Abstract
Bivariate analyses of functional longevity in dairy cattle measured as survival to next lactation (SURV) with milk yield and fertility traits were carried out. A sequential threshold-linear censored model was implemented for the analyses of SURV. Records on 96 642 lactations from 41 170 cows were used to estimate genetic parameters, using animal models, for longevity, 305 d-standardized milk production (MY305), days open (DO) and number of inseminations to conception (INS) in the Spanish Holstein population; 31% and 30% of lactations were censored for DO and INS, respectively. Heritability estimates for SURV and MY305 were 0.11 and 0.27 respectively; while heritability estimates for fertility traits were lower (0.07 for DO and 0.03 for INS). Antagonist genetic correlations were estimated between SURV and fertility (-0.78 and -0.54 for DO and INS, respectively) or production (-0.53 for MY305), suggesting reduced functional longevity with impaired fertility and increased milk production. Longer days open seems to affect survival more than increased INS. Also, high productive cows were more problematic, less functional and more liable to being culled. The results suggest that the sequential threshold model is a method that might be considered at evaluating genetic relationship between discrete-time survival and other traits, due to its flexibility.
Highlights
Production, longevity and fertility are traits of major interest for the dairy industry
Reproductive performance is essential in both tasks because a proper female fertility allows for a subsequent lactation that ensures income from milk yield and may increase herd life
In this paper we propose a bivariate analysis for one discrete-time survival trait and one Gaussian trait
Summary
Production, longevity and fertility are traits of major interest for the dairy industry. Emphasis placed on selection for milk production has led to deterioration of fertility [2, 30, 34] and reduction of herd life [19, 31]. The dairy industry needs cows that are able to produce enough milk to ensure sustainability of farms, and cows that live longer to reduce rearing costs. Reproductive performance is essential in both tasks because a proper female fertility allows for a subsequent lactation that ensures income from milk yield and may increase herd life. Total merit indices in all countries include production traits; female fertility is not always included in the total merit indices, and those including survival often analyze indirect longevity using correlated traits as body traits, fertility or udder health [21]
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