Summary
The winter athlete has several potential tactics for sustaining body temperature in the face of severe cold. An increase in the intensity of physical activity may be counter-productive because of increased respiratory heat loss, increased air or water movement over the body surface, and a pumping of air or water beneath the clothing. Shivering can generate heat at a rate of 10 to 15 kJ/min, but it impairs skilled performance, while the resultant glycogen usage hastens the onset of fatigue and mental confusion.
Non-shivering thermogenesis could arise in either brown adipose tissue or white fat. Brown adipose tissue generates heat by the action of free fatty acids in uncoupling mitochondrial electron transport, and by noradrenaline-induced membrane depolarisation and sodium pumping. The existence of brown adipose tissue in human adults is controversial, and although there are theoretical mechanisms of heat production in white fat, their contribution to the maintenance of body temperature is small.
Acclimatisation to cold develops over the course of about 10 days, and in humans the primary change is an insulative, hypothermic type of response; this reflects the intermittent nature of most occupational and athletic exposures to cold. Nevertheless, with more sustained exposure to cold air or water, humans can apparently develop the humoral type of acclimatisation described in small mammals, with an increased output of noradrenaline and/or thyroxine.
The associated mobilisation of free fatty acids suggests the possibility of using winter sport as a pleasant method of treating obesity. In men, a combination of moderate exercise and facial cooling induces a substantial fat loss over a 1- to 2-week period, with an associated ketonuria, proteinuria, and increase of body mass. Possible factors contributing to this fat loss include: (a) a small energy deficit; (b) the energy cost of synthesising new lean tissue; (c) energy loss through the storage and excretion of ketone bodies; (d) catecholamine-induced ‘futile’ metabolic cycles with increased resting metabolism; and (e) a specific reaction to cold dehydration.
Current limitations for the clinical application of such treatment include uncertainty regarding optimal environmental conditions, concern over possible pathological reactions to cold, and suggestions of a less satisfactory fat mobilisation in female patients.
Possible interactions between physical fitness and metabolic reactions to cold remain controversial. However, it is clear that short term cold exposure induces a modest increase of physical working capacity. Long term effects of cold upon fitness are probably mediated largely through associated changes in habitual physical activity.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adams, T. and Heberling, E.J.: Human physiological responses to a standardized cold stress as modified by physical fitness. Journal of Applied Physiology 13: 226–230 (1958).
Adee, D.: The effect of environmental temperature on heart rate, deep body temperature and performance in swimming. PhD Thesis, Minneapolis, University of Minnesota (1953).
Andersen, K.L.A.: Metabolic and circulatory aspects of tolerance to cold as affected by physical training. Federation Proceedings 25: 1351–1356 (1966).
Åstrup, A.; Bülow, J.; Christensen, N.J. and Madsen, J.: Ephedrine-induced thermogenesis in man: No role for interscapular brown adipose tissue. Clinical Science 66: 179–186 (1984).
Avtsyn, A.P.; Maratchev, A.G.; Matveev, L.N. et al.: Primary circumpolar arterial hypertension in the pulmonary circulation (Abstract). Scientific and Technical Progress on Circumpolar Health (1); in Kazacheev (Ed.) Proceedings of the 4th Inter- national Symposium on Circumpolar Health, p. 125 (Novosibirsk 1978).
Beckman, C. and Linderholm, H.: Effect of cold exposure on exercise tolerance and exercise ECG in patients with exercise angina; in Fortuine (Ed.) Proceedings of the 6th Circumpolar Health Conference, Anchorage (University of Washington Press, Seattle 1985).
Baum, E.; Black, K. and Schwennicke, H.P.: Adaptive modifications in the thermoregulatory system of long-distance runners. Journal of Applied Physiology 40: 404–410 (1976).
Bell, A.W.; Gardiner, J.W.; Manson, W. and Thompson, G.E.: Acute cold exposure and the metabolism of blood glucose, lactate and pyruvate and plasma amino acids in the hind leg of the fed and fasted young ox. British Journal of Nutrition 33: 207–217 (1975).
Bjorntorp, P.; Holm, G.; Jacobsson, B.; Schiller de Jounge, K.; Lundberg, P.-A.; Sjöström, L.; Smith, U. and Sullivan, L.: Physical training in human hyperplastic obesity. IV. Effects on the hormonal status. Metabolism 26: 319–328 (1977).
Boyd, J.J.: Role of energy and fluid imbalance in weight changes found during field work in Antarctica. British Journal of Nutrition 34: 191–200 (1975).
Bray, G.A.: The obese patient. Major Problems in Internal Medicine 9: 1–140 (1976).
Brotherhood, J.R.; Budd, G.M.; Reynard, J.; Hendrie, A.L.; Jeffery, S.E. and Lincoln, G.J.: Subjects; in Fortuine (Ed.) Proceedings of the 6th International Symposium on Circumpolar Health, Anchorage (University of Washington Press, Seattle 1985).
Brück, K.: Cold adaptation in man; in Jansky and Musacchia (Eds) Regulation of Depressed Metabolism and Thermogenesis pp. 42–63 (C.C. Thomas, Springfield 1976).
Bryan, C.: Commentary; in Shephard (Ed.) Proceedings of the International Symposium on Physical Activity and Cardiovascular Health. Canadian Medical Association Journal 96: 804 (1967).
Budd, G.M.; Brotherhood, J.R.; Thomas, D.W.; Beasley, F.A.; Hendrie, A.L.; Jeffery, S.E.; Lincoln, G.J.; Porter, H.G.; Solaga, A.T.; Pidcock, L.M. and Baker, M.M.: Whole body cooling in air, in Fortuine (Ed.) Proceedings of the 6th International Symposium on Circumpolar Health, Anchorage (University of Washington Press, Seattle 1985a).
Budd, G.M.; Brotherhood, J.R.; Thomas, D.W.; Beasley, F.A.; Hendrie, A.L.; Jeffery, S.E.; Lincoln, G.J.; Porter, H.G.; Solaga, A.T.; Pidcock, L.M. and Baker, M.M.: Infusion of noradrenaline; in Fortuine (Ed.) Proceedings of the 6th International Symposium on Circumpolar Health, Anchorage (University of Washington Press, Seattle 1985b).
Bukowiecki, L.; Follea, N.; Vallières, J. and LeBlanc, J.: β-adrenergic receptors in brown adipose tissue. Characteristics and al- terations during acclimation of rats to cold. European Journal of Biochemistry 92: 198–196 (1978).
Burton, A. and Edholm, D.G.: Man in a Cold Environment (Hafner, New York 1969).
Butson, A.R.C.: Acclimatization to cold in the Antarctic. Nature 163: 132–133 (1949).
Burn, J.H. and Rand, M.J.: The cause of the supersensitivity of smooth muscle to noradrenaline after sympathetic degeneration. Journal of Physiology 147: 135–143 (1959).
Campbell, I.T.: Energy intakes on sledding expedition. British Journal of Nutrition 45: 89–94 (1981).
Canabac, M.; Lacaisse, A.; Pasquis, P. and Dejours, P.: Caractères et mechanismes des reactions ventilatoires au frisson thermique chez l’homme. Comptes Rendus des Seances de la Societé de Biologie et de ses filiales (Paris) 158: 80–84 (1964).
Davies, C.T.M.; Ekblöm, B.; Bergh, U. and Kanstrup-Jensen, I.L.: The effects of hypothermia on sub-maximal and maximal work performance. Acta Physiologica Scandinavica 95: 201–202 (1975).
Davis, T.R.A.: Chamber cold acclimatization in man. Journal of Applied Physiology 16: 1011–1015 (1961).
Depocas, F. and Masironi, R.: Body glucose as fuel for thermogenesis in the white rat exposed to cold. American Journal of Physiology 199: 1051–1055 (1960).
Desautels, M.; Zaror-Behrens, G. and Himms-Hagen, J.: Increased purine nucleotide binding, altered polypeptide com- position and thermogenesis in brown adipose tissue mitochondria of cold-acclimated rats. Canadian Journal of Biochemistry 56: 378–383 (1978).
Doi, K. and Kuroshima, A.: Modified metabolic responsiveness to glucogen in cold-acclimated and heat acclimated rats. Life Sciences 30: 785–791 (1982).
Duncan, G.G.: Diabetes mellitus; in Duncan (Ed.) Diseases of Metabolism: Detailed Methods of Diagnosis and Treatment, p. 955 (Saunders, Philadelphia 1964).
Frim, J.: The hazards of cold air; in Welsh and Shephard (Eds) Current Therapy in Sports Medicine (Decker, Burlington 1984).
Garrow, J.S.: Energy Balance and Obesity in Man, 2nd ed., pp. 91–93 (Elsevier, Amsterdam 1978).
Girandola, R.N.; Wiswell, R.A. and Romero, G.: Body composition ’changes’ resulting from fluid ingestion and dehydration. Research Quarterly 49: 299–303 (1977).
Glaser, E.M.: The Physiological Basis of Habituation, pp. 1–102 (Oxford University Press, London 1966).
Glaser, E.M. and Griffin, J.P.: Influence of the cerebral cortex on habituation. Journal of Physiology 160: 429–445 (1962).
Glaser, E.M. and Shephard, R.J.: Simultaneous experimental acclimatization to heat and cold in man. Journal of Physiology 169: 592–602 (1963).
Goldsmith, R.: Acclimatization to heat and cold in man; in Baron et al. (Eds) Recent Advances in Medicine, pp. 299–321 (Churchill-Livingstone, Edinburgh 1977).
Goode, R.C.; Duffin, J.; Miller, R.; Romet, T.T.; Chout, W. and Ackles, K.: Sudden cold water immersion. Respiration Physiology 23: 301–310 (1975).
Goodenough, R.D.; Royle, G.T.; Nadel, E.R.; Wolfe, M.H. and Wolfe, R.R.: Leucine and urea metabolism in acute human cold exposure. Journal of Applied Physiology — Respiratory Environmental and Exercise Physiology 53: 367–372 (1982).
Haight, J.S.J, and Keatinge, W.R.: Failure of thermoregulation in the cold during hypoglycaemia induced by exercise and ethanol. Journal of Physiology 229: 87–97 (1973).
Hanson, P.G. and Johnson, R.E.: Variation of plasma ketones and free fatty acids during acute cold exposure in man. Journal of Applied Physiology 20: 56 (1965).
Hardy, J.D.; Gagge, A.P. and Stolwyk, A.J.: Physiological and Behavioural Temperature Regulation (C.C. Thomas, Springfield 1970).
Hassi, J.: The brown adipose tissue in man. Acta Universitatis Ouluensis, Series D #21 (University of Oulu, Sweden 1977).
Heaton, J.M.: The distribution of brown adipose tissue in the human. Journal of Anatomy 12: 35–39 (1972).
Hervey, G.R. and Tobin, G.: Luxuskonsumption, diet-induced thermogenesis and brown fat: A critical review. Clinical Science 64: 7–18 (1983).
Himms-Hagen, J.: Sympathetic regulation of metabolism. Pharmacological Reviews 19: 367–461 (1975).
Hiroshige, T.; Yoshimura, K. and Itoh, S.: Mechanisms involved in thermoregulatory heat production in brown adipose tissue; in Itoh et al. (Eds) Advances in Climatic Physiology, pp. 197–218 (Igaku Shoin, Tokyo 1972).
Holmér, I. and Bergh, U.: Metabolic and thermal responses to swimming in water at varying temperatures. Journal of Applied Physiology 37: 702–705 (1974).
Hong, S.K.: Pattern of cold adaption in women divers of Korea (ama). Federation Proceedings 32: 1614–1621 (1973).
Horstman, D.H.: Exercise performance at 5°C. Medicine and Science in Sports 9: 52 (1977).
Houdas, Y. and Ring, E.F.J.: Human body temperature. Its measurement and regulation (Plenum Press, New York 1982).
Hsieh, A.C.L. and Carlson, L.D.: Role of adrenaline and noradrenaline in chemical regulation of heat production. American Journal of Physiology 190: 242–246 (1957).
Hull, D. and Smales, O.R.C.: Heat production in the newborn; in Sinclair (Ed.) Temperature Regulation and Energy Metabolism in the Newborn, pp. 129–156 (Grune and Stratton, New York 1978).
Huttunen, P.; Hirvonen, J. and Kinnula, V.: The occurrence of brown adipose tissue in outdoor workers. European Journal of Applied Physiology 46: 339–345 (1981).
Itoh, S.: Physiology of Cold-adapted Man. (Hokkaido University School of Medicine, Sapporo 1974).
Itoh, S. and Kuroshima, K.: Lipid metabolism of cold adapted man; in Itoh et al. (Eds) Advances in Climatic Physiology, pp. 260–277 (Igaku Shoin, Tokyo 1972).
James, W.T. and Trayhurn, P.: in Beers and Bassett (Eds) Pro- ceedings of the 13th Miles International Symposium (Raven Press, New York 1981a).
James, W.P.T. and Trayhurn, P.: Thermogenesis and obesity. British Medical Bulletin 37: 43–48 (1981b).
Jansky, L.: Body organ thermogenesis of the rat during exposure to cold and at maximal metabolic rate. Federation Proceedings 25: 1297–1305 (1966).
Jansky, L.: Non-shivering thermogenesis (Academia, Prague 1971).
Jessen, K.: An assessment of human regulatory thermogenesis. Acta Anaesthesiologica Scandinavica 24: 138–143 (1980).
Kang, B.S.; Han, D.S.; Paik, K.S.; Park, Y.S.; Kim, J.K.; Kim, CS.; Rennie, D.W. and Hong, S.K.: Calorigenic action of norepinephrine in the Korean women divers. Journal of Applied Physiology 29: 6–9 (1970).
Kasprzak, H.; Bligh, J. and Peyton, L.: Effects of diamide on pulmonary hypertension due to cold and hypoxia; in Fortuine (Ed.) Proceedings of the 6th Circumpolar Health Conference (University of Washington Press, Seattle 1985).
Kawakami, M.; Seto, K.; Negoro, H.; Yamaoka, S. and Mohri, M.: Participation of the limbic-hypothalamic structures in cold adaptation; in Itoh et al. (Eds) Advances in Climatic Physiology, pp. 219–259 (Igaku Shoin, Tokyo 1972).
Keatinge, W.R.: The effect of repeated daily exposure to cold and of improved physical fitness on the metabolic and vascular response to cold air. Journal of Physiology 157: 209–220 (1961).
Keatinge, W.R.: Survival in cold water, pp. 1–140 (Blackwell, Oxford 1969).
Kollias, J.; Boileau, R. and Buskirk, E.R.: Effects of physical conditioning in man on thermal responses to cold air. International Journal of Biometeorology 16: 389–402 (1972).
LeBlanc, J.: Man in the cold (C.C Thomas, Springfield 1975).
LeBlanc, J.: Adaption of man to cold; in Wang and Hudson (Eds) Strategies in Cold, pp. 695–715 (Academic Press, New York 1978).
LeBlanc, J. and ai]Nadeau, G.: Urinary excretion of adrenaline and noradrenaline in normal and cold-adapted animals. Canadian Journal of Biochemistry and Physiology 39: 215–217 (1961).
LeBlanc, J. and Pouliot, M.: Importance of noradrenaline in cold adaptation. American Journal of Physiology 207: 853–856 (1964).
LeBlanc, J. and Villemaire, A.: Thyroxine and noradrenaline on noradrenaline sensitivity, cold resistance and brown fat. American Journal of Physiology 218: 1742–1745 (1970).
LeBlanc, J.; Blais, B.; Barabe, B. and Cote, J.: Effects of temperature and wind on facial temperature, heart rate and sensation. Journal of Applied Physiology 40: 127–131 (1976).
LeDuc, J.: Catecholamine production and release in exposure and adaptation to cold. Acta Physiologica Scandinavica 53 (Suppl. 183): 1–101 (1961).
Lloyd, E.L.: Environmental cold may be a major factor in some respiratory disorders; in Fortuine (Ed.) Proceedings of the 6th Circumpolar Health Conference (University of Washington Press, Seattle 1985).
Lloyd, R.M.: Ketonuria in the Antarctic: A detailed study. British Antarctic Survey Bulletin 20: 59–68 (1969).
Masironi, R. and Depocas, F.: Effect of cold exposure on respiratory C14O2: production during infusion of albumin bound palmitate-1-C14 in white rats. Canadian Journal of Biochemistry and Physiology 39: 219–324 (1961).
Miller, D.S. and Mumford, P.M.: Luxuskonsumption; in Apfelbaum (Ed.) Regulation de l’Equilibre Energétique chez l’Homme, pp. 195–203 (Masson et Cie, Paris 1973).
Moriyama, K.: Cross-adaptation mechanisms between exercise training and cold adaptation; assessment of free fatty acids metabolism in norepinephrine induced heat production and finger temperature responses to local cooling; in Fortuine (Ed.) Proceedings of the 6th International Symposium on Circumpolar Health, Anchorage (University of Washington Press, Seattle 1985).
Muir, A.L.: Ketonuria in the Antarctic: A preliminary study. British Antarctic Survey Bulletin 20: 53–58 (1969).
Nadel, E.R.; Holmér, I.; Bergh, U.; Åstrand, P.O. and Stolwijk, J.A.J.: Energy exchanges of swimming man. Journal of Applied Physiology 36: 465–471 (1974).
Nelson, N.; Grayman, I. and Minsky, I.A.: Utilization of acetone bodies; relation between concentration and rate of β-hydroxy-butyric acid utilization by rat. Journal of Biological Chemistry 140: 361–364 (1941).
Nicholls, D.G. and Locke, R.M.: Thermogenic mechanisms in brown fat. Physiological Reviews 64: 1–64 (1984).
O’Hara, W. J. and Allen, C.: Changes in body composition during an arctic winter exercise. Defence and Civil Institute of Environmental Medicine Report 74-R-1061, Toronto (1974).
O’Hara, W.J.; Allen, C. and Shephard, R.J.: Loss of body fat during an arctic winter expedition. Canadian Journal of Physiology and Pharmacology 55: 1235–1241 (1977a).
O’Hara, W.J.; Allen, C. and Shephard, R.J.: Loss of weight and fat during exercise in a cold chamber. European Journal of Applied Physiology 37: 205–218 (1977b).
O’Hara, W.J.; Allen, C. and Shephard, R.J.: Treatment of obesity by exercise in the cold. Canadian Medical Association Journal 117: 773–786 (1977c).
O’Hara, W.J.; Allen, C.; Shephard, R.J. and Allen, G.: Fat losses in the cold — a controlled study. Journal of Applied Physiology — Respiratory Environmental and Exercise Physiology 46: 872–877 (1979).
Pugh, L.G.C.E.: Thermal, metabolic, blood and circulatory adjustments in prolonged outdoor exercise. British Medical Journal 2: 657–662 (1969).
Pugh, L.G.C.E.: Accidental hypothermia among hill-walkers and climbers in Britain; in Cumming et al. (Eds) Environmental Effects on Work Performance (Canadian Association of Sports Sciences, Ottawa 1972).
Renson, R. and Van Gerven, D.: Aflcoelingsreakties by Zwemmen in Koud Zeewater. III: 191–218 (Hermes, Leuven 1969).
Rode, A. and Shephard, R.J.: Cardiorespiratory fitness of an Inuit community. Journal of Applied Physiology 31:519–526 (1971).
Rode, A. and Shephard, R.J.: ‘Future shock’ and the fitness of an Inuit Community; in Fortuine (Ed.) Proceedings of the 6th Symposium on Circumpolar Health, Anchorage (University of Washington Press, Seattle 1985).
Rothwell, N.J. and Stock, M.J.: Regulation of energy balance in two models of reversible obesity in the rat. Journal of Comparative Physiology and Psychology 93: 1024–1034 (1979a).
Rothwell, N.J. and Stock, M.J.: A role for brown adipose tissue in diet-induced thermogenesis. Nature (London) 281: 31–35 (1979b).
Rothwell, N.J. and Stock, M.J.: Luxuskonsumption, diet-induced thermogenesis and brown fat — the case in favour. Clinical Science 64: 19–23 (1983).
Schaefer, O.; Eaton, R.D.P.; Timmerman, F.J.W. and Hildes, J.A.: Respiratory function impairment and cardiopulmonary consequences in long-term residents of the Canadian arctic. Canadian Medical Association Journal 123: 997–1004 (1980).
Scholander, P.F.; Hammel, H.T.; Hart, J.S.; Lemesurier, D.H. and Steen, J.: Cold adaptation in Australian aborigines. Journal of Applied Physiology 13: 211–218 (1958).
Schwartz, E.; Glick, Z. and Magazanik, A.: Responses to temperate, cold and hot environments and the effect of physical training. Aviation Space and Environmental Medicine 48: 254–260 (1977).
Shephard, R.J.: Environment; in Williams and Sperryn (Eds) Sports Medicine, pp. 76–97 (Arnold, London 1976).
Shephard, R.J.: Endurance Fitness, 2nd ed. (University of Toronto Press, Toronto 1977).
Shephard, R.J.: Physiology and Biochemistry of Exercise (Praeger, New York 1982).
Shephard, R.J.; Hatcher, J. and Rode, A.: On the body composition of the Eskimo. European Journal of Applied Physiology 32: 3–15 (1973).
St Rose, J.E.M.; Allen, C.L.; Myles, W.S.; Sabiston, B.H.; Brown, T.E.; Anderson, P.J. and Livingstone, S.D.: A study of energy expenditure, dehydration and health in Canadian troops during a spring exercise in the sub-arctic — northern ramble. Defence and Civil Institute of Environmental Medicine Report 882, Toronto (1972).
Tanuma, Y.; Tamamoto, M.; Ito, T. and Yokochi, C.: The occurrence of brown adipose tissue in perirenal fat of Japanese. Archi vum Histologicum Japonicum-Nippon Soshikigaku Kiroku (Okayama) 38: 43–70 (1975).
Tappan, D.V.; Jacey, M.J.; Heyder, E. and Gray, P.H.: Influence of salt intake on fluid requirements of men working in the cold. Naval Submarine Medical Research School and Laboratory Report 987 (1982a).
Tappan, D.V.; Jacey, M.J. and Heyder, E.: Water requirements in military personnel working in cold environments and receiving arctic rations containing high salt levels. Naval Submarine Medical Research School and Laboratory Report 968 (1982b).
Tappan, D.V.; Jacey, M.J.; Heyder, E. and Gray, P.H.: Dehydration as a potential controlling factor of fat loss during cold exposures. Journal of Applied Physiology (In press, 1984).
Theriault, D.G. and Mellin, D.B.: Cellularity of adipose tissue in cold-exposed rats and the calorigenic effect of norepinephrine. Lipids 6: 486–491 (1971).
Thompson, G.E.: Physiological effects of cold; in Robertshaw (Ed.) Environmental Physiology II (University Park Press, Baltimore 1977).
Webster, A.J.F.: Physiological effects of cold exposure; in Robertshaw (Ed.) Environmental Physiology (University Park Press, Baltimore 1974).
Welch, B.E.; Levy, L.M.; Consolazio, C.F.; Buskirk, E.R. and Dee, T.E.: Caloric intake for prolonged hard work in the cold. U.S. Army Medical Nutrition Laboratory Report 202 (1957).
Wilcox, A.R.: The effects of caffeine and exercise on body weight, fat-pad weight and fat cell size. Medicine and Science in Sports and Exercise 14: 317–321 (1982).
Wilson, O.: Field study of the effect of cold exposure and increased muscular activity upon metabolic rate and thyroid function in man. Federation Proceedings 25: 1357–1362 (1966).
Wyant, K.W. and Caron, P.L.: Water discipline and an arctic pro- totype ration. Military Medicine 148: 435–439 (1983).
Wyndham, C.H. and Morrison, J.H.: Adjustment to cold in bushmen in the Kalahari desert. Journal of Applied Physiology 13: 219–225 (1958).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Shephard, R.J. Adaptation to Exercise in the Cold. Sports Medicine 2, 59–71 (1985). https://doi.org/10.2165/00007256-198502010-00006
Published:
Issue Date:
DOI: https://doi.org/10.2165/00007256-198502010-00006