[BASTIAN, K. R. – GEBREMEDHIN, K. G. – SCOTT, N. R. 2003. A finite difference model to determine conduction heat loss to a water-filled mattress for dairy cows. In Transactions of the ASAE, vol. 46, no. 3, pp. 773–780.]Search in Google Scholar
[COOK, N. B. – MENTINK, R. L. – BENNETT, T. B. – BURG, K. 2007. The effect of heat stress and lameness on time budgets of lactating dairy cows. In Journal of Dairy Science, vol. 90, no. 4, pp. 1674–1682.]Search in Google Scholar
[DAS, R. – SAILO, L. – VERMA, N. – BHARTI, R. – SAIKIA, J. – IMTIWATI – KUMA, R. 2016. Impact of heat stress on health and performance of dairy animals. In A review. Veterinary World, vol. 9, no. 3, pp. 2.]Search in Google Scholar
[HALEY, D. B. – RUSHEN, J. – PASSILLÉ, de. M. A. 2000. Behavioural indicators of cow comfort: Activity and resting behaviour of dairy cows in two types of housing. In Canadian Journal of Animal Science, vol. 80, pp. 257–263.]Search in Google Scholar
[CHMÚRNY, I. 2003. Heat Protection of Buildings. bratislava : jaga Group, 2003. 214 pp. ISBN 80-88905-27-3 (In Slovak: Tepelná ochrana budov).]Search in Google Scholar
[IWASAKI, W. – ISHIDA, S. – KONDO, D. – ITO, Y. – TATENO, J. – TOMIOKA, M. 2019. Monitoring of the core body temperature of cows using implantable wireless thermometers. In Computers and Electronics in Agriculture, vol. 163, pp. 104849.]Search in Google Scholar
[KADZERE, C. T. – MURPHY, M. R. – SILANIKOVE, N. – MALTZ, E. 2002. Heat stress in lactating dairy cows: A review. In Livestock Production Science, vol. 77, no. 1. pp. 59–91.]Search in Google Scholar
[KULL, J. A. – INGLE, H. D. – BLACK, R. A. – EBERHART, N. L. – KRAWCZEL, P. D. 2017. Effects of bedding with recycled sand on lying behaviors, udder hygiene, and preference of lactating Holstein dairy cows. In Journal of Dairy Science, vol. 100, no. 9, pp. 7379–7389.]Search in Google Scholar
[LENDELOVÁ, J. 2004. Floor Constructions as an Important Phenomenon in Stables for Cattle and Pigs. Nitra : SUA. 184 pp. (dissertation thesis).]Search in Google Scholar
[LENDELOVÁ, J. – KARANDUŠOVSKÁ, I. – ŽITŇÁK, M. – BOĎO, Š. – MIHINA, Š. 2017. Effect of climatic conditions on differences in thermo-technical properties of organic bedding in laboratory testing. In Acta Technologica Agriculturae, vol. 20, no. 1, pp. 1–6.]Search in Google Scholar
[LENDELOVÁ, J. – POGRAN, Š. – BOŽIKOVÁ, M. – PÁLEŠ, D. 2009. Simulation of heat conduction in natural and synthetic cow lying floors during wintertime. In Acta Technologica Agriculturae, vol. 12, no. 1, pp. 13–14.]Search in Google Scholar
[LENDELOVÁ, J. – ŽITŇÁK, M. – BOŠANSKÝ, M. – ŠIMKO, M. – PITERKA, P. 2016. Testing of property changes in recycled bedding for dairy cows. In Research of Agricultural Engineering, vol. 62, pp. 44–52.]Search in Google Scholar
[MANNINEN, E. – PASSILLÉ, de A. M. – RUSHEN, J. – NORRING, M. – SALONIEMI, H. 2002. Preference of dairy cows kept in unheated buildings for different kind of cubicle flooring. In Applied Animal Behaviour Science, vol. 75, no. 4, pp. 281–292.]Search in Google Scholar
[MARGERISON, J. K. – LAU, J. – HEDLEY, M. J. – HORNE, D. J. – HANLY, J. A. –POWELL, N. – SHILTON, A. 2014. Lying and feeding behavior of dairy cows at pasture and housed in free stalls fitted with sand and water filled mats. In Occasional Report no. 27.]Search in Google Scholar
[NORRING, M. – MANNINEN, A. – PASSILLÉ, de M. – RUSHEN, J. – MUNKSGAARD, L. – SALONIEMI, H. 2008. Effects of sand and straw bedding on the lying behavior, cleanliness, and hoof and hock injuries of dairy cows. In Journal of Dairy Science, vol. 91, no. 2, pp. 570–576.]Search in Google Scholar
[PERANO, M. K. – USACK, G. J. – ANGENENT, L. T. – GEBREMEDHIN, K. G. 2015. Production and physiological responses of heat-stressed lactating dairy cattle to conductive cooling. In Journal of Dairy Science, vol. 98, no. 8, pp. 5252–5261.]Search in Google Scholar
[ORTIZ, X. A. – SMITH, J. F. – ROJANO, F. – CHOI, C. Y – BRUER, J. – STEELE, T. – SCHURING, N. – ALLEN, J. – COLLIER, R. J. 2014. Evaluation of conductive cooling of lactating dairy cows under controlled environmental conditions. In Journal of Dairy Science, vol. 98, no. 3, pp. 1759–1771.]Search in Google Scholar
[SILANIKOVE, N. 2000. Effects of heat stress on the welfare of extensively managed domestic animals. In Livestock Production Science, vol. 67, no. 1–2, pp. 1–18.]Search in Google Scholar
[STN 73 0540-2+Z1+Z2. 2019. Thermal protection of buildings. Thermal performance of buildings and components. Part 2: Functional requirements. (Slovak technical standard)]Search in Google Scholar
[TUCKER, C. B. – WEARY, D. M. – FRASER, D. 2003. Effects of three types of free-stall surfaces on preferences and stall usage by dairy cows. In Journal of Dairy Science, vol. 86, no. 2. pp. 521–529.]Search in Google Scholar
[WADSWORTH, B. A. – STONE, A. E. – CLARK, J. D. – RAY, D. L. – BEWLEY, J. M. 2015. Stall cleanliness and stall temperature of two different freestall bases. In Journal of Dairy Science, vol. 98, no. 6, pp. 4206–4210.]Search in Google Scholar
[WEST, J. W. 2003. Effects of heat-stress on production in dairy cattle. In Journal of Dairy Science, vol. 86, no. 6. pp. 2131–2144.]Search in Google Scholar
