1. bookTom 16 (2016): Zeszyt 2 (April 2016)
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2300-8733
Pierwsze wydanie
25 Nov 2011
Częstotliwość wydawania
4 razy w roku
Języki
Angielski
Otwarty dostęp

11. Effect of Heat Stress on Metabolic Disorders Prevalence Risk and Milk Production in Holstein Cows in Croatia

Data publikacji: 06 May 2016
Tom & Zeszyt: Tom 16 (2016) - Zeszyt 2 (April 2016)
Zakres stron: 451 - 461
Otrzymano: 16 Mar 2015
Przyjęty: 12 Jan 2016
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2300-8733
Pierwsze wydanie
25 Nov 2011
Częstotliwość wydawania
4 razy w roku
Języki
Angielski

Andersson L. (1988). Subclinical ketosis in dairy cows. Vet. Clin. North. Am. Food Anim. Pract., 4: 233-251.Search in Google Scholar

Beening J. (1993). Detection of suboptimal feeding of cows using milk constituents, Inaugural-Dissertation, Hannover, Germany.Search in Google Scholar

Bernabucci U., Lacetera N., Baumgard L.H., Rhoads R.P., Ronchi B., Nardo- ne A. (2010). Metabolic and hormonal acclimation to heat stress in domestic ruminants. Animal, 4: 1167-1183.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

Bramley E., Lean I.J., Costa N.D., Fulkerson W.J. (2005). Acidosis in pasture fed dairy cows: risk factors and outcomes. J. Dairy Sci., 88: 95.Search in Google Scholar

Collier R.J., Hall L.W. (2012). Quantifying heat stress and its impact on metabolism and performance. Department of Animal Sciences, University of Arizona.Search in Google Scholar

Collier R.J., Dahl G.E., Van Baale M.J. (2006). Major advances associated with environmental effects on dairy cattle. J. Dairy Sci., 89: 1244-1253.Search in Google Scholar

Correa-Calderon A., Armstrong D., Ray D., De Nise S., Enns M., Howison C. (2004). Thermoregulatory responses of Holstein and Brown Swiss heat-stressed dairy cows to two different cooling systems. Int. J. Biometeorol., 48: 142-148.Search in Google Scholar

De Lorenzo M.A., Wiggans G.R. (1986). Factors for estimating daily yield of milk, fat, and protein fromasingle milking for herds milked twiceaday. J. Dairy Sci., 69: 2386-2394.Search in Google Scholar

Dirksen G., Liebich H., Mayer H. (1985). Adaptive changes of the ruminal mucosa and functional and clinical significance. Bovine Practice, 20: 116-120.Search in Google Scholar

Dohoo I.R., Martin S.W. (1984). Disease, production and culling in Holstein-Friesian cows. III. Disease and production as determinants of disease. Prev. Vet. Med., 2: 671.Search in Google Scholar

Duffield T.F. (2004). Monitoring strategies for metabolic disease in transition dairy cows. Proc. 23rd World Buiatrics Congress, 11-16.07.2004, Québec, Canada.Search in Google Scholar

Duffield T.F., Kelton D.F., Leslie K.E., Lissemore K., Lumsden J.H. (1997). Use of test day milk fat and milk protein to predict subclinical ketosis in Ontario dairy cattle. Can. Vet. J., 38: 713-718.Search in Google Scholar

Du Preez J.H., Giesecke W.H., Hattingh P.J. (1990 a). Heat stress in dairy cattle and other livestock under Southern African conditions. I. Temperature-humidity index mean values during the four main seasons. Onderstepoort J. Vet. Res., 57: 77-86.Search in Google Scholar

Du Preez J.H., Hatting P.J., Giesecke W.H., Eisenberg B.E. (1990 b). Heat stress in dairycattle and other livestock under Southern African conditions. III. Monthly temperature-humidity index mean values and their significance in the performance of dairy cattle. Onderstepoort J. Vet. Res., 57: 243-248.Search in Google Scholar

Eicher R. (2004). Evaluation of the metabolic and nutritional situation in dairy herds: Diagnostic use of milk components. Proc. 23rd World Buiatrics Congress, 11-16.07.2004, Québec, Canada.Search in Google Scholar

Enemark J.M.D. (2008). The monitoring, prevention and treatment of subacute ruminal acidosis (SARA) -areview. Vet. J., 176: 32-34.Search in Google Scholar

Gantner V., Potočnik K., Jovanovac S. (2009). Test-day records asatool for subclinical ketosis detection. Acta Vet. (Beograd), 59: 185-191.Search in Google Scholar

Gantner V., Mijić P., Kuterovac K., Solić D., Gantner R. (2011). Temperature-humidity index values and their significance on the daily production of dairy cattle. Mljekarstvo, 61: 56-63.Search in Google Scholar

Gillund P., Reksen O., Gröhn Y.T., Karlberg K. (2001). Body condition related to ketosis and reproductive performance in Norwegian dairy cows. J. Dairy Sci., 84: 1390-1396.Search in Google Scholar

Gravert H.O. (1991). Indicators for assessment of energy balance in high-yielding cows, Monatsh. Veterinarmed., 46: 536-537.Search in Google Scholar

Haas D., Hofírek B. (2004). The diagnostic importance of milk components forahuman and cows’ health, CUA Prague, Proceedings of contributions: Milk day, pp. 26-29.Search in Google Scholar

Hill D.L., Wall E. (2015). Dairy cattle inatemperate climate: the effects of weather on milk yield and composition depend on management. Animal, 9: 138-149.Search in Google Scholar

ICAR - International Committee for Animal Recording (2003). Guidelines approved by the General Assembly held in Interlaken, Switzerland, 30.05.2002, Roma, pp. 19-39.Search in Google Scholar

Kadzere C.T., Murphy M.R., Silanikove N., Maltz E. (2002). Heat stress in lactating dairy cows: Areview. Livest. Prod. Sci., 77: 59-91.Search in Google Scholar

Kibler H.H. (1964). Environmental physiology and shelter engineering. LXVII. Thermal effects of various temperature-humidity combinations on Holstein cattle as measured by eight physiological responses, Res. Bull. Missouri Agric. Exp. Station, 862.Search in Google Scholar

Knapp D.M., Grummer R.R. (1991). Response of lactating dairy cows to fat supplementation during heat stress. J. Dairy Sci., 74: 2573-2579.Search in Google Scholar

Lambertz C., Sanker C., Gauly M. (2013). Climatic effects on milk production traits and somatic cell score in lactating Holstein-Friesian cows in different housing systems. J. Dairy Sci., 97: 319-329.Search in Google Scholar

Nickerson S.C. (1987). Mastitis management under hot, humid conditions. Proc. Dairy Herd Management Conference, 9-11.02.1987, Macon, GA, pp. 32-38.Search in Google Scholar

Oetzel G.R. (2005). Applied aspects of ruminal acidosis induction and prevention, J. Dairy Sci., 88: 643.Search in Google Scholar

O’Grady L., Doherty M.L., Mulligan F.J. (2008). Subacute ruminal acidosis (SARA) in grazing dairy cows. Vet. J., 176: 44-49.Search in Google Scholar

Østergaard S., Gröhn Y.T. (1999). Effects of diseases on test day milk yield and body weight of dairy cows from Danish research herds. J. Dairy Sci., 82: 1188-1201.Search in Google Scholar

Rajala-Schultz P.J., Gröhn Y.T. (1999). Culling of dairy cows. Part 1. Effects of diseases on culling in Finnish Ayrshire cows, Prev. Vet. Med., 41: 195-208.Search in Google Scholar

Rajala-Schultz P.J., Gröhn Y.T., Mc Culloch C.E. (1999). Effects of milk fever, ketosis, and lameness on milk yield in dairy cows. J. Dairy Sci., 82: 288-294.Search in Google Scholar

Ravagnolo O., Misztal I., Hoogenboom G. (2000). Genetic component of heat stress in dairy cattle, development of heat index function. J. Dairy Sci., 83: 2120-2125.Search in Google Scholar

Richardt W. (2004). Milk composition as an indicator of nutrition and health, Breeding, 11: 26-27.Search in Google Scholar

Rodriguez L.W., Mekonnen G., Wilcox C.J., Martin F.G., Krienk W.A. (1985). Effects of relative humidity, maximum and minimum temperature, pregnancy and stage of lactation on milk composition and yield. J. Dairy Sci., 68: 973-978.Search in Google Scholar

Roenfeldt S. (1998). You can’t afford to ignore heat stress. Dairy Manage, 35: 6-12.Search in Google Scholar

Romaniuk W., Overby T. (2005). Aguide to cattle housing systems (in Polish). IBMER, Warsaw.Search in Google Scholar

Sanker C., Lambertz C., Gauly M. (2013). Climatic effects in Central Europe on the frequency of medical treatments of dairy cows. Animal, 7: 316-321.Search in Google Scholar

Shaw J.C. (1956). Ketosis in dairy cattle. J. Dairy Sci., 39: 402-434.Search in Google Scholar

St-Pierre N.R., Cobanov B., Schnitkey G. (2003). Economic losses from heat stress by US livestock industries. J. Dairy Sci., 86: 52-77.Search in Google Scholar

Tapki I., Sahin A. (2006). Comparison of the thermoregulatory behaviours of low and high producing dairy cows inahot environment. Appl. Anim. Behav. Sci., 99: 1-11.Search in Google Scholar

Toni F., Vincenti L., Grigoletto L., Ricci A., Schukken Y.H. (2011). Early lactation ratio of fat and protein percentage in milk is associated with health, milk production, and survival. J. Dairy Sci., 94: 1772-1783.Search in Google Scholar

Vermunt J.J., Tranter B.P. (2011). Heat stress in dairy cattle -areview, and some of the potential risks associated with the nutritional management of this condition. Proc. Annual Conference of the Australian Veterinary Association - Queensland Division, 25-27.03.2011, Townsville, QLD, Australia, pp. 212-221.Search in Google Scholar

Vitali A., Sagnalini M., Bertocchi L., Bernabucci U., Nardone A., Lacetera N. (2009). Seasonal pattern of mortality and relationships between mortality and temperature humidity index in dairy cows. J. Dairy Sci., 92: 3781-3790.Search in Google Scholar

West J.W. (2003). Effects of heat-stress on production in dairy cattle. J. Dairy Sci., 86: 2131-2144.Search in Google Scholar

West J.W., Hill G.M., Fernandez J.M., Mandebvu P., Mullinix B.G. (1999). Effect of dietary fiber on intake, milk yield, and digestion by lactating dairy cows during cool or hot, humid weather. J. Dairy Sci., 82: 2455-2465.Search in Google Scholar

Polecane artykuły z Trend MD

Zaplanuj zdalną konferencję ze Sciendo