Milk Replacer Acidification for Free-Access Feeding: Effects on the Performance and Health of Veal Calves

Objectives of this study were to investigate the effects of milk replacer (MR) acidification for free- access feeding on pre- and post-weaning performance, morbidity and mortality of calves. Calves were randomly assigned to free-access feeding of acidified (ACID, n = 31) or non-acidified (NON, n = 31) MR, and weaned at 42 days. ACIDMR was prepared to pH 4.0 - 4.5 using formic acid. Intakes were measured daily and weights weekly. Samples of ACID and NON MR were analyzed for coliform and aerobic bacterial growth. After weaning, calves transitioned to a grain-fed veal diet, weighed every 2 weeks. At slaughter (approximately 6 months of age), lungs were evaluated for gross pathological changes and dressed carcass weights were obtained. Generalized linear mixed models were constructed to examine the effects of MR acidification. Differences by treatment group for pre- and post-weaning morbidity and mortality were tested using Pearson’s χ2 and Fisher’s exact tests. ACID calves consumed less MR than NON (10.6 vs. 11.7 L/d, P = 0.02). Acidification tended to promote earlier onset of starter ration consumption (32.0 vs. 39.5 d, hazard ratio = 1.5, P = 0.07), but did not affect average daily starter ration or water intakes across the pre-weaning period. ACID and NON calves did not differ for BW at weaning, pre- or post-weaning ADG or dressed carcass weight. ACID MR had less coliform (P < 0.001) and aerobic bacterial growth (P < 0.001) than NON MR, but odds of disease treatment and mortality did not differ. ACID calves tended to have lower odds of pulmonary lesions during post-mortem inspection than NON calves (OR = 0.3, P = 0.07). These results indicate that under free-access feeding conditions, acidification limited bacterial growth and MR intake, but there were no long-term impacts of acidification on calf performance or health. In conclusion, acidification to pH 4.0 - 4.5 will significantly reduce bacterial growth in milk fed to calves.

[1]  S. Buczinski,et al.  Short communication: ultrasonographic assessment of the thorax as a fast technique to assess pulmonary lesions in dairy calves with bovine respiratory disease. , 2013, Journal of dairy science.

[2]  C. G. Todd,et al.  An Investigation Into the Effects of Free-Access Acidified Milk Replacer Feeding Programs on the Productivity and Welfare of the Calf , 2013 .

[3]  J. Quigley,et al.  Evaluation of ad libitum acidified milk replacer programs for dairy calves. , 2013, Journal of dairy science.

[4]  T. DeVries,et al.  Effect of milk feeding level on development of feeding behavior in dairy calves. , 2013, Journal of dairy science.

[5]  C. V. van Reenen,et al.  The relationship between clinical signs of respiratory system disorders and lung lesions at slaughter in veal calves. , 2012, Preventive veterinary medicine.

[6]  A. Huuskonen,et al.  Effects of different liquid feeding strategies during the pre-weaning period on the performance and carcass characteristics of dairy bull calves , 2011 .

[7]  D. Nydam,et al.  Use of Rapid Thoracic Ultrasonography for Detection of Subclinical and Clinical Pneumonia in Dairy Calves , 2011, American Association of Bovine Practitioners Conference Proceedings.

[8]  D. Weary,et al.  Effects of milk ration on solid feed intake , weaning , and performance in dairy heifers , 2011 .

[9]  K. Proudfoot,et al.  The effects of feeding untreated and formic acid-treated colostrum ad libitum on intake and immunoglobulin levels in dairy calves , 2011, Canadian Journal of Animal Science.

[10]  J. Rushen,et al.  Feeding behavior of calves fed small or large amounts of milk. , 2009, Journal of dairy science.

[11]  S. Martin,et al.  Veterinary Epidemiologic Research , 2009 .

[12]  S. Mcguirk Disease Management of Dairy Calves and Heifers , 2008, Veterinary Clinics of North America: Food Animal Practice.

[13]  D. Weary,et al.  Behavioural indicators of hunger in dairy calves , 2008 .

[14]  M. Khan,et al.  Structural growth, rumen development, and metabolic and immune responses of Holstein male calves fed milk through step-down and conventional methods. , 2007, Journal of dairy science.

[15]  S. Kim,et al.  Pre- and postweaning performance of holstein female calves fed milk through step-down and conventional methods. , 2007, Journal of dairy science.

[16]  Y. A. Aragón,et al.  The use of acids to preserve feedstuffs. , 2007 .

[17]  T. Tennessen,et al.  Application of the three R's in agricultural research and teaching: CCAC guidelines on: The care and use of farm animals in research, teaching and testing. , 2006 .

[18]  S. Godden,et al.  Preventing bacterial contamination and proliferation during the harvest, storage, and feeding of fresh bovine colostrum. , 2005, Journal of dairy science.

[19]  D. Weary,et al.  Effects of ad libitum milk intake on dairy calves. , 2002, Journal of dairy science.

[20]  D. Weary,et al.  Performance and feeding behaviour of calves on ad libitum milk from artificial teats , 2001 .

[21]  J. M. Smith,et al.  Composition of growth of Holstein calves fed milk replacer from birth to 105-kilogram body weight. , 2001, Journal of dairy science.

[22]  J. Cullor,et al.  Number of viable bacteria and presumptive antibiotic residues in milk fed to calves on commercial dairies. , 1997, Journal of the American Veterinary Medical Association.

[23]  T. Carpenter,et al.  Effect of preweaning feeding of pasteurized and nonpasteurized milk on postweaning weight gain of heifer calves on a Californian dairy , 1996, Preventive Veterinary Medicine.

[24]  T. Carpenter,et al.  Economics of feeding pasteurized colostrum and pasteurized waste milk to dairy calves. , 1996, Journal of the American Veterinary Medical Association.

[25]  P. Physick-Sheard,et al.  The microbial flora of the respiratory tract in feedlot calves: associations between nasopharyngeal and bronchoalveolar lavage cultures. , 1991, Canadian journal of veterinary research = Revue canadienne de recherche veterinaire.

[26]  L. D. Muller,et al.  Guidelines toward more uniformity in measuring and reporting calf experimental data. , 1977 .

[27]  J. Huber,et al.  Preservation of and Animal Performance on High Moisture Corn Treated with Ammonia or Propionic Acid , 1976 .

[28]  D. C. Church,et al.  Taste responses in ruminants. 4. Reactions of pygmy goats, normal goats, sheep and cattle to acetic acid and quinine hydrochloride. , 1970, Journal of animal science.