[Albright L.D., Timmons M.B. (1984). Behavior of dairy cattle in free stall housing. Trans. ASAE, 27: 1119-1126.]Search in Google Scholar
[Bouraoui R., Lahmar M., Majdoub A., Djemali M., Belyea R. (2002). The relationship of temperature-humidity index with milk production of dairy cows ina Mediterranean climate. Anim. Res., 51: 479-491.]Search in Google Scholar
[Brouk M.J., Smith, J.F., Harner J.P. (2001). Freestall barn design and cooling systems. Kansas State University.]Search in Google Scholar
[Cook N.B., Bennett T.B., Nordlund K.V. (2005). Monitoring indices of cow comfort in freestall- housed dairy herds. J. Dairy Sci., 88 (11): 3876-3885.10.3168/jds.S0022-0302(05)73073-3]Open DOISearch in Google Scholar
[Dikmen S., Hansen P.J. (2008). Is the temperature-humidity index the best indicator of heat stress in lactating dairy cows inasubtropical environment? J. Dairy Sci., 92: 109-116.]Search in Google Scholar
[Herbut P. (2010). Air movement characteristics insideacow barn with natural ventilation under nowind conditions in the winter season. Komisja Techniczna Infrastruktury Wsi PANo.w Krakowie, 11: 159-164.]Search in Google Scholar
[Herbut P., Angrecka S. (2012). Forming of temperature-humidity index (THI) and milk production of cows in the free-stall barn during the period of summer heat. Anim. Sci. Pap. Rep., 30, 4: 363-372.]Search in Google Scholar
[Jaśkowski J.M., Urbaniak K., Olechnowicz J. (2005). Thermal stress in cows - fertility disorders and how to prevent them (in Polish). Życie Weter., 80 (1): 18-21.]Search in Google Scholar
[Johnson H.D. (1986). The effects of temperature and thermal balance on milk production. In: Moberg GP (ed) Limiting the effects of stress on cattle. Utah State University, Res. Bull., 512: 33-45]Search in Google Scholar
[Ośródka L., Godłowska J., Hajto M., Krajny E., Rozwoda W., Wojtylak M. (2010). Definition of anemological conditions for the Krakow area based on measurement and observation network provided by the Polish Institute of Meteorology and Water Management (in Polish). IMGW Warszawa, o. Kraków, pp. 5-7;15.]Search in Google Scholar
[Reppo B., Mikson E., Vaarak V. (2004). Relation between the indoor and outdoor climate in uninsulated cowsheds. J. Agric. Sci., 17 (2): 120-125.]Search in Google Scholar
[Romaniuk W., Overby T., et al. (2005). Aquide to cattle housing systems (in Polish). Praca zbiorowa. Projekt Bliźniaczy PHARE, Standardy dla Gospodarstw Rolnych. Warszawa: Instytut Budownictwa, Mechanizacjii Elektryfikacji Rolnictwa; Duńskie Służby Doradztwa Rolniczego.]Search in Google Scholar
[Solan M., Jóźwik M. (2009). The influence of microclimate and maintenance system on dairy cow welfare (in Polish). Wiad. Zoot., 1: 25-29.]Search in Google Scholar
[Teye F.K., Hautala M., Pastell M., Praks J., Veermäe I., Poikalainen V., Pajumä -gi A., Kivinen T., Ahokas J. (2008). Microclimate and ventilation in Estonian and Finnish dairy buildings. Energ. Buildings, 40: 1194-1201.]Search in Google Scholar
[West J.W., Mullinix B.G., Bernard J.K. (2003). Effects of hot, humid wether on milk temperature, dry matter intake, and milk yield of lactating dairy cows. J. Dairy Sci., 86: 232-242.]Search in Google Scholar
[Zähner M., Schrader L., Hauser R., Keck M., Langhans W., Wechsler B. (2004). The influence of climatic conditions on physiological and behavioural parameters in dairy cows kept in open stables. Anim. Sci., 78: 139-147.]Search in Google Scholar
