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Stress Hormone Responses of Sheep to Food and Water Deprivation at High and Low Ambient Temperatures

Published online by Cambridge University Press:  11 January 2023

R F Parrott ,
D M Lloyd  and
J A Goode
R F Parrott
Affiliation:
MAFF Welfare and Behaviour Laboratory, The Babraham Institute, Cambridge CB2 4AT, UK
D M Lloyd
Affiliation:
MAFF Welfare and Behaviour Laboratory, The Babraham Institute, Cambridge CB2 4AT, UK
J A Goode
Affiliation:
MAFF Welfare and Behaviour Laboratory, The Babraham Institute, Cambridge CB2 4AT, UK
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Abstract

The effects of food and/or water deprivation at different ambient temperatures (7 or 35 °C) on stress hormone release in sheep (n = 8), were studied to provide background data for research into the effects of road transport. Blood samples were taken from catheterized animals at the start and, at 6h intervals, during 48h tests in an environmental chamber. Cortisol release was unaffected by temperature or deprivation state but was stimulated by introduction to the chamber. Prolactin secretion showed a similar tendency and levels of this hormone were generally higher in the first test, whichever chamber was used. Heat exposure also had a prolonged stimulatory effect on prolactin release, especially in the first test. Growth hormone concentrations were rather variable but tended to be greatest when the animals were deprived of food. Measurements of plasma osmolality indicated that sheep remained in water balance, even when water was withheld for 48h, unless they had access to food. The results suggest that under laboratory conditions, and over a wide thermal range, withholding food and water for 48h does not induce Cortisol or prolactin release in sheep. However, exposure to novel situations seems to have a stimulatory effect.

Keywords

animal welfareCortisoldehydrationfood deprivationprolactinsheeptemperature
Type
Research Article
Information
Animal Welfare , Volume 5 , Issue 1 , February 1996 , pp. 45 - 56
Copyright
© 1996 Universities Federation for Animal Welfare

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References

Baldock, N M and Sibly, R M 1990 Effects of handling and transportation on the heart rate and behaviour of sheep. Applied Animal Behaviour Science 28: 1539Google Scholar
Bailey, A N and Fortune, J A 1992 The response of Merino wethers to feedlotting and subsequent sea transport. Applied Animal Behaviour Science 35: 167180CrossRefGoogle Scholar
Bell, F R, Lightman, S L and Simmonds, A 1991 Dopamine modulation of prolactin and vasopressin but not behavior on satiation in sheep. American Journal of Physiology 260: R11941199Google ScholarPubMed
Berman, D G, Johnson, D E, Phillips, R N and Barry, B P 1980 Physiological and urinary metabolite responses to cold shock and confinement in sheep. Journal of Animal Science 50: 713722CrossRefGoogle Scholar
Cronin, M T, Siegel, B J and Moberg, G P 1981 Effect of behavioural stress on plasma levels of growth hormone in sheep. Physiology and Behavior 26: 887890CrossRefGoogle ScholarPubMed
Dauncey, M J and Buttle, H L 1990 Differences in growth hormone and prolactin secretion associated with environmental temperature and energy intake. Hormone and Metabolic Research 22: 524527CrossRefGoogle ScholarPubMed
Davis, S L 1972 Plasma levels of prolactin, growth hormone and insulin in sheep following infusion of arginine leucine and phenylalanine. Endocrinology 91: 549555CrossRefGoogle ScholarPubMed
Degen, A A and Shkolnik, A 1978 Thermoregulation in fat-tailed Awassi, a desert sheep, and in German mutton Merino, a mesic sheep. Physiological Zoology 51: 333339CrossRefGoogle Scholar
DeSilva, A W M V, Earl, S A, Dunn, T G and Kaltenbach, C C 1981 Comparison of serum prolactin and Cortisol in sheep bled by two methods. Journal of Animal Science 53, Supplement: 306 (Abstract 446)Google Scholar
Doris, P A and Bell, F R 1984 Plasma prolactin during the body fluid and electrolyte changes of dehydration and sodium depletion in steers. Life Sciences 34: 16831689CrossRefGoogle ScholarPubMed
Fulkerson, W B and Tang, B Y 1979 Utradian and circadian rhythms in the plasma concentration of Cortisol in sheep. Journal of Endocrinology 81: 135141CrossRefGoogle ScholarPubMed
Guerrini, V H and Bertchinger, H 1982 Effect of ambient temperature and humidity on plasma Cortisol in sheep. British Veterinary Journal 138: 175182CrossRefGoogle ScholarPubMed
Johnson, K G 1991 Body temperature and respiratory rates of free-ranging merino sheep in and out of shade during summer. Australian Journal of Agricultural Research 42: 13471357CrossRefGoogle Scholar
Matthews, S G and Parrott, R F 1991 Dehydration, but not vasopressin infusion, enhances the adrenocortical responses of sheep to corticotropin-releasing hormone or restraint. Acta Endocrinologia 125: 556562Google ScholarPubMed
Matthews, S G and Parrott, R F 1992 Prolactin secretion in sheep after dehydration followed by restraint or administration of ovine corticotrophin-releasing factor. Experimental Physiology 77: 357362CrossRefGoogle ScholarPubMed
McNatty, K P and Young, A 1973 Diurnal changes of plasma Cortisol levels in sheep adapting to a new environment. Journal of Endocrinology 56: 329330CrossRefGoogle ScholarPubMed
Mittal, J P and Ghosh, P K 1986 Effect of prolonged intermittent water restriction on the reproductive performance of ewes in the Indian desert. Animal Production 43: 255260Google Scholar
Panaretto, B A 1974 Relationship of visceral blood flow to Cortisol metabolism in cold-stressed sheep. Journal of Endocrinology 60: 235245CrossRefGoogle ScholarPubMed
Parrott, R F and Goode, J A 1992 Effect of intracerebroventricular corticotropin-releasing hormone and intravenous morphine on Cortisol, prolactin and growth hormone secretion in sheep. Domestic Animal Endocrinology 9: 141149Google ScholarPubMed
Parrott, R F and Thornton, S N 1989 Opioid influences on pituitary function in sheep under basal conditions and during psychological stress. Psychoneuroendocrinology 14: 451459CrossRefGoogle ScholarPubMed
Parrott, R F, Thornton, S N, Forsling, M L and Delaney, C E 1987 Endocrine and behavioural factors affecting water balance in sheep subjected to isolation stress. Journal of Endocrinology 112: 305310CrossRefGoogle ScholarPubMed
Parrott, R F, Thornton, S N and Robinson, J E 1988 Endocrine responses to acute stress in castrated rams: no increase in oxytocin but evidence for an inverse relationship between Cortisol and vasopressin. Acta Endocrinologia 117: 381386Google ScholarPubMed
Pelletier, J 1973 Evidence for photoperiodic control of prolactin release in rams. Journal of Reproduction and Fertility 35: 143147CrossRefGoogle ScholarPubMed
Ratner, S G and Boice, R 1975 Effects of domestication on behaviour. In: Hafez, ESE (ed) The Behaviour of Domestic Animals, 3rd edition pp 319. Baillère Tindall: London, UKGoogle Scholar
Reichlin, S 1988 Mechanisms of physical and emotional stress. In: Chrousos GP, Loriaux D L and Gold P W (eds) Advances in Experimental Medicine and Biology Volume 245 pp 353-376. Plenum Press: New York, USAGoogle Scholar
Silanikove, N 1994 The struggle to maintain hydration and osmoregulation in animals experiencing severe dehydration and rapid rehydration: the story of ruminants. Experimental Physiology 79: 281300CrossRefGoogle ScholarPubMed
Ternouth, J C 1968 Changes in the thiosulphate space and some constituents of the blood of sheep after feeding. Research in Veterinary Science 9: 345349CrossRefGoogle ScholarPubMed
Thomas, G B, Mercer, J E, Karalis, T, Rao, A, Cummins, J T and Clarke, I J 1990 Effect of restricted feeding on the concentrations of growth hormone (GH), gonadotrophins, and prolactin (PRL) in plasma, and on the amounts of messenger ribonucleic acid for GH, gonadotropin subunits, and PRL in the pituitary glands of adult ovariectomized ewes. Endocrinology 126: 13611367CrossRefGoogle ScholarPubMed
Wetterman, R P, Tucker, H A, Beck, T W and Meyerhoeffer, D C 1982 Influence of ambient temperature on prolactin concentrations in serum of holstein and brahman x hereford heifers. Journal of Animal Science 55: 391394CrossRefGoogle Scholar
Wolinska-Witort, E, Przekop, F, Mateusiak, K and Domanski, E 1986 Effect of repeated and prolonged stress on the plasma prolactin concentration in sheep. Experimental and Clinical Endocrinology 87: 265276Google ScholarPubMed