一、 、 、 、中文部分 中文部分 中文部分 中文部分

一 一

一、 、 、 、中文部分 中文部分 中文部分 中文部分

楊忠祥、林正常（1999）。運動強度和持續時間對恢復期能量消耗的影響。

體育學報，27，99-108。

吳家慶（2005）。不同強度動態恢復對損傷肌肉之功能及跑步經濟性的影 響。未出版之博士論文，國立台灣師範大學體育學系，台北市，台灣。

吳柏翰（2003）。阻力運動強度對運動後過攝氧量之影響。未出版之碩士 論文，國立台灣師範大學體育學系，台北市，台灣。

吳慧君（1995）。恢復期過耗氧量的探討。中華體育季刊，8(4)，73-81。

劉亦陞、謝伸裕（2007）。單次長時間與多次短時間運動對能量消耗之影 響。體育學報，40(1)，15-28。

傅麗蘭、陳毓君（2005）。連續性與間歇性運動耗氧量之比較。物理治療，

30(1)，21-26。

二 二 二

二、、、、英文部份英文部份英文部份英文部份

Almuzaini, K. S., Potteiger, J. A., & Green, S. B. (1998). Effects of split exercise sessions on excess postexercise oxygen consumption and resting

metabolic rate. Canadian Journal of Applied Physiology, 23(5), 433-443.

American College of Sports Medicine. (1998). The recommended quantity and quality of exercise for developing and maintaining cardiorespiratory and muscular fitness and flexibility in healthy adults. Medicine and Science in

Sports and Exercise, 30, 975-991.

Bangsbo, J., Gollnick, P. D., Graham, T. E., & Saltin, B. (1991). Substrates for muscle glycogen synthesis in recovery from intense exercise in man. The Journal of Physiology, 434, 423-440.

Bangsbo, J., & Hellsten, Y. (1998). Muscle blood flow and oxygen uptake in recovery from exercise. Acta Physiologica Scandinavica, 162(3), 305-312.

Bahr, R., Ingnes, I., Vaage, O., Sejersted, O. M., & Newsholme, E. A. (1987).

Effect of duration of exercise on excess postexercise O2 consumption.

Journal of Applied Physiology, 62(2), 485-490.

Bahr, R., Hansson, P., & Sejersted, O. M. (1990). Triglyceride/fatty acid cycling is increased after exercise. Metabolism: Clinical and Experimental, 39(9), 993-999.

Bahr, R., & Sejersted, O. M. (1991). Effect of intensity of exercise on excess post-exercise O2 consumption. Metabolism: Clinical and Experimental, 40, 836–841.

Bahr, R. (1992). Exercise postexercise oxygen consumption: magnitude, mechanisms and practical implications. Acta Physiologica Scandinavica Supplementum, 605, 1-70.

Ball-Burnett, M., Green, H. J., & Houston, M. E. (1991). Energy metabolism in human slow and fast twitch fibres during prolonged cycle exercise. The Journal of Physiology, 437, 257-267.

Børsheim, E., & Bahr, R. (2003). Effect of exercise intensity, duration and mode on post-exercise oxygen consumption. Sports Medicine, 33(14), 1037-1060.

Brooks, G. A., Hittelman, K. J., & Faulkner, J. A. (1971). Temperature, skeletal muscle, mitochondrial functions, and oxygen debt. American Journal of Physiology, 220, 1053-1059.

Brooks, G. A. (1986). The lactate shuttle during exercise and recovery. Medicine and Science in Sports and Exercise, 18(3), 360-368.

Bülow, J. (1983). Adipose tissue blood flow during exercise. Danish Medical Bulletin, 30(2), 85-100.

Chad, K. E., & Wenger, H. A. (1988). The effect of duration on the exercise and post- exercise oxygen consumption. Canadaian Journal of Sport Science, 13, 204–207.

Daniels, J. T. (1985). A physiologist's view of running economy. Medicine and Science in Sports and Exercise, 17(3), 332-338.

Darling, J. L., Linderman, J. K., & Laubach, L. L. (2005). Energy Expenditure of continuous and intermittent exercise in college-aged males. Journal of Exercise Physiology, 8(4), 1-8.

Egan, D., & Head, T. (1999). Energy substrate metabolism during dual work rate exercise: Effects of order. Journal of Sports Sciences, 17(6), 889-894.

Francis, P. R., Witucki, A. S., & Buono, M. J. (1999). Physiological response to a typical studio cycling session. ACSM^’S Health & Fitness Journal, 3(1),

30-36.

Gaesser, G. A., & Brooks, G. A. (1984). Metabolic bases of excess post-exercise oxygen consumption: A review. Medicine and Science in Sports and

Exercise, 16(1), 29-43.

Gollnick, P. D. (1985). Metabolism of substrates: energy substrate metabolism during exercise and as modified by training. Federation Proceedings, 44(2), 353-357.

Gore, C. J., & Withers, R. T. (1990). Effect of exercise intensity and duration on postexercise metabolism. Journal of Applied Physiology, 68(6),

2362-2368.

Goto, K., Ishii, N., Mizuno, A., & Takamatsu, K. (2007). Enhancement of fat metabolism by repeated bouts of moderate endurance exercise. Journal of Applied Physiology, 102(6), 2158-2164.

Hagberg, J. M., Hickson, R. C., Ehsani, A. A., & Holloszy, J. O. (1980). Faster adjustment to and recovery from submaximal exercise in the trained state.

Journal of Applied Physiology: Respiratory, Environmental and Exercise Physiology, 48(2), 218-224.

Harris, R. C., Sahlin, K., Nylind, B., & Hultman, E. (1976). Lactate content and pH in muscle samples obtained after dynamic exercise. Pflügers Archiv European Journal of Physiology, 367(2), 143-149.

Hermansen, L., Garandmontagne, M., & Mahlum, S. (1984). Postexercise elevation of resting oxygen uptake: possible mechanisms and

physiological significance. Medicine and Science in Sports and Exercise, 17, 119-129.

Hill, A. V., & Lupton, H. (1923). Muscular exercise,lactic acid and the supply and utilization of oxygen. Quarterly Journal of Medicine,16, 135-171.

Howley, E., and Franks, B. D. (2003). Health Fitness Instructor's Handbook (4th Ed.). Champaign, IL: Human Kinetics.

Horwitz, B. A. (1979). Metabolic aspects of thermogenesis: neuronal and hormonal control. Introduction. Federation Proceedings, 38(8), 2147-2149.

Imamura, H., Shibuya, S., Uchida, K., Teshima, K., Masuda, R., & Miyamoto, N. (2004). Effect of moderate exercise on excess post-exercise oxygen consumption and catecholamines in young women. The Journal of Sports Medicine and Physical Fitness, 44(1), 23-29.

Issekutz, B. Jr., Shaw, W. A., & Issekutz, T. B. (1975). Effect of lactate on FFA and glycerol turnover in resting and exercising dogs. Journal of Applied Physiology, 39(3), 349-353.

Kang, J., Schweitzer, J. S., & Hoffman, J. R. (2003). Effect of order of exercise intensity upon cardiorespiratory, metabolic, and perceptual responses during exercise of mixed intensity. European Journal of Applied Physiology, 9(5), 569-574.

Kang, J., Chaloupka, E. C., Mastrangelo, M. A., Hoffman, J. R., Ratamess, N.

A., & O'Connor, E. (2005). Metabolic and perceptual responses during

Spinning cycle exercise. Medicine and Science in Sports and Exercise,37(5),853-859.

Kang, J., Mangine, G. T., Ratamess, N. A., Faigenbaum, A. D., & Hoffman, J. R.

(2007). Influence of intensity fluctuation on exercise metabolism.

European Journal of Applied Physiology, 100(3), 253-260.

Knuttgen, H. G. (1970). Oxygen debt after submaximal physical exercise.

Journal of Applied Physiology, 29, 651-657.

Kuo, C. C., Fattor, J. A., Henderson, G. C., and Brooks, G. A. (2005). Lipid oxidation in fit young adults during postexercise recovery. Journal of Applied Physiology,99, 349-356.

LaForgia, J., Withers, R. T., & Gore, C. J. (2006). Effects of exercise intensity and duration on the excess post-exercise oxygen consumption. Journal of Sports Sciences, 24(12), 1247-1260.

Liedl, M. A., Swain, D. P., Branch, J. D. (1999). Physiological effects of constant versus variable power during endurance cycling. Medicine and Science in Sports and Exercise, 31(10),1472-1477.

Maehlum, S., Grandmontagne, M., Newsholme, E. A., & Sejersted, O. M.

(1986). Magnitude and duration of excess postexercise oxygen consumption in healthy young subjects. Metabolism: Clinical and Experimental, 35(5), 425-429.

McArdle, W. D., Katch, F. I., & Katch, V. L. (1996). Exercise physiology : energy, nutrition, and human performance (5th ed.). Philadelphia :

Lippincott Williams & Wilkins.

Margaria, R., Edwards, H. T., & Dill, O. B. (1993). The possible mechanisms of contracting and paying the oxygen dept and the role of lactic acid in

muscular contraction. American Journal of Physiology, 106, 689-715.

Nichols, J. F., Sherman, C. L., & Abbott, E. (2000). Treading is new and hot.

ACSM^’_S Health & Fitness Journal, 4, 12-17.

Phelain, J. F., Reinke, E., Harris, M. A., & Melby, C. L. (1997). Postexercise energy expenditure and substrate oxidation in young women resulting from exercise bouts of different intensity. Journal of the American College of Nutrition, 16(2), 140-146.

Quinn, T. J., Vroman, N. B., & Kertzer, R. (1994). Postexercise oxygen

consumption in trained females: Effect of exercise duration. Medicine and Science in Sports and Exercise, 26(7), 908-913.

Romijn, J. A., Coyle, E. F., Sidossis, L. S., Gastaldelli, A., Horowitz, J. F., Endert, E., & Wolfe, R. R. (1993). Regulation of endogenous fat and

carbohydrate metabolism in relation to exercise intensity and duration. The American Journal of Physiology,265, E380-391.

Schuenke, M. D., Mikat, R. P., & McBride, J. M. (2002). Effect of an acute period of resistance exercise on excess post-exercise oxygen consumption:

implications for body mass management. European Journal of Applied Physiology and Occupational Physiology, 86(5), 411-417.

Scott, C. B. (2006). Estimating energy expenditure for brief bouts of exercise with acute recovery. Canadian Journal of Applied Physiology, 31(2), 144-149.

Segal, S. S., & Brooks, G. A. (1979). Effects of glycogen depletion and work load on postexercise O2 consumption and blood lactate. Journal of

Applied Physiology: Respiratory, Environmental and Exercise Physiology, 47(3), 514-521.

Sedlock, D., Fissinger, J. A., & Melby, C. L. (1989). Effects of exercise

intensity and duration on postexercise energy expenditure. Medicine and Science in Sports and Exercise, 21, 662-666.

Short, K. R., & Sedlock, D. A. (1997). Excess postexercise oxygen consumption and recovery rate in trained and untrained subjects. Journal of Applied Physiology, 83 (1), 153-159.

Smith, J., & McNaughton, L. (1993). The effects of intensity of exercise on excess postexercise oxygen consumption and energy expenditure in moderately trained men and women. European Journal of Applied Physiology and Occupational Physiology, 67(5), 420-425.

Webber, J. & Macdonald, I. A. (1993). Metabolic actions of catecholamines in man. Baillière's clinical endocrinology and metabolism, 7(22), 393-413.

Wilmore, J. H., & Costill, D. L. (2004). Physiology of sport and exercise (3rd ed.). Champaign, IL：Human Kinetics.

Wolfe, R. R., Herndon, D. N., Jahoor, F., Miyoshi, H., & Wolfe, M. (1987).

Effect of severe burn injury on substrate cycling by glucose and fatty acids.

The New England Journal of Medicine, 317(7), 403-408.

Wolfe, R. R., Klein, S., Carraro, F., & Weber, J. M. (1990). Role of

triglyceride-fatty acid cycle in controlling fat metabolism in humans during and after exercise. The American Journal of Physiology, 258(2), E382-E389.

Wong, T. & Harber, V. (2006). Lower excess postexercise oxygen consumption and altered growth hormone and cortisol responses to exercise in obese men. The Journal of Clinical Endocrinology & Metabolism, 91(2), 678–686.

Trost, S., Wilcox, A., & Gillis, D. (1997). The effect of substrate utilization, manipulated by nicotinic acid, on excess postexercise oxygen consumption.

International Journal of Sports Medicine, 18(2), 83-88.

Viru, A. (1996). Postexercise recovery period: carbohydrate and protein

metabolism. Scandinavian Journal of Medicine & Science in Sports, 6(1), 2-14.