Changes in feeding behavior as possible indicators for the automatic monitoring of health disorders in dairy cows.

Changes in short-term feeding behavior of dairy cows that occur with the onset of the health disorders ketosis, acute locomotory problems, and chronic lameness were investigated using data collected during previous experiments. The objective of the study was to describe and quantify those changes and to test their suitability as early indicators of disease. Feed intake, feeding time, and number of daily feeder visits were recorded with computerized feeders. Ketosis in 8 cows was characterized by rapid daily decreases in feed intake [-10.4 kg of fresh matter (FM)], feeding time (-45.5 min), and feeding rate (-25.3 g of FM/min) during an average of 3.6 d before diagnosis by farm staff. Acute locomotion disorders in 14 cows showed smaller daily decreases in feed intake (-1.57 kg of FM) and feeding time (-19.1 min), and a daily increase in feeding rate (+21.6 g of FM/min) during an average of 7.7 d from onset to diagnosis. The effects of chronic lameness on short-term feeding behavior were assessed by analyzing changes during the 30 d before and 30 d after all cows were checked for foot lesions and trimmed, and cows were classified as either lame (n = 81) or not lame (n = 62). During the 30 d before trimming, cows classified as lame showed significant changes in daily feeding time, number of daily visits, and feeding rate, but nonlame cows did not. In lame cows, the observed daily changes (slope) for the 30 d before and the 30 d after trimming were -0.75 and +0.32 min/d for daily feeding time, -0.35 and +0.31 for daily number of visits, and +0.77 and -0.35 g/min for feeding rate, respectively. These changes in feeding behavior were not different among cows consuming low or high forage rations. Daily feeding time was the feeding characteristic that changed most consistently in relation to the studied disorders. A simple algorithm was used to identify cows whose daily feeding time was lower than the previous 7-d rolling average minus 2.5 standard deviations. The algorithm resulted in detection of more than 80% of cows with acute disorders at least 1 d before diagnosis by farm staff. Short-term feeding behavior showed very characteristic changes with the onset of disorders, which suggests that a system that monitors short-term feeding behavior can assist in the early identification of sick cows.

[1]  H. Whay,et al.  The influence of lesion type on the duration of hyperalgesia associated with hindlimb lameness in dairy cattle. , 1998, Veterinary journal.

[2]  R. Esslemont,et al.  The costs of production diseases in dairy herds in England. , 1997, Veterinary journal.

[3]  C. McCulloch,et al.  Effects of milk fever, ketosis, and lameness on milk yield in dairy cows. , 1999, Journal of dairy science.

[4]  K. Maatje,et al.  Automated feeding of milk replacer and health control of group-housed veal calves , 1993, Veterinary Record.

[5]  W A Weijs,et al.  The effect of preventive trimming on weight bearing and force balance on the claws of dairy cattle. , 2004, Journal of dairy science.

[6]  Joachim Krieter,et al.  Mastitis detection in dairy cows by application of fuzzy logic , 2006 .

[7]  W. Klee,et al.  The relationship between milk yield and the incidence of some diseases in dairy cows. , 2001, Journal of dairy science.

[8]  I. Kyriazakis,et al.  Measuring diet selection in dairy cows: effect of training on choice of dietary protein level , 1997 .

[9]  Gerry C. Emmans,et al.  Meal patterns of dairy cows consuming mixed foods with a high or a low ratio of concentrates to grass silage , 2002 .

[10]  J. Nocek Bovine acidosis: implications on laminitis. , 1997, Journal of dairy science.

[11]  Toby Mottram,et al.  Automatic monitoring of the health and metabolic status of dairy cows , 1997 .

[12]  D. Weary,et al.  Feeding behavior identifies dairy cows at risk for metritis. , 2005, Journal of dairy science.

[13]  I. Kyriazakis,et al.  The use of mixed distribution models to determine bout criteria for analysis of animal behaviour. , 2001, Journal of theoretical biology.

[14]  J. A. Lines,et al.  A review of livestock monitoring and the need for integrated systems , 1997 .

[15]  R. Veerkamp,et al.  Diet choice by dairy cows. 1. Selection of feed protein content during the first half of lactation. , 1998, Journal of dairy science.

[16]  D M Weary,et al.  Prepartum behavior and dry matter intake identify dairy cows at risk for metritis. , 2007, Journal of dairy science.

[17]  A. Bach,et al.  Associations between lameness and production, feeding and milking attendance of Holstein cows milked with an automatic milking system , 2006, Journal of Dairy Research.

[18]  W. Quimby,et al.  Application of feeding behaviour to predict morbidity of newly received calves in a commercial feedlot , 2001 .

[19]  Sarah Hassall,et al.  Effects of lameness on the behaviour of cows during the summer , 1993, Veterinary Record.

[20]  R. Dewhurst,et al.  Diet choice by dairy cows. 2. Selection for metabolizable protein or for ruminally degradable protein? , 1998, Journal of dairy science.

[21]  Nathalie Bareille,et al.  Effects of health disorders on feed intake and milk production in dairy cows , 2003 .

[22]  C. Bergsten Causes, Risk Factors, and Prevention of Laminitis and Related Claw Lesions , 2003, Acta veterinaria Scandinavica. Supplementum.

[23]  A. M. Kjeldsen,et al.  Mortality (including euthanasia) among Danish dairy cows (1990-2001). , 2004, Preventive veterinary medicine.

[24]  N. Cook,et al.  Effect of free stall surface on daily activity patterns in dairy cows with relevance to lameness prevalence. , 2004, Journal of dairy science.

[25]  I. Kyriazakis,et al.  To split behaviour into bouts, log-transform the intervals , 1999, Animal Behaviour.

[26]  R M de Mol,et al.  Application of fuzzy logic in automated cow status monitoring. , 2001, Journal of dairy science.

[27]  M. Jensen,et al.  Short communication: Identification of diseased calves by use of data from automatic milk feeders. , 2007, Journal of dairy science.

[28]  F. Manson,et al.  The influence of concentrate amount on locomotion and clinical lameness in dairy cattle , 1988 .

[29]  O. Østerås,et al.  Bovine claw and limb disorders at claw trimming related to milk yield. , 2007, Journal of dairy science.

[30]  I Kyriazakis,et al.  The biologically relevant unit for the analysis of short-term feeding behavior of dairy cows. , 2000, Journal of dairy science.

[31]  H. Seegers,et al.  Effects of disease on milk production in the dairy cow: a review. , 1999, Preventive veterinary medicine.