[HTML][HTML] Estimation of energy balance at the individual and herd level using blood and milk traits in high-yielding dairy cows

M Reist, D Erdin, D Von Euw, K Tschuemperlin… - Journal of dairy …, 2002 - Elsevier
M Reist, D Erdin, D Von Euw, K Tschuemperlin, H Leuenberger, Y Chilliard, HM Hammon…
Journal of dairy science, 2002Elsevier
This study aimed to estimate individual and herd-level energy balance (EB) using blood and
milk traits in 90 multiparous high-yielding Holstein cows, held on a research farm, from wk 1
to 10 postpartum (pp) and to investigate the precision of prediction with successively
decreased data sets simulating smaller herd sizes and with pooled samples. Dry matter
intake, milk yield, and BW were measured daily from parturition through wk 10 pp Milk
composition was determined 4 times per week, and milk acetone was measured weekly …
This study aimed to estimate individual and herd-level energy balance (EB) using blood and milk traits in 90 multiparous high-yielding Holstein cows, held on a research farm, from wk 1 to 10 postpartum (p.p.) and to investigate the precision of prediction with successively decreased data sets simulating smaller herd sizes and with pooled samples. Dry matter intake, milk yield, and BW were measured daily from parturition through wk 10 p.p. Milk composition was determined 4 times per week, and milk acetone was measured weekly. Blood samples for the determination of metabolites, hormones, electrolytes, and enzyme activities were taken weekly from wk 1 to 10 p.p. between 0730 and 0900. Body condition scores and ultrasonic measurements of backfat thickness and fat depth in the pelvic area were evaluated in wk 1, 4, and 8 p.p. Concentrations of glucose, cholesterol, urea, insulin, insulin-like growth factor-1, triiodothyronine, and thyroxine (T4) in blood plasma and of lactose and urea in milk were positively correlated with EB, whereas concentrations of nonesterified fatty acids (NEFA), creatinine, albumin, β-hydroxybutyrate, and growth hormone and enzyme activities in blood, and concentrations of fat, protein, fat:lactose ratio, and acetone in milk were negatively correlated with EB. Leptin concentration was not correlated to EB over the first 10 wk p.p. To estimate EB linear mixed-effects, models were developed by backward selection procedures. The most informative traits for estimation of EB were the fat:lactose ratio in milk and NEFA and T4 concentrations in blood. The precision of estimation of EB in individual cows was low. Using blood in addition to milk traits did not result in higher precision of estimation of herd-level EB, and decreasing sample sizes considerably lowered the precision of EB prediction. Estimation of overall mean herd-level EB over the first 10 wk p.p. using pooled samples was precise even with small sample sizes, but does not consider the level of EB in particular weeks. In conclusion, estimation of herd-level EB at individual weeks using milk traits only has practical implication with herd sizes of ≥100 cows if calving is highly seasonal and of ≥400 cows if calving is uniformly distributed. Using blood in addition to milk traits does not improve precision of estimation of herd-level EB, regardless of sample size.
Elsevier