VetSRev
Database of veterinary systematic reviews
Database of veterinary systematic reviews
Livestock Science (2020) 241: 241
DOI: 10.1016/j.livsci.2020.104222
The objectives of this study were to quantitatively summarize factors associated with cow milk yield (MY) and calf growth response in pasture-based beef cow-calf suckler systems and to discern how cow genotype and parity influenced these responses. A dataset of 344 treatment mean observations was compiled from 69 studies that reported data on cow MY, and calf pre-weaning average daily live weight gain (ADG) and/or weaning weight (WW). Data were analysed using linear mixed effects models with study and region included as random effects. Models were developed for cow MY, calf ADG and WW response and each model was evaluated based on different model fit statistics. The final cow MY model included cow origin (Dairybeef or Beef), cow maturity (early-maturing (EM) or late-maturing (LM) genotypes) and parity. Dairybeef produced 35.4% more milk (8.64 vs. 6.38 kg/day) than Beef cows, and LM produced 20.9% more milk (8.20 vs. 6.78 kg/day) than EM genotypes (P \textless 0.001). Multiparous cows had a 14.8% higher MY (8.11 vs. 7.06 kg/day) compared to primiparous cows (P \textless 0.001). Lactation curve persistency was better (P \textless 0.05) for Beef and EM compared to Dairybeef and LM genotype cows, respectively. The final models of calf ADG and WW included cow origin, cow maturity and parity. Calves from Dairybeef and LM cows were 14 and 20 kg heavier (P \textless 0.001) at weaning (210-day adjusted) compared to those from Beef and EM genotype cows, respectively. Calves from multiparous cows were 13 kg heavier at weaning than those from primiparous cows (P \textless 0.001). The response in calf ADG associated with a 1 kg increase in cow daily MY was 47 and 53 g for Dairybeef and Beef cows, respectively (P \textless 0.001). Corresponding responses for EM and LM cows were 51 and 55 g (P \textless 0.001). In conclusion, the relationships between cow MY and calf pre-weaning growth, as well as the quantitative impact of cow genotype and parity were determined for pasture-based beef suckler systems; the coefficients generated can be used for improving beef cow-calf management strategies, beef cattle breeding programmes and bio-economic modelling purposes.
Sapkota, D., Kelly, A. K., Crosson, P., White, R. R., & McGee, M. (2020). Quantification of cow milk yield and pre-weaning calf growth response in temperate pasture-based beef suckler systems: a meta-analysis. Livestock Science, 241, 241. https://doi.org/10.1016/j.livsci.2020.104222 cattle, cows, dairy cattle, meta-analysis, Animal Genetics and Breeding [LL240], beef cattle, Food Composition and Quality [QQ500], genotypes, Dairy Animals [LL110], lactation, Mathematics and Statistics [ZZ100], Meat Producing Animals [LL120], weaning weight, data analysis, research, studies, animal breeding, milk, Milk and Dairy Produce [QQ010], models, temperature, growth rate, calves, weaning, milk yield, weight gain, breeding programmes, quantitative analysis, statistics, Grasslands and Rangelands [PP350], grazing lands, pastures, breeding programs, beef cows, datasets, lactation curve, suckler herds