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Step behaviour and autonomic nervous system activity in multiparous dairy cows during milking in a herringbone milking system

Published online by Cambridge University Press:  17 February 2015

F. L. Kézér
Affiliation:
Department of Cattle and Sheep Breeding, Institute of Animal Science, Faculty of Agricultural and Environmental Science, Szent István University, Gödöllő, Páter Károly u. 1, H-2103, Hungary Hungarian Academy of Sciences (HAS)–SZIE Large Animal Clinical Research Group, Üllő-Dóra major, H-2225, Hungary
L. Kovács*
Affiliation:
Department of Cattle and Sheep Breeding, Institute of Animal Science, Faculty of Agricultural and Environmental Science, Szent István University, Gödöllő, Páter Károly u. 1, H-2103, Hungary Hungarian Academy of Sciences (HAS)–SZIE Large Animal Clinical Research Group, Üllő-Dóra major, H-2225, Hungary
J. Tőzsér
Affiliation:
Department of Cattle and Sheep Breeding, Institute of Animal Science, Faculty of Agricultural and Environmental Science, Szent István University, Gödöllő, Páter Károly u. 1, H-2103, Hungary
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Abstract

Behavioural and cardiac responses of multiparous dairy cows (n=24) during milking in a 2×4 stall herringbone milking system were evaluated in this study. Heart rate (HR), parasympathetic tone index (high frequency component, HF) of heart rate variability and sympathovagal balance indicator LF/HF ratio (the ratio of the low frequency (LF) and the HF component) were analysed. Measurement periods were established as follows: (1) standing calm (baseline), (2) udder preparation, (3) milking, (4) waiting after milking in the milking stall and (5) in the night (2 h after milking). Step behaviour was recorded and calculated per minute for the three phases of the milking process (udder preparation, milking and waiting after milking). HR was higher during udder preparation and milking compared with baseline (P=0.03, 0.027, respectively). HF was significantly lower than baseline levels during waiting in the milking stall after milking (P=0.009), however, during udder preparation, milking and 2 h after milking did not differ from baseline (P>0.05, in either case). LF/HF during the three phases of the milking process differed neither from baseline levels nor from each other. Steps occurred more often during waiting after milking than during udder preparation (P=0.042) or during milking (23; P=0.017). Our results suggest that the milking procedure itself was not stressful for these animals. After milking (following the removal of the last teat cup and before leaving the milking stall), both decreased parasympathetic tone (lower HF) and increased stepping rate indicated a sensitive period for animals during this phase.

Type
Research Article
Copyright
© The Animal Consortium 2015 

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References

Bremner, KJ 1997. Behavior of dairy heifers during adaptation to milking. Proceedings of the New Zealand Society of Animal Production 57, 105108.Google Scholar
Bruckmaier, RM 2005. Normal and disturbed milk ejection in dairy cows. Domestic Animal Endocrinology 29, 268273.CrossRefGoogle ScholarPubMed
Gygax, L, Neuffer, I, Kaufmann, C, Hauser, R and Wechsler, B 2008. Restlessness behaviour, heart rate and heart-rate variability of dairy cows milked in two types of automatic milking systems and auto-tandem milking parlours. Applied Animal Behaviour Science 109, 167179.CrossRefGoogle Scholar
Hagen, K, Lexer, D, Palme, R, Troxler, J and Waiblinger, S 2004. Milking of Brown Swiss and Austrian Simmental cows in a herringbone parlour or an automatic milking unit. Applied Animal Behaviour Science 88, 209225.Google Scholar
Hagen, K, Langbein, J, Schmied, C, Lexer, D and Waiblinger, S 2005. Heart rate variability in dairy cows – influences of breed and milking system. Physiology and Behavior 85, 195204.Google Scholar
Hopster, H, Joop, T, Werf van der, JTN and Blokhuis, HJ 1998. Side preference of dairy cows in the milking parlour and its effects on behaviour and heart rate during milking. Applied Animal Behaviour Science 55, 213229.CrossRefGoogle Scholar
Hopster, H, Bruckmaier, RM, Werf van der, JTN, Korte, SM, Macuhova, J, Korte-Bouws, G and Renen van, CG 2002. Stress responses during milking; comparing conventional and automatic milking in primiparous dairy cows. Journal of Dairy Science 85, 32063216.Google Scholar
Kovács, L, Jurkovich, V, Bakony, M, Póti, P, Szenci, O and Tőzsér, J 2014. Welfare assessment in dairy cattle by heart rate and heart rate variability – literature review and implications for future research. Animal 8, 316330.Google Scholar
Porges, SW 1995. Cardiac vagal tone: a physiological index of stress. Neuroscience and Biobehavioral Reviews 19, 225233.CrossRefGoogle Scholar
Rushen, J, Passillé de, AM and Munksgaard, L 1999. Fear of people by cows and effects on milk yield, behavior, and heart rate at milking. Journal of Dairy Science 82, 720727.Google Scholar
von Borell, E, Langbein, J, Després, G, Hansen, S, Leterrier, C, Marchant-Forde, J, Marchant-Forde, R, Minero, M, Mohr, E, Prunier, A, Valance, D and Veissier, I 2007. Heart rate variability as a measure of autonomic regulation of cardiac activity for assessing stress and welfare in farm animals: a review. Physiology and Behavior 92, 293316.Google Scholar
Wenzel, C, Schonreiter-Fischer, S and Unshelm, J 2003. Studies on step-kick behavior and stress of cows during milking in an automatic milking system. Livestock Production Science 83, 237246.CrossRefGoogle Scholar