Abstract
Increasing milk productivity and obtaining high-quality products are based on targeted breeding, balanced feeding of animals, and compliance with requirements of modern milking and livestock technology, and they represent one of the areas of improving milk production technologies in modern complexes. For efficient robotic milk production, the following indicators of dairy cattle should be taken into account: high milk productivity and milk flow, tightly attached udder, same-sized teats whose lower point should not be below 33 cm from the floor level, a 3 cm minimum distance between the rear nipples and 12.5–30 cm between the front teats, a 1.5–3.5-cm thickness of teats, rear teats that should be located 3 cm lower than the lower part of the udder, a 7 cm minimum distance between the front and rear teats of the udder, and a vertical deviation angle of the teats of no more than 30°. The main reasons for minor losses of milk during robotic milking can be milking of cows that do not have a full-fledged milk-giving reflex or cases when this reflex was inhibited at the beginning of milking as a result of putting the milking arm on the udder teats. It is shown that the milking frequency varies by day periods relatively weakly and decreases to a minimum only in the second half of the night during robotic milking, which is associated with a relatively late distribution of feed mixtures. It is noted that cows of all ages have almost the same number of robotic milkings, which is approximately two times.
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REFERENCES
Vedomstvennaya tselevaya programma “Sozdanie 100 robotizirovannykh molochnykh ferm v Kaluzhskoi oblasti” na 2014-2016 gg. (The Departmental Target Program “Creation of 100 Robotic Dairy Farms in Kaluga Oblast” for 2014–2016), Kaluga: Minist. Sel’sk. Khoz. Kaluzhskoi obl., 2013.
Fedoseeva, N.A., Sanova, Z.S., and Mazurov, V.N., Milking cows with the use of robotic milking machines in Kaluga oblast, Vestn. Michurinsk. Gos. Agrarn. Univ., 2016, no. 1, pp. 56–61.
Fedoseeva, N.A., Sanov, Z.S., and Anan’eva, E.V., Retrospective of milk production and automation of milking cows in Kaluga oblast, Innovatsii Investitsii, 2017, no. 2, pp. 215–218.
Gosudarstvennaya programma “Razvitie sel’skogo khozyaistva i regulirovaniya rynkov sel’skokhozyaistvennoi produktsii, syr’ya i prodovol’stviya v Kaluzhskoi oblasti” (The State Program “Development of Agriculture and Regulation of Markets for Agricultural Products, Raw Materials, and Food in Kaluga Oblast), Kaluga: MSKh Kaluzhskoi Obl., 2013.
Zakrevskii, A. and Khukstra, A., Milking robot in Russia: To be or not to be?, S-kh. Vesti, 2008, no. 4, pp. 3–4.
Sanova, Z.S., Fedoseeva, N.A., and Anan’eva, E.V., Some recommendations of milking cows on robotic milking machines, Innovatsii Investitsii, 2016, no. 12, pp. 192–194.
Fedoseeva, N.A., Sanov, Z.S., and Anan’eva, E.V., Economic evaluation of various technologies for milking cows in the farms of Kaluga oblast, Vestn. Ross. Gos. Agrarn. Zaochn. Univ., 2017, no. 24, pp. 21–29.
Osnovy sovremennogo proizvodstva moloka (Basics of Modern Milk Production), Kostomakhin, N.M., Ed., Budi, Rada pusta: Khunland Treid Kft., 2011.
Robotic dairy farms of Kaluga oblast, Inf. Byull., 2014, no. 1. 2014.
Sanova, Z.S., Fedoseeva, N.A., and Novikova, N.N., The Red-Motley breed in Kaluga oblast, Vestn. Michurinsk. Gos. Agrarn. Univ., 2018, no. 1, pp. 69–72.
Trofimov, A.F., Timoshenko, V.N., and Muzyka, A.A., Providing basic milk production processes during milking on robotized plants, Mater. Konf. “Sovremennye tekhnologii sel’skokhozyaistvennogo proizvodstva”: XII Mezhdunar. nauch.-praktich. konf. UO"GGAU" (Proc. Conf. Modern Technologies of Agricultural Production: XII Int. Sci.-Pract. Conf. UO GGAU), Grodno, 2009.
Kholmanov, A., Osadchaya, O., and Alekseenko, A., Milking robots: Advantages and problems, Zhivotnovod. Ross., 2008, no. 5, pp. 28–30.
Meskens, L. and Mathijs, E., Socio-economic aspects of automatic milking, motivation and characteristics of farmers investing in automatic milking systems, Deliverable D2 Project EU: Implications of the Introduction of Automatic Milking Systems, 2002.
Sanova, Z.S., Fedoseeva, N.A., Myshkina, M.S., and Ivanova, N.I., A breed as a guarantor of effective milk production in Kaluga oblast, Vestn. Michurinsk. Gos. Agrarn. Univ., 2016, no. 2, pp. 70–76.
Trofimov, A.F., Timoshenko, V.N., and Muzyka, A.A., Directions of improvement of milk production technologies, Innovatsii—prioritetnyi put' razvitiya APK: Sbor. mater. VIII Mezhdunar. nauch. prakt. konf. (Innovations: The Priority Path for Development of the Agroindustrial Complex: Proc. VIII Int. Sci.-Pract. Conf.), Kemerovo, 2009, pp. 132–139.
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Translated by K. Lazarev
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Kiselev, L.Y., Kamalov, R.A., Borisov, M.Y. et al. Modern Technologies for Robotic Cow Milking. Russ. Agricult. Sci. 45, 382–385 (2019). https://doi.org/10.3103/S1068367419040062
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DOI: https://doi.org/10.3103/S1068367419040062