KnE Life Sciences
ISSN: 2413-0877
The latest conference proceedings on life sciences, medicine and pharmacology.
Selection and Breeding of Dairy Cattle in Western Siberia
Published date: Apr 05 2021
Journal Title: KnE Life Sciences
Issue title: DonAgro: International Research Conference on Challenges and Advances in Farming, Food Manufacturing, Agricultural Research and Education
Pages: 232–239
Authors:
Abstract:
The main objective of stock breeding is to raise highly productive animals, improve existing ones and create new types and breeds of livestock. The main focus of dairy cattle breeding is on increasing milk yield, fat and protein content in milk; preserving fertility and productive longevity; and developing high adaptive properties of suitability for modern industrial technologies. Selection and breeding of black-and-white and red steppe breeds of cattle is aimed at improving the breeding and productive qualities of the animals. These breeds are traditionally raised in Western Siberia. Breeding to improve the economic and productive features of black-and-white and red steppe breeds of cattle led to the creation of new zonal types, including the Priobsky, Kulunda and Siberian zonal types, which are characterized by relatively high dairy productivity. This study showed that the Siberian type of heifers had the maximum milk yield – 6389 kg, which was 1239 kg and 828 kg more than the Kulunda and Priobsky types, respectively. The same tendency was observed for the third lactation. Animals with a dry period of less than 40 days had lower milk yields than those with a longer period. In terms of the amount of milk and the weight fraction of fat and protein in the milk, the animals exceeded the standard for the parental breed. The duration of pregnancy among the studied animals was within the physiological norm – 276.1-280.8 days. The research results may be of interest to agricultural students and specialists involved in selection issues.
Keywords: reproduction, breed, milk productivity
References:
[1] Chaunina, E. and Korsheva, I. (2020). Agricultural Trade and Quality of Nutrition: Impacts on Undernourishment and Dietary Diversity. In Handbook of Research on Globalized Agricultural Trade and New Challenges for Food Security. Hershey, Pennsylvania, USA: IGI Global, pp. 242-251.
[2] Hagan, B. A., Moro-Mendez, J. and Cue, R. I. (2020). Realized Genetic Selection Differentials in Canadian Holstein Dairy Herds. Journal of Dairy Science, vol. 103, pp. 1651-1666.
[3] Bagirov, V. A., Nasibov, S. N. and Klenovitsky, P. M. (2009). Conservation and Rational Use of Animal Gene Pool. Reports of the Russian Academy of Agricultural Sciences, vol. 2, pp. 37-40.
[4] Kalashnikov, A. P., Burdin, Y. M. and Reshetnikova, N. F. (1992). Characteristic of Selection and Genetic Parameters of Black-And-White Cattle and Cross Breeds with Holstein-Friesian Bulls. Improvement of Breeds and Increase of Productivity of Farm Animals and Poultry in Siberia. Novosibirsk: Siberian Branch of the Russian Academy of Agricultural Sciences, pp. 11-21.
[5] Korsheva, I. A., Orekhova, L. A. and Baishuakov, A. B. (2018). Use of Iodine-Containing Drugs on Cow Feeding in Western Siberia. AgroEcoInfo, vol. 3, issue 33, p. 38.
[6] Kosarev, A. P., Snigirev, S. I. and Gromova, T. V. (2014). Composition and Raw Qualities of Kulunda Milk of the Red Steppe Breed. Bulletin of Altai State Agrarian University, vol. 1, issue 111, pp. 114-119.
[7] Kosenchuk, O. V. and Shumakova, O. V. (2019). Modernization of the Multifunctional Agricultural Sector and Prospects for the Development of the Region. Presented at International Scientific Conference The Fifth Technological Order: Prospects for the Development and Modernization of the Russian Agro-Industrial Sector. January, Omsk, Russia: Omsk SAU, рр. 146–151.
[8] Ovcharenko, A. S. and Kharina, L. V. (2018). Dairy Productivity and Duration of Economic use of Cows Depending on the Cattle Management System. Bulletin of Omsk SAU, vol. 1, issue 29, pp. 43-50.
[9] Petrov, A. V. and Rudishina, N. M. (2006). Dairy Productivity of Priobsky Cows of the Black-AndWhite Breed. Achievements and Prospects of Student Science in the Agro-Industrial Complex. Omsk: Publishing House of Omsk SAU, pp. 48-51.
[10] Rudishina, N. M., Sumanova, I. A. and Stitsy, T. N. (2007). Characteristic of Kulunda Cattle of the Red Steppe Breed in Terms of Dairy Productivity. Bulletin of Altai State Agrarian University, vol. 3, issue 29, pp. 42-44.
[11] Rudishina, N. M. and Schneider, S. N. (2013). Dynamics of Indicators of Dairy Productivity of Kulunda Cows of the Red Steppe Breed. Siberian Science - Problems and Prospects of Production and Processing of Livestock Products. Barnaul: Altai SAU, pp. 157-161.
[12] Rudishina, N. M. and Shtyreva, I. V. (2015). Influence of Some Factors on the Dairy Productivity of Priobsky Cows of the Black-And-White Breed. Bulletin of Altai State Agrarian University, vol. 8, issue 130, pp. 94-99.
[13] Russkikh, T. A. and Bychkova, V. A. (2017). Dairy Productivity and Longevity of Cows of Black-AndWhite Breeds of Various Origins. In Innovative Potential of Agricultural Science of the 21st Century: Contribution of Young Research Scientists. Izhevsk: Izhevsk SAA, pp. 123-128.
[14] Simanovich, O. V. (2009). Manifestation of the Milk Protein Potential of Irmen and Priobsky Cows in the Same Environmental Conditions. Siberian Bulletin of Agricultural Science, vol. 2, issue 194, pp. 123-125.
[15] Kharina, L. V. (2017). Milk Productivity of Heifers of the Red Steppe Breed of Various Lines. Prospects for Sustainable Development of the Agro-Industrial Complex. Omsk: Omsk SAU, pp. 245-247.