Analysis of lactating cows on commercial Austrian dairy farms: the influence of genotype and body weight on efficiency parameters

Maria Ledinek; Leonhard Gruber; Franz Steininger; Birgit Fuerst-Waltl; Karl Zottl; Martin Royer; Kurt Krimberger; Martin Mayerhofer; Christa Egger-Danner

doi:10.5194/aab-62-491-2019

Analysis of lactating cows on commercial Austrian dairy farms: the influence of genotype and body weight on efficiency parameters

Arch Anim Breed. 2019 Jul 29;62(2):491-500. doi: 10.5194/aab-62-491-2019. eCollection 2019.

Authors

Maria Ledinek¹, Leonhard Gruber², Franz Steininger³, Birgit Fuerst-Waltl¹, Karl Zottl⁴, Martin Royer², Kurt Krimberger², Martin Mayerhofer³, Christa Egger-Danner³

Affiliations

¹ Department of Sustainable Agricultural Systems, BOKU - University of Natural Resources and Life Sciences Vienna, Vienna, 1180, Austria.
² Agricultural Research and Education Centre Raumberg-Gumpenstein, Irdning-Donnersbachtal, 8952, Austria.
³ ZuchtData EDV-Dienstleistungen GmbH, Vienna, 1200, Austria.
⁴ LKV Niederösterreich, Zwettl, 3910, Austria.

Abstract

The aim of this study was twofold: first, to evaluate the influence of body weight on the efficiency of dairy cows, and second, to analyze the current state of dairy cattle populations as part of the Austrian Cattle Breeding Association's Efficient Cow project. Data of Fleckvieh (FV, dual-purpose Simmental), Fleckvieh $\times$ Red Holstein (FV $\times$ RH), Holstein (HF) and Brown Swiss (BS) dairy cows (161 farms, 6098 cows) were collected at each performance recording during the year 2014. In addition to routinely recorded data (e.g., milk yield, fertility), body weight, body measurements, body condition score (BCS) and individual feed information were also collected. The following efficiency traits were considered: body weight efficiency as the ratio of energy-corrected milk (ECM) to metabolic body weight, feed efficiency (kilogram ECM per kilogram dry-matter intake) and energy efficiency expressed as the ratio of energy in milk to energy intake. The relationship of milk yield to body weight was shown to be nonlinear. Milk yield decreased in cows above the 750 kg body weight class for HF, BS and FV $\times$ RH with 68 % RH genes, but less dramatically and later for FV at 800 kg. This resulted in an optimum body weight for feed and energy efficiency. BS and HF had the highest efficiency in a narrower and lighter body weight range (550-700 kg) due to a stronger curvature of the parabolic curve. Contrary to this, the efficiency of FV did not change as much as it did in the dairy breeds with increasing body weight, meaning that FV had a similar feed and energy efficiency in a range of 500-750 kg. The breed differences disappeared when body weight ranged between 750 and 800 kg. The average body weight of the breeds studied (FV 722 kg, BS 649 and HF 662 kg) was in the optimum range. FV was located at the upper end of the decreasing segment. In conclusion, an optimum body weight range for efficiency does exist, due to the nonlinear relationship of milk yield and body weight. Specialized dairy breeds seem to respond more intensively to body weight range than dual-purpose breeds, due to the stronger curvature. Cows with medium weights within a population are the most efficient. Heavy cows ( $> 750$ kg) produce even less milk. A further increase in dairy cows' body weights should therefore be avoided.