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Performance,body fat reserves and plasma metabolites in Brown Swiss dairy cows: Indoor feeding versus pasture‐based feeding
Authors:H.‐J. Frey  J. J. Gross  R. Petermann  S. Probst  R. M. Bruckmaier  P. Hofstetter
Affiliation:1. Vocational Education and Training Centre for Nature and Nutrition (BBZN), Hohenrain/Schüpfheim, Switzerland;2. Veterinary Physiology, Vetsuisse Faculty, University of Bern, Bern, Switzerland;3. School of Agricultural, Forest and Food Sciences (HAFL), Bern University of Applied Sciences, Zollikofen, Switzerland
Abstract:Feeding dairy cows indoors or on pasture affects not only labour, machinery and housing costs, but also animals’ performance and metabolism. This study investigates the effects of indoor feeding (IF) with a partial‐mixed ration (PMR) versus pasture‐based feeding (PF) on milk production, fertility, backfat thickness (BFT), body weight (BW) loss and energy metabolism of Brown Swiss (BS) dairy cows with similar genetic production potential. The IF herd consisted of 13 cows fed a PMR composed of maize and grass silage plus protein concentrate according to each cow's requirements. The PF herd consisted of 14 cows offered barn‐ventilated hay ad libitum after calving from January until March and grazed on semi‐continuous pastures during the vegetation period. The IF cows produced more energy‐corrected milk (ECM) per standard lactation (9,407 vs. 5,960 kg; p < .01), more milk fat (378 vs. 227 kg; p < .01) and milk protein (326 vs. 215 kg; p < .01). The calving interval (377 vs. 405 days; p < .01) and time empty (86 vs. 118 days; p < .01) were shorter in the PF compared to IF, possibly also due to different selection criteria for maintaining the respective seasonal calving rhythm. The empty body fat loss calculated according to BCS until its nadir was higher in IF cows (IF: 10.4 vs. PF: 4.8 MJ/day; p < .01), but no differences were noted in total body fat loss estimated via BFT (p = .24). However, PF had lower blood glucose concentration at all investigated time points, but no differences occurred in serum non‐esterified fatty acid and β‐hydroxybutyrate concentrations post‐partum. In conclusion, BS cows were equally well suited for the IF with PMR and the PF system investigated here without developing a prominent metabolic load despite differences in nutrient supply. As such, investigated BS dairy cows in our trial seem to have a high capacity for metabolic adaptation to different production systems.
Keywords:body reserves  dairy cow  metabolic adaptation  pasture  performance
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