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Challenges and opportunities for managing respiratory disease in dairy calves

Published online by Cambridge University Press:  15 December 2009

Amy Stanton*
Affiliation:
Department of Population Medicine, Ontario Veterinary College, University of Guelph, Guelph, ONT N1G 2W1, Canada

Abstract

Bovine respiratory disease (BRD) is important for the Ontario dairy industry due to the large economic and welfare costs of this disease. Practical science-based management techniques are needed to control and reduce the risk of this disease. Currently, the emphasis on BRD is focused on early detection of disease and prevention. These areas are important but it is not practical to assume this disease will be eliminated in the near future. It is necessary to determine the best practices for caring for sick animals, monitoring their recovery and making changes to their management to facilitate health and recovery. If management changes can be made for animals that are failing to thrive in a current situation, a more complete recovery may be possible and the welfare and economic costs of BRD may be minimized.

Type
Review Article
Copyright
Copyright © Cambridge University Press 2009

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References

Borderas, TF, De Passillé, AM and Rushen, J (2008). Behavior of dairy calves after a low dose of bacterial endotoxin. Journal of Animal Science 86: 29202927.CrossRefGoogle ScholarPubMed
Carroll, J and Forsberg, NE (2007). Influence of stress and nutrition on cattle immunity. Veterinary Clinics of North America, Food Animal Practice 23: 105149.CrossRefGoogle ScholarPubMed
Correa, MT, Curtis, CR, Erb, HN and White, ME (1988). Effect of calfhood morbidity on age at first calving in New York Holstein herd. Preventative Veterinary Medicine 6: 253262.CrossRefGoogle Scholar
Donovan, GA, Dohoo, IR, Montgomery, DM and Bennet, FL (1998). Calf and disease factors affecting growth in female Holstein calves in Florida, USA. Preventative Veterinary Medicine 33: 110.CrossRefGoogle ScholarPubMed
Kahn, CM (2005). Merck Veterinary Manual. 9th edn.Whitehouse Station, NJ: Merck.Google Scholar
Kaneene, JB and Hurd, S (1990). The national animal health monitoring system in Michigan. III. Cost estimates of selected dairy cattle diseases. Preventive Veterinary Medicine 8: 127140.CrossRefGoogle Scholar
McGuirk, SM (2008). Disease management of dairy calves and heifers. Veterinary Clinics of North America: Food Animal Practice 24: 139153.Google ScholarPubMed
Mellor, DJ and Stafford, KJ (2004). Animal welfare implications of neonatal mortality and morbidity in farm animals. Veterinary Journal 168: 118133.CrossRefGoogle ScholarPubMed
Miller, GY and Dorn, CR (1990). Costs of dairy cattle diseases to producers in Ohio. Preventive Veterinary Medicine 8: 171182.CrossRefGoogle Scholar
Rodenburg, J (2000). Current Status of Heifer Raising in Ontario. Ontario Ministry of Agriculture and Rural Affairs. Available online at http://www.omafra.gov.on.ca/english/livestock/dairy/facts/info_raising.htmGoogle Scholar
Stanton, AL, Leslie, KE, Kelton, DF, Dingwell, RT, Widowski, TM, LeBlanc, SJ and Millman, ST (2008a). An investigation of the behavior of dairy calves with high, average and low post-weaning weight gain. In: International Symposium on Beef Cattle Welfare, Manhattan, KS, 28–30 May 2008, Poster.Google Scholar
Stanton, AL, LeBlanc, SJ, Dingwell, RT, Kelton, DF, Millman, ST, Wormuth, J and Leslie, KE (2008b). An evaluation of tulathromycin treatment at post-weaning movement on the incidence of respiratory disease and on growth in commercial dairy calves. In: ADSA–ASAS Joint Annual Meeting, Indianapolis, IN, 7–11 July 2008. Abstract 386.CrossRefGoogle Scholar
Stanton, AL, Kelton, DF, Leslie, KE, LeBlanc, SJ and Millman, ST (2009a). >Associations between lying time and weight gain in post-weaned dairy calves. In: Canada–USA ISAE Regional Meeting, Montreal, Quebec, 17–18 July 2009. Abstract.Associations+between+lying+time+and+weight+gain+in+post-weaned+dairy+calves.+In:+Canada–USA+ISAE+Regional+Meeting,+Montreal,+Quebec,+17–18+July+2009.+Abstract.>Google Scholar
Stanton, AL, Kelton, DF, Leslie, KE, LeBlanc, SJ, Hester, K and Millman, ST (2009b). Feeding behavior of dairy calves in the post-weaning period. In: ADSA–CSAS–ASAS Joint Annual Meeting, Montreal, Quebec, 12–16 July 2009. Abstract.Google Scholar
Todd, C, McKnight, D, Millman, S, Duffield, T and Leslie, KE (2006). The effects of Meloxicam therapy on the behaviour of calves with diarrhea. In: North American Regional Meeting of the International Society of Applied Ethology, Vancouver, BC, 7–8 June 2006, p. 30.Google Scholar
Todd, CG (2007). An evaluation of meloxicam as supportive therapy for neonatal calf diarrhea complex. Unpublished MSc Thesis, Department, of Population Medicine, University of Guelph, Guelph, ON, Canada.Google Scholar
Van Donkersgoed, J, Ribble, C, Boyer, LG and Townsend, H (1993). Epidemiological study of enzootic pneumonia in dairy calves in Saskatchewan. Canadian Journal of Veterinary Research 57: 247254.Google Scholar
Waltner-Toews, D, Martin, SW and Meek, AH (1986a). Dairy calf management, morbidity and mortality in Ontario Holstein herds. 3. Association of management with morbidity. Preventative Veterinary Medicine 4: 137158.Google Scholar
Waltner-Toews, D, Martin, SW and Meek, AH (1986b). The effect to early calfhood disease on survivorship and age at first calving. Canadian Journal of Veterinary Research 50: 314317.Google Scholar
Warnick, LD, Erb, HN and White, ME (1994). The association of calfhood morbidity with first-lactation calving age and dystocia in New York Holstein herds. Kenya Veterinarian 18: 177179.Google Scholar