Influence of low temperatures on behavior, productivity and bioenergy parameters of dairy cows kept in cubicle stalls and deep litter system

O.O. Borshch, O.V. Borshch, T. Donchenko, L. Kosior, L. Pirova

Abstract


We studied the effect of temperature in thermo neutral period and during low temperature on performance, daily behavior, and parameters of bioenergy of cows of Ukrainian red-spotted dairy breed. We observed the cows kept in two loose housing systems: cubicle stalls and deep litter in easy-to-assemble compartments. The decrease in temperature led to decreasing productivity (by 10.86%, 3.55 kg) of cows in cubicle stalls and by 5.65% (1.82 kg) of cows in deep litter housing; the milk fat content increased by 0.09 and 0.08% respectively. During low-temperature period, the cows spent less time feeding, drinking, and walking in both housing systems, but spent more time when relaxing compared to thermoneutral period. The decrease in the duration of cattle feed intake during low temperatures caused a decrease in cattle feed reactions and chewing time for both housing systems. Fate net consumption of nutrition energy that transfer into the milk energy (power index) have decreased in cubicle stalls cows by 2.69%  and by 1.16% in deep litter cows during low temperatures. Net energy consumption per 1 MJ of milk energy have dropped to 0.051 MJ in cubical housing cows and to 0.019 MJ in deep litter cows under low temperatures.


Keywords


cows;temperature;cubicle stalls;deep litter system;productivity;exchange energy;behavior;bioenergetics

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References


Adamczyk, K., Gil, Z., Felenczak, A., Skrzynski, G., Zapletal, P., Choroszy Z. (2011). Relationship between milk yield of cows and their 24–hour walking activity. Animal Science Papers and Reports, 29, 185–195.

Angretska, S., Herbut, P. (2015). Conditions for cold stress development in dairy cattle kept in free barn during severe frosts. Czech Journal Animal Science, 2 (60), 81–87.

Bondar, A.A. (1983). Klassyfykatsyya і іspol'zovanye pokazateley povedenyya molochnoho skota dlya sovershenstvovanyya tekhnolohyy soderzhanyya. Nauchno–tekhnichesiy Byulleten NYYZh LyP USSR, 37, 34–39 (in Russian).

Chernenko, O.M. (2016). Rozrobka ta realizaciya selekcijnyx metodiv ocinky konstytuciyi i adaptacijnoyi zdatnosti molochnoyi xudoby. Thesis of Doctoral Dissertation. Mykolayiv (in Ukrainian).

Graunke, K.L., Schuster, T., Lidfors, L.M. (2011). Influence of weather on the behaviour of outdoor–wintered beef cattle in Scandinavia. Livestock Science, 136, 247–255.

Herbut, P. (2013). Temperature, Humidity and Air Movement Variations Inside a Free–Stall Barn During Heavy Frost. Annals of Animal Science, The Journal of National Research Institute of Animal Production, 13 (3), 587–596.

Herbut, P., Angretska, S. (2013). Forecasting Heat Stress in Dairy Cattle in Selected Barn Zones with the Help of Thi and Thiadj Indexes. Annals of Animal Science. The Journal of National Research Institute of Animal Production, 13 (4), 837–848.

Kozir, V.S. (2009). Sovremennіe problemi zhyvotnovodstva. Dnepropetrovsk (in Russian).

Lendelova, J., Botto, L. (2011). Evaluation of thermal–humidity index in animal housing. Bioclimate: In: Source and Limit of Social Development International Scientific Conference. Topolcianky, Slovakia.

Lindstrom, T. (2000). Feeding behaviour in dairy cows. Motivational aspects. Doctoral thesis. Available from: http://epsilon.slu.se/avh/2000/91–576–5761–0.fulltext.pdf/

Lukhtay, A.M. (2009). Kharakter povedinky koriv ukrayinskoyi chervono–ryaboyi porody u riznykh za rozmirom tekhnolohichnykh hrupakh. Tavriyskyy naukovyy visnyk, 64 (3), 232–236 (in Ukrainian).

Naomi, A. (2007). The Feeding Behavior of Dairy Cows: Considerations to Improve Cow Welfare and Productivity. Tri–State Dairy Nutrition Conference, Department of Animal Sciences The Ohio State University.

Petrenсo, V.I., Barabash, V.I., Dotsennko, L.V. (2003). Bioenergetie value of milk cattle [Bіoеnerhetіcheskaya otsenka molochnoho skota]. Ahrarnaya nauka, 8, 28–29 (in Russian).

Plohinskiy, N.A. (1969). Rukovodstvo po biometrii dlya zootehnikov. Moscow, Kolos (in Russian).

Ribeiro Filho, H.M., Peyraud, J., Delagard, R. (2012). Foraging behavior and ruminal fermentation of dairy cows grazing ryegrass pasture alone or with white clover. Pesquisa Agropecuária Brasileira, 47, 458–465.

Ruban, S.Y., Vasylevskyy, N.V. (2015). Orhanizatsiya normovanoyi hodivli v molochnomu skotarstvi. Kiev: PP Lyuksar (in Ukrainian).

Shkurko, T.P. (2009). Produktyvne vykorystannya koriv molochnykh porid. Dnipropetrovsk, IMA–Pres, 240 (in Ukrainian).

Toušová, R., Ducháček, J., Stádník, L., Ptáček, M., Pokorná, S. (2017). Influence of temperature–humidity relations during years on milk production and quality. Acta universitatis agriculturae et silviculturae mendelianae brunensis, 65(1), 211–218.

Tsyupko, V.V., Pronyna, V.V., Vasylevskyy, N.V. (1995). Normyrovannoe kormlenye krupnoho rohatoho skota molochnoho y kombynyrovannoho napravlenyya. Instytut Zhyvotnovodstva UAAN. Kharkov (in Russian).




DOI: http://dx.doi.org/10.15421/2017_51

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