattle under field conditions, International Journal of Tropical Agriculture, 31(3-4), 249-252.
Bhagat, R.L. and Gokhale, S.B., 2016. Studies on factors influencing conception rate in rural cattle, Indian Journal of Animal Sciences, 86(5), 550–552.
Bhagat, R.L., Gokhale, S.B., Gokhale, R.B., Pande, A.B. and Karbade, V.G., 2009. Reproduction attributes affecting conception rate in crossbred cattle. International Journal of Tropical Agriculture, 27(1-2), 169-72.
Bhave, K.G., Khadse, J.R., Gaundare, Y.S. and Mangurkar, B.R., 2016. Factor affecting conception rate in AI bred buffaloes in field conditions, Indian Journal of Animal Sciences, 86(12), 1401– 1404.
De Haas, Y., Janss L.L.G. and Kadarmideen H.N., 2007. Genetic correlation between body scores and fertility in dairy cattle using bivariate random regression models, Journal of Animal Breeding and Genetics, 127, 277-285.
Dematawewa, C.M. and Berger P.J., 1998. Genetic and phenotypic parameters for 305-day yield, fertility, and survival in Holsteins. Journal of dairy science. 81(10), 2700–2709.
Foote, R.H., G.E. Seidel, Jr., J. Hahn, W.E. Berndtson and Coulter G.H., 1979. Seminal quality, spermatozoal output, and testicular changes in growing Holstein bulls, Journal of Dairy Sciences, 60: 85-88.
Fuerst-Waltl, B., Schwarzenbacher H., Perner, C. and Sölkner J., 2006. Effects of age and environmental factors on semen production and semen quality of Austrian Simmental bulls. Animal Reproduction Sciences, 95, 27-37.
Government of Maharashtra, 2005. Report on Water Audit of Irrigation Projects in Maharashtra 2003–04, Water Resources Department. Available at: https://wrd.maharashtra.gov.in/Site/Upload/PDF/ WaterAuditofIrrigationProjectsinMaharashtra-2003–4.pdf. Accessed 22nd July, 2021.
Gunasekaran, M., Singh, C. and Gupta, A.K., 2008. Effect of estrus behaviour on fertility in crossbred cattle, Indian Veterinary Journal, 85, 159–163.
Hafez, E.S.E., 2000. Reproduction in Farm Animal. (7th edn.). Lea and Febiger, Philadelphia, pp: 293-367.
Hamid, M.A. (2018). Study on the effect of insemination time on pregnancy rate of Bangladeshi buffalo in intensive farming, SAARC Journal of Agriculture, 16(2), 143-152.
Horn, M.M., Moraes, J.C., Jaume, C.M., Edelweiss, M.I. and Rosado, A., 2005. Reproductive deficiency in bulls from synthetic breeds according to the type of crossbreed and the morphology of the Y chromosome, Genetics and Molecular Biology, 28(2), 225-229.
Liu, Z. Jaitner, J., Reinhardt, F., Pasman, E., Rensing S. and Reents R., 2008. Genetic Evaluation of Fertility Traits of Dairy Cattle Using a Multiple-Trait Animal Model, Journal of Dairy Sciences, 91, 4333–4343.
López, E., Véliz, F.G., Carrillo, E., De Santiago, Á., García, J.E. and Mellado, M., 2018. Effect of birth weight, weaning weight and pre-weaning weight gain on fertility of Holstein heifers under hot Mexican conditions, Slovenian Veterinary Research, 55(1), 35-42.
López-Gatius, F., Yániz J. and Madriles-Hel9m, D., 2003. Effects of body condition score and score change on the reproductive performance of dairy cows: a meta-analysis, Theriogenology, 59, 801-812.
López-Gatius, F., 2018. Approaches to increase reproductive efficiency in artificially inseminated dairy cows, Animal Reproduction Sciences, 10(3), 143-147.
Mathevon, M., Buhr, M.M. and Dekkers, J.C., 1998. Environmental, management, and genetic factors affecting semen production in Holstein bulls. Journal of Dairy Science, 81(12), 3321–3330.
Meyer, K., 2007. WOMBAT - A tool for mixed model analyses in quantitative genetics by restricted maximum likelihood (REML). Journal of Zhejiang University-Science B., 8, 815–821.
Report, 2012. Minimum Standards for Production (MSP) of Bovine Frozen Semen. Department of Animal Husbandry, Dairying and Fisheries, Ministry of Agriculture, Government of India. Available at: (http://dahd.nic.in). Accessed 13th May, 2021.
Misra, S., Dixit, V.K., Khan, M.H., Mishra, S.K., Dviwedi, G., Yadav, S., Lehri, A. and Chauhan, P.S., 2017. Exploitation of agro-climatic environment for selection of 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase producing salt tolerant indigenous plant growth promoting rhizo bacteria. Microbiological Research, 205, 25-34.
Nordin, Y., Zaini, N. and Wan Zahari, W.M., 2004. Factors affecting conception rate in dairy cows under selected small holder production system, Journal of Tropical Agriculture and Food Sciences, 32(2), 219–227.
Potdar, V., Bhave, K., Gaundare, Y., Awasthi, H.R. and. Khadse J.R, 2016. Factors influencing conception rate of local and crossbred cows, IOSR Journal of Agriculture and Veterinary Science, 9(10), 51–54.
R Core Team, 2021. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available at: https://www.R-project.org/. Accessed 20th July, 2021.
Raudsepp, T., Das, P.J., Avila, F. and Chowdhary, B.P., 2012. The pseudoautosomal region and sex chromosome aneuploidies in domestic species, Sexual Development, 6(1-3), 72-83.
Ron, M., Bar-Anan, R. and Wiggans, G.R., 1984. Factors affecting conception rate of Israeli Holstein cattle. Journal of Dairy Science, 67(4), 854-860.
Shankar, T., Singh, K.M., Singh, S.S. and Kumar, A., 2009. Natural and Human Resource status in divided Bihar–An Agro-economic perspective, Indian Journal of Environment and Ecoplanning, 16(2-3), 537-548.
Shindey, D.N., Dhanvijay, R.W., Bhagat, R.L. and Gokhale, S.B., 2014. A note on conception rate in animals of Wardha district in Vidharbha region of Maharashtra State, International Journal of Tropical Agriculture, 32(3-4), 595-599
Report, 2021. Twenty eighth report of standing committee on agriculture. Department of Animal Husbandry and Dairying. Ministry of Fisheries, Animal Husbandry and Dairying. Available at: http://164.100.47.193/ lsscommittee/Agriculture/17_Agriculture_28.pdf. Accessed 24th July, 2021
Zink, V., Lassen, J. and Štípková, M., 2012. Genetic parameters for female fertility and milk production traits in first-parity Czech Holstein cows, Czech Journal of Animal Science, 57(3), 108-114.
Acknowledgements
The authors thank the President, Senior Vice president, and colleagues of frozen semen station of BAIF Development Research Foundation for permission to utilize their data and the constant support during the study. The authors acknowledge the Department of Animal Genetics and Breeding, Madras Veterinary College, Tamil Nadu Veterinary and Animal Sciences University (TANUVAS), Chennai, for the facilities provided.
Author information
Authors and Affiliations
Contributions
All listed authors have made substantial contributions to the research design, or the acquisition, analysis, or interpretation of data, and drafting the manuscript or revising it critically. All authors have approved the submitted version.
Corresponding author
Ethics declarations
The manuscript does not contain clinical studies or patient data.
Ethical approval
Not applicable.
Consent to participate
Not applicable.
Consent for publication
Not applicable.
Conflict of interest
The authors declare no competing interests.
Additional information
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Bhave, K., Koilpillai, T.P.J., Gaundare, Y. et al. Genetic and non-genetic factors affecting conception rate of frozen semen in small holder dairy farmer system of rural India. Trop Anim Health Prod 54, 9 (2022). https://doi.org/10.1007/s11250-021-03009-2
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s11250-021-03009-2