Genetic parameters for body condition score and its relationship with type and production traits in Swiss Holsteins

The objectives of this study were to estimate the genetic and environmental parameters between body condition score (BCS) and 27 conformation and 3 production traits in Swiss Holstein cattle. The dataset consisted of 31,500 first-lactation cows, which were daughters of 545 sires in 1867 herds. Bivariate sire models with relationships among sires were used to estimate parameters. Least squares means for BCS by lactation stage show that cows lose BCS up to 5 mo after calving and gain BCS prior to the next calving. Regression models showed that an increase in age and percentage of Holstein genes results in an increase and decrease in BCS, respectively. Heritability (h(2)) was 0.24 for BCS score, which indicates good potential for selection. Sire estimated breeding values for BCS ranged from - 0.46 to + 0.51 units. Heritabilities ranged from 0.08 ( heel depth) to 0.46 ( rump width) for type traits and 0.23 to 0.29 for yield traits. Genetic correlations of BCS with 8 conformation traits were significant; stature (0.28), heart girth (0.21), strength (0.17), loin (- 0.39), body capacity (0.19), dairy character (- 0.35), udder quality (- 0.42), and teat position rear (- 0.33). Milk production and body condition have an unfavorable genetic correlation (- 0.12 to - 0.17). These results show that selection for good body condition, body conformation, and optimal milk production is possible and their genetic associations reported here will be useful for designing Swiss breeding goals.