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Time budgets and adrenocortical activity of cows milked in a robot or a milking parlour: interrelationships and influence of social rank

Published online by Cambridge University Press:  01 January 2023

D Lexer*
Affiliation:
Institute of Animal Husbandry and Animal Welfare, Department for Farm Animals and Veterinary Public Health, University of Veterinary Medicine Vienna, Veterinärplatz 1, A-1210 Vienna, Austria
K Hagen
Affiliation:
Europäische Akademie, Bad Neuenahr-Ahrweiler GmbH, Germany
R Palme
Affiliation:
Institute of Biochemistry, Department for Biomedical Sciences, University of Veterinary Medicine Vienna, Austria
J Troxler
Affiliation:
Institute of Animal Husbandry and Animal Welfare, Department for Farm Animals and Veterinary Public Health, University of Veterinary Medicine Vienna, Veterinärplatz 1, A-1210 Vienna, Austria
S Waiblinger
Affiliation:
Institute of Animal Husbandry and Animal Welfare, Department for Farm Animals and Veterinary Public Health, University of Veterinary Medicine Vienna, Veterinärplatz 1, A-1210 Vienna, Austria
*
* Contact for correspondence and requests for reprints: Daniela.Lexer@vu-wien.ac.at

Abstract

Adrenocortical activity and time budgets in a robotic milking system in two variants of cow traffic (partially forced, free) were compared with a conventional milking system, focusing on the relationships between adrenocortical activity, time budgets, and social rank of the cows. Both groups were housed in identical conditions and consisted of 30 cows each. Within each experiment, direct observations of social behaviour and 24-hour video recordings were conducted during six two-day blocks. We calculated the dominance value and the time budget (‘lying’, ‘feeding’, ‘other activity’) of each cow. Faeces from each cow were collected to determine the concentration of cortisol metabolites (CCM) as an indicator of baseline adrenocortical activity and possible chronic stress. Analysis of CCM and time budgets did not indicate any adverse effects of the robotic milking system, with one exception: under partially-forced cow traffic, cows of low social rank had longer waiting times in front of the robot. Considering the fact that the number of cows milked by the robot was less than half of that recommended by the manufacturers, our results do not exclude the possibility that a higher stocking rate may lead to further adverse effects.

Type
Research Article
Copyright
© 2009 Universities Federation for Animal Welfare

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References

Albright, JL 1987 Dairy animal welfare: current and needed research. Journal of Dairy Science 70: 27112731Google ScholarPubMed
Anonymous 1988 Recommendation Concerning Cattle. Adopted by the Standing Committee of the European Convention for the protection of animals kept for farming purposes. 21 October 1988: Council of Europe. www.coe.intGoogle Scholar
Breuer, K, Hemsworth, PH and Coleman, GJ 2003 The effect of positive or negative handling on the behavioural and physiological responses of nonlactating heifers. Applied Animal Behaviour Science 84: 322CrossRefGoogle Scholar
Broom, DM and Johnson, KG 1993 Stress and Animal Welfare. Chapman & Hall: London, UKGoogle Scholar
Calamari, L, Petrera, F, Fava, A and Stefanini, L 2007 Feeding behaviour of dairy cows in forced or free cow traffic in Automatic Milking Systems (AMS). Italian Journal of Animal Science 6 (S1): 410CrossRefGoogle Scholar
Gygax, L, Neuffer, I, Kaufmann, C, Hauser, R and Wechsler, B 2006 Milk cortisol concentration in automatic milking systems compared with auto-tandem milking parlors. Journal of Dairy Science 89: 34473454CrossRefGoogle 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: 167179CrossRefGoogle 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: 209225CrossRefGoogle 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 & Behavior 85: 195204CrossRefGoogle ScholarPubMed
Hemsworth, PH and Coleman, GJ 1998 Human-Livestock Interactions: The Stockperson and the Productivity and Welfare of Intensively-Farmed Animals. CAB International: New York, USAGoogle Scholar
Hemsworth, PH, Coleman, G, Barnett, JL and Borg, S 2000 Relationships between human-animal interactions and productivity of commercial dairy cows. Journal of Animal Science 78: 28212831CrossRefGoogle ScholarPubMed
Hermans, GGN, Melin, M, Pettersson, G and Wiktorsson, H 2004 Behaviour of high- and low-ranked dairy cows after redirection in selection gates in an automatic milking system. In: Meijering, A, Hogeveen, H and de Koning, CJAM (eds) Automatic Milking - A Better Understanding pp 418419. Wageningen Academic Publishers: The NetherlandsGoogle Scholar
Hopster, H, Bruckmaier, RM, van der Werf, JTN, Korte, SM, Macuhova, J, Korte-Bouws, G and van Reenen, CG 2002 Stress responses during milking: comparing conventional and automatic milking in primiparous dairy cows. Journal of Dairy Science 85: 32063216CrossRefGoogle ScholarPubMed
Ketelaar-de Lauwere, CC, Devir, S and Metz, JHM 1996 The influence of social hierarchy on the time budget of cows and their visits to an automatic milking system. Applied Animal Behaviour Science 49: 199211Google Scholar
Ketelaar-de Lauwere, CC, Hendriks, MMWB, Metz, JHM and Schouten, WGP 1998 Behaviour of dairy cows under free or forced cow traffic in a simulated automatic milking system environment. Applied Animal Behaviour Science 56: 1328Google Scholar
Ketelaar-de Lauwere, CC and Ipema, AH 2000 Cow behaviour under different types of cow traffic. In: Hogeveen, H and Meijering, A (eds) Robotic Milking pp 181182. Wageningen Pers: Wageningen, The NetherlandsGoogle Scholar
Martin, P and Bateson, P 1993 Measuring Behaviour: An Introductory Guide, Second Edition. Cambridge University Press: Cambridge, UKCrossRefGoogle Scholar
Melin, M, Hermans, GGN, Pettersson, G and Wiktorsson, H 2006 Cow traffic in relation to social rank and motivation of cows in an automatic milking system with control gates and an open waiting area. Applied Animal Behaviour Science 96: 201214CrossRefGoogle Scholar
Millman, ST, Duncan, IJH, Stauffacher, M and Stookey, JM 2004 The impact of applied ethologists and the International Society for Applied Ethology in improving animal welfare. Applied Animal Behaviour Science 86: 299311Google Scholar
Morrow, CJ, Kolver, ES, Verkerk, GA and Matthews, LR 2002 Fecal glucocorticoid metabolites as a measure of adrenal activity in dairy cattle. General and Comparative Endocrinology 126: 229241CrossRefGoogle ScholarPubMed
Möstl, E, Maggs, JL, Schrötter, G, Besenfelder, U and Palme, R 2002 Measurement of cortisol metabolites in faeces of ruminants. Veterinary Research Communications 26: 127258CrossRefGoogle ScholarPubMed
Mülleder, C, Palme, R, Menke, C and Waiblinger, S 2003 Individual differences in behaviour and in adrenocortial activity in beef-suckler cows. Applied Animal Behaviour Science 84: 167183CrossRefGoogle Scholar
Müller, C, Herrmann, H-J, Knierim, U and Hesse, D 2000 Bewertung der Tiergerechtheit von automatischen Melksystemen. In: Schön, H (ed) Automatische Melksysteme pp 132136. KTBL-Schrift 395: Darmstadt, Germany. [Title translation: Evaluating automatic milking systems with regard to the animals appropriateness]Google Scholar
Munksgaard, L, Rushen, J, De Passillé, AM and Krohn, CC 2002 Forced versus free traffic in an automated milking system. In: McLean, J, Sinclair, M and West, B (eds) Proceedings of the First North American Conference on Robotic Milking pp II51-II-55. 20-22 March 2002, Toronto, Canada. Wageningen Pers: Wageningen, The NetherlandsGoogle Scholar
Palme, R 2005 Measuring fecal steroids: guidelines for practical application. Annals of the New York Academy of Sciences 1046: 7580CrossRefGoogle ScholarPubMed
Palme, R and Möstl, E 1997 Measurement of cortisol metabolites in faeces of sheep as a parameter of cortisol concentration in blood. International Journal of Mammalian Biology 62(II): 192197Google Scholar
Palme, R, Robia, C, Messmann, S, Hofer, J and Möstl, E 1999 Measurement of faecal cortisol metabolites in ruminants: a noninvasive parameter of adrenocortical function. Wiener Tieärztliche Monatsschrift 86: 237241Google Scholar
Palme, R, Robia, C, Baumgartner, W and Möstl, E 2000 Transport stress in cattle as reflected by an increase in faecal cortisol metabolites. The Veterinary Record 146: 108109CrossRefGoogle Scholar
Prescott, NB, Mottram, TTF and Webster, AJF 1998 Effect of food type and location on the attendance to an automatic milking system by dairy cows and the effect of feeding during milking on their behaviour and milking characteristics. Animal Science 67: 183193CrossRefGoogle Scholar
Rousing, T, Hindhede, J, Klaas, I and S⊘rensen, JT 2004 Assessment of animal welfare in an AMS herd: expert evaluation of a decision support system. In: Meijering, A, Hogeveen, H and de Koning, CJAM (eds) Automatic Milking - A Better Understanding pp 400406. Wageningen Academic Publishers: The NetherlandsGoogle Scholar
Rousing, T, Jakobsen, IA, Hindhede, J, Klaas, IC, Bonde, M and S⊘rensen, JT 2007 Evaluation of a welfare indicator protocol for assessing animal welfare in AMS herds: researcher, production advisor and veterinary practitioner opinion. Animal Welfare 16: 213216Google Scholar
Sachs, L 1997 Angewandte Statistik. Springer Verlag: Berlin, Germany. [Title translation: Applied Statistics]CrossRefGoogle Scholar
Sambraus, HH 1975 Beobachtungen und Überlegungen zur Sozialordnung von Rindern. Züchtungskunde 47: 814. [Title translation: Observations and thoughts on the social order of cows]Google Scholar
Singh, SS, Ward, WR and Murray, R 1993 Aetiology and pathogenesis of sole lesions causing lameness in cattle: a review. The Veterinary Bulletin 63: 303315Google Scholar
Speroni, M, Lolli, S and Pirlo, G 2004 Introduction of AMS in Italian herds: effects on animal behaviour. In: Meijering, A, Hogeveen, H and de Koning, CJAM (eds) Automatic Milking - A Better Understanding pp 429443. Wageningen Academic Publishers: The NetherlandsGoogle Scholar
Syme, GJ and Syme, LA 1979 Social Structure in Farm Animals. Elsevier: Amsterdam, The NetherlandsGoogle Scholar
Terlouw, EMC, Schouten, WGP and Ladewig, J 1997 Physiology. In: Appleby, MC and Hughes, BO (eds) Animal Welfare pp 143158. CAB International: Wallingford, UKGoogle Scholar
Thune, , Berggren, AM, Gravås, L and Wiktorsson, H 2002 Barn layout and cow traffic to optimise the capacity of an automatic milking system. In: McLean, J, Sinclair, M and West, B (eds) Proceedings of the First North American Conference on Robotic Milking pp II45-II-50. 20-22 March 2002, Toronto, Canada. Wageningen Pers: Wageningen, The NetherlandsGoogle Scholar
Touma, C and Palme, R 2005 Measuring fecal glucocorticoid metabolites in mammals and birds: the importance of a validation. Annals of the New York Academy of Sciences 1046: 5474CrossRefGoogle ScholarPubMed
Weiss, D, Helmreich, S, Möstl, E, Dzidic, A and Bruckmaier, RM 2004 Coping capacity of dairy cows during the change from conventional to automatic milking. Journal of Animal Science 82: 563570CrossRefGoogle ScholarPubMed
Wenzel, C, Schönreiter-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: 237246CrossRefGoogle Scholar
Wierenga, HK and Hopster, H 1990 The significance of cubicles for the behaviour of dairy cows. Applied Animal Behaviour Science 26: 309337CrossRefGoogle Scholar
Wiktorsson, H, Pettersson, G, Olofsson, J, Svennersten-Sjaunja, K and Melin, M 2003 Welfare status of dairy cows in barns with automatic milking. Relations between the environment and cow behaviour, physiologic, metabolic and performance parameters. Deliverable D24. Report within EU project QLK5-2000-31006. http://www.automaticmilking.nlGoogle Scholar
Winter, A and Hillerton, JE 1995 Behaviour associated with feeding and milking of early lactation cows housed in an experimental automatic milking system. Applied Animal Behaviour Science 46: 115CrossRefGoogle Scholar