Farm-level factors associated with lameness prevalence, productivity, and milk quality in farms with automated milking systems

Abstract

Impaired locomotion (lameness) may negatively affect the ability and desire of cows to milk voluntarily, which is a key factor in success of automated milking systems (AMS). The objective of this study was to identify fac-tors associated with herd-level lameness prevalence and associations of lameness and other farm-level factors with milking activity, milk yield, and milk quality in herds with AMS. From April to September 2019, 75 herds with AMS in Ontario, Canada, were visited, and data on barn design and farm management practices were collected. Data from AMS were collected, along with milk recording data, for the 6-mo period before farm visits. Farms averaged 98 +/- 71 lactating cows, 2.3 +/- 1.5 robot units/farm, 43.6 +/- 9.4 cows/robot, 36.4 +/- 4.9 kg/d of milk, a milking frequency of 3.01 +/- 0.33 milkings/d, and a herd average geometric mean SCC of 179.3 +/- 74.6 (x 1,000) cells/mL. Thirty per-cent of cows/farm (minimum of 30 cows/farm) were scored for body condition (1 = underconditioned to 5 = over conditioned) and locomotion (1 = sound to 5 = lame; clinically lame >3 out of 5 = 28.3 +/- 11.7%, and severely lame >4 out of 5 = 3.0 +/- 3.2%). Clinical lame-ness (locomotion score >3) was less prevalent on farms with sand bedding, with increased feed bunk space per cow, and on farms with non-Holstein breeds versus Holsteins, and tended to be less prevalent with lesser proportion of underconditioned cows (with body con-dition score <= 2.5). Severe lameness occurrence (farms with any cows with locomotion score >4) was asso-ciated with a greater proportion of underconditioned cows and in farms with stalls with greater curb heights. Herd average milk yield/cow per day increased with lesser prevalence of clinical lameness (each 10-percent -age-point decrease in clinical lameness prevalence was associated with 2.0 kg/cow per day greater milk yield) and greater milking visit frequency per day, and tended to be greater with increased feed push-up frequency. Lesser herd average somatic cell count was associated with lesser clinical lameness prevalence, herd average days in milk, and proportion of overconditioned cows, and somatic cell count tended to be lesser for farms with sand bedding versus those with organic bedding substrates. The results highlight the importance of minimizing lameness prevalence, using of sand bedding, ensuring adequate feed access and feed bunk space, and maintaining proper cow body condition to optimize herd-level productivity and milk quality in AMS herds.