Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-22T17:48:00.406Z Has data issue: false hasContentIssue false

Effects of Winter Housing, Exercise, and Dietary Treatments on the Behaviour and Welfare of Red Deer (Cervus Elaphus) Hinds

Published online by Cambridge University Press:  11 January 2023

J C Pollard
Affiliation:
AgResearch, Invermay Agricultural Centre, Private Bag 50034, Puddle Alley, Mosgiel, New Zealand
R P Littlejohn
Affiliation:
AgResearch, Invermay Agricultural Centre, Private Bag 50034, Puddle Alley, Mosgiel, New Zealand
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

To assess the welfare of red deer (Cervus elaphus) confined at pasture or in indoor housing over winter, behaviour, productivity, skin damage and adrenal response to ACTH challenge were measured in six groups of eight weaner hinds over 91 days from June to September 1990 in Otago, New Zealand. The hinds were confined either indoors (I), indoors with daily exercise (IE), or outdoors (O); (n - 2 groups to each treatment). All groups were fed concentrate ad libitum plus 100g lucerne head−1 day−1.

Indoor confinement was associated with a greater incidence of nosing/chewing other hinds, aggression, chewing of the enclosure, and closer distances between individuals, compared with outdoor confinement (P < 0.05). Ad libitum provision of hay over a 2-week period reduced the incidence of chewing of indoor enclosures (P <0.01). Weight gain was greater for indoor groups than outdoor groups in August and September (P <0.05) and overall weight gains for indoor groups (from two weeks into the study, until the end) were higher for the exercise treatment (P <0.05). Intake of concentrates did not differ significantly between treatments. Skin damage was greater for indoor than outdoor groups (P <0.05), and positively related to weight gain (P <0.01) and receiving aggression (P <0.01), which in turn was negatively related to liveweight (P < 0.001). A negative relationship was found between pre-challenge levels of plasma Cortisol and the number of aggressive interactions received (P < 0.05). Pre-challenge Cortisol was greater for IE than I (P < 0.05), and the increase in Cortisol post-challenge was greater for outdoor groups than indoor groups (P <0.01). Conclusions were that indoor confinement had a positive effect on weight gain, but increased aggression and skin damage, indicating that the deer were compromised socially. Provision of ample forage reduced chewing of the walls. The slightly greater weight gain in IE compared with I deserves further investigation.

Type
Research Article
Copyright
© 1998 Universities Federation for Animal Welfare

References

Chamove, A S 1989 Cage design reduces emotionality in mice. Laboratory Animals 23: 215219CrossRefGoogle ScholarPubMed
Dawkins, M S 1990 From an animal’s point of view: Motivation, fitness and animal welfare. Behavioural and Brain Sciences 13: 161CrossRefGoogle Scholar
Fraser, A F and Broom, D M 1990 Farm Animal Behaviour and Welfare. Baillière Tindall: London, UKGoogle Scholar
Hale, O M, Newton, G L and Cleaveland, E R 1984 Effects of exercise during the growing-finishing period on performance, age at puberty and conception rate of gilts. Canadian Journal of Animal Science 58: 541544CrossRefGoogle ScholarPubMed
Hale, O M, Newton, G L and Haydon, K D 1986 Effect of diet and exercise on performance, carcass traits and plasma components of growing-finishing barrows. Journal of Animal Science 62: 665671CrossRefGoogle ScholarPubMed
Hamilton, W J and Soanes, C 1994 Effect of management practices on the welfare of weaned deer calves. Third International Congress on the Biology of Deer, 28 August - 2 September 1994, Edinburgh, UK (Abstract 166)Google Scholar
Hanion, A J, Rhind, S M, Reid, H W, Burrells, C, Lawrence, A B, Milne, J A and McMillen, S R 1994 Relationship between immune response, liveweight gain, behaviour and adrenal function in red deer (Cervus elaphus) calves derived from wild and farmed stock, and maintained at two housing densities. Applied Animal Behaviour Science 41: 243255Google Scholar
Martin, J E and Edwards, S A 1994 Feeding behaviour of outdoor sows: the effects of diet quantity and type. Applied Animal Behaviour Science 41: 6374CrossRefGoogle Scholar
Matthewman, R W, Oldham, J D and Horgan, G W 1993 A note on the effect of sustained exercise on straw intake and body weight in lactating cattle. Animal Production 57: 491494Google Scholar
Matthews, C 1995 Growing in light. The Deer Farmer 120: 4345Google Scholar
Milne, J 1994 Lighting up their lives. The Deer Farmer 111: 2729Google Scholar
Moore, G H, Cowie, G M and Bray, A R 1985 Herd management of farmed red deer. Biology of Deer Production. Royal Society of New Zealand Bulletin 22: 343355Google Scholar
Morrison, S R, Hintz, H F and Givens, R L 1968 A note on the effects of exercise on behaviour and performance of confined swine. Animal Production 10: 341344Google Scholar
Murray, D M, Bowland, J P, Berg, R T and Young, B A 1974 Effects of enforced exercise on growing pigs: feed intake, rate of gain, feed conversion, dissected carcass composition, and muscle weight distribution. Canadian Journal of Animal Science 54: 9196CrossRefGoogle Scholar
Oltras, C M, Mora, F and Vives, F 1987 Beta-Endorphin and ACTH in plasma: effects of physical and psychological stress. Life Sciences 40: 16831686CrossRefGoogle ScholarPubMed
Pearce, G P and Paterson, A M 1993 The effect of space restriction and provision of toys during rearing on the behaviour, productivity and physiology of male pigs. Applied Animal Behaviour Science 36: 1128CrossRefGoogle Scholar
Pearson, R A and Merritt, J B 1991 Intake, digestion and gastrointestinal transit time in resting donkeys and ponies and exercised donkeys given ad libitum hay and straw diets. Equine Veterinary Journal 23: 339343CrossRefGoogle ScholarPubMed
Rushen, J 1991 Problems associated with the interpretation of physiological data in the assessment of animal welfare. Applied Animal Behaviour Science 28: 381386CrossRefGoogle Scholar
Suttie, J M, Webster, J R and Corson, I D 1994 How to use photoperiod to increase deer growth during winter. Proceedings, Deer Branch New Zealand Veterinary Association 11: 327337Google Scholar
Walton, T 1994 The lean dream venison machine. The Deer Farmer 118: 2731Google Scholar
Widman, D R and Rosellini, R A 1990 Restricted daily exposure to environmental enrichment increases the diversity of exploration. Physiology & Behaviour 47: 5762CrossRefGoogle ScholarPubMed
Willard, J G, Willard, J C, Wolfram, S A and Baker, J P 1977 Effect of diet on cecal pH and feeding behaviour of horses. Journal of Animal Science 45: 8793CrossRefGoogle ScholarPubMed
Young, G 1986 Cortisol secretion in vitro by the interrenal of coho salmon (Onchrhychus kisutch) during smoltification: Relationship with plasma thyroxine and plasma Cortisol. General and Comparative Endocrinology 63: 191200CrossRefGoogle ScholarPubMed
Zayan, R 1991 The specificity of social stress. Behavioural Processes 25: 8193CrossRefGoogle ScholarPubMed