Short communication: Lameness impairs feeding behavior of dairy cows.

The automated, reliable, and early detection of lameness is an important aim for the future development of modern dairy operations. One promising indicator of lameness is a change in the feeding behavior of a cow. In this study, the associations between feeding behavior and lameness were evaluated. A herd of 50 cows was investigated during the winter season in a freestall barn. Feeding behavior, feed intake, milk yield, and body weight were monitored using electronic feeding troughs and an automated milking system. Gait scoring every second week was used as a measure of lameness. To analyze the effect of lameness on feeding behavior and milk yield, linear mixed models were used. Cows with more severe lameness spent less time feeding per day (104 ± 4, 101 ± 4, and 91 ± 4 min/d for lameness scores 2, 3, and 4, respectively). An interaction between parity and lameness score was detected, with severely lame primiparous cows spending the least time feeding. Severely lame cows fed faster; however, their body weights were lower than for less-lame cows. Increase in lactation stage was associated with longer daily feeding time, longer duration of feeding bouts, and lower feeding rate. Worsening of gait was associated with lower silage intake and less time spent feeding even before severe lameness was scored. The results indicate that lameness is associated with changes in feeding behavior and that such changes could be considered in the future development of remote monitoring systems. It should also be noted that impaired feeding behavior along with lameness can put the welfare of especially early lactating primiparous cows at risk.

[1]  M. Coffey,et al.  Changes in feeding behavior as possible indicators for the automatic monitoring of health disorders in dairy cows. , 2008, Journal of dairy science.

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

[3]  C. Brenninkmeyer,et al.  Risk factors for lameness in freestall-housed dairy cows across two breeds, farming systems, and countries. , 2009, Journal of dairy science.

[4]  R. Grant,et al.  Short communication: Relationship between competitive success during displacements at an overstocked feed bunk and measures of physiology and behavior in Holstein dairy cattle. , 2012, Journal of dairy science.

[5]  D. Weary,et al.  Temporal feed restriction and overstocking increase competition for feed by dairy cattle. , 2011, Journal of dairy science.

[6]  A. Valros,et al.  Milk yield affects time budget of dairy cows in tie-stalls. , 2012, Journal of dairy science.

[7]  D Berckmans,et al.  Analysis of individual classification of lameness using automatic measurement of back posture in dairy cattle. , 2013, Journal of dairy science.

[8]  M A Stevenson,et al.  The effect of clinical lameness on liveweight in a seasonally calving, pasture-fed dairy herd. , 2012, Journal of dairy science.

[9]  D. Weary,et al.  Behavior during transition differs for cows diagnosed with claw horn lesions in mid lactation. , 2010, Journal of dairy science.

[10]  D M Weary,et al.  Lying behavior: assessing within- and between-herd variation in free-stall-housed dairy cows. , 2009, Journal of dairy science.

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

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

[13]  Joachim Krieter,et al.  Mastitis and lameness detection in dairy cows by application of fuzzy logic , 2009 .

[14]  L. Green,et al.  The impact of clinical lameness on the milk yield of dairy cows. , 2002, Journal of dairy science.

[15]  N. Bell,et al.  A descriptive review of the peer and non-peer reviewed literature on the treatment and prevention of foot lameness in cattle published between 2000 and 2011. , 2012, Veterinary journal.

[16]  M. Endres,et al.  Prevalence of lameness in high-producing holstein cows housed in freestall barns in Minnesota. , 2006, Journal of dairy science.

[17]  D M Weary,et al.  Effect of feeding space on the inter-cow distance, aggression, and feeding behavior of free-stall housed lactating dairy cows. , 2004, Journal of dairy science.

[18]  C. Winckler,et al.  The Reliability and Repeatability of a Lameness Scoring System for Use as an Indicator of Welfare in Dairy Cattle , 2001 .

[19]  L. Caixeta,et al.  Lameness in dairy cattle: A debilitating disease or a disease of debilitated cattle? A cross-sectional study of lameness prevalence and thickness of the digital cushion. , 2009, Journal of dairy science.

[20]  S. Brotherstone,et al.  Risk factors and milk yield losses associated with lameness in Holstein-Friesian dairy cattle. , 2008, Animal : an international journal of animal bioscience.

[21]  M. V. Keyserlingk,et al.  Competition for feed affects the feeding behavior of growing dairy heifers. , 2009, Journal of dairy science.

[22]  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.

[23]  H. Whay,et al.  Associations between locomotion, claw lesions and nociceptive threshold in dairy heifers during the peri-partum period. , 1997, Veterinary journal.

[24]  J. Rushen,et al.  The effect of incomplete milking or nursing on milk production, blood metabolites, and immune functions of dairy cows. , 2012, Journal of dairy science.

[25]  A Bach,et al.  Short communication: lying behavior of lactating dairy cows is influenced by lameness especially around feeding time. , 2012, Journal of dairy science.

[26]  J. Rushen,et al.  Measures of weight distribution of dairy cows to detect lameness and the presence of hoof lesions. , 2010, Journal of dairy science.

[27]  N. Chapinal,et al.  Automated methods for detecting lameness and measuring analgesia in dairy cattle. , 2010, Journal of dairy science.

[28]  D M Weary,et al.  Lying behavior as an indicator of lameness in dairy cows. , 2010, Journal of dairy science.

[29]  H. Saloniemi,et al.  Competitive behaviour of dairy cows at a concentrate self-feeder , 2005 .

[30]  D. Weary,et al.  Prepartum feeding behavior is an early indicator of subclinical ketosis. , 2009, Journal of dairy science.

[31]  J Rushen,et al.  Measurement of acceleration while walking as an automated method for gait assessment in dairy cattle. , 2011, Journal of dairy science.

[32]  D. Val-Laillet,et al.  The concept of social dominance and the social distribution of feeding-related displacements between cows , 2008 .

[33]  B. L. Nielsen,et al.  On the interpretation of feeding behaviour measures and the use of feeding rate as an indicator of social constraint , 1999 .

[34]  L. Green,et al.  Assessment of the welfare of dairy caftle using animal-based measurements: direct observations and investigation of farm records , 2003, Veterinary Record.

[35]  J. Amory,et al.  The effect of lameness on lying behaviour of zero grazed Holstein dairy cattle , 2011 .

[36]  N. Cook,et al.  Time budgets of lactating dairy cattle in commercial freestall herds. , 2010, Journal of dairy science.

[37]  D M Weary,et al.  Board-invited review: Using behavior to predict and identify ill health in animals. , 2009, Journal of animal science.

[38]  Niamh O'Connell,et al.  Relationships between lameness and feeding behaviour in cubicle-housed Holstein–Friesian dairy cows , 2012 .