Summary
Elite oarsmen and oarswomen possess large body dimensions and show outstadning aerobic and anaerobic qualities. Oarsmen have V̇O2max values of 6.1 ± 0.6 L/min and have incurred O2 debts of between 10 and 20 litres. The caloric expenditure of rowing estimated from the O2 cost of a 6-minute rowing ergometer exercise was calculated at 36 kcal/min, one of the highest energy costs so far reported for any predominantly aerobic-type sport. Aerobic and anaerobic calculations show that 70 to 75% of the energy necessary to row the standard 2000m distance for men is derived from aerobiosis while the remaining 25 to 30% is anaerobic. Women achieve V̇O2max values of 4.1 ± 0.4 L/min and slightly lower anaerobic values than men. The relative 60 to 65% energy contribution of aerobic metabolism and 35 to 40% for anaerobiosis is not surprising since women compete at 1000m.
Rowers also exhibit excellent isokinetic leg strength and power when compared with other elite athletes and oarswomen produced higher relative leg strength values than men when lean body mass is considered. Muscle fibre type distributions in oarsmen resemble those of distance runners while women tend to have a slightly higher proportion of fast-twitch fibres. An average power output of 390 ± 13.6W was produced by oarsmen for 6 minutes of simulated rowing while women were able to develop 300 ± 18.4 for 3 minutes of the same activity. Mechanical efficiency for rowing was calculated at 20 ± 0.9%. Oarsmen also achieve very high ventilation volumes being able to average above 200 L/min BTPS for 6 minutes of simulated rowing; women ventilate 170 L/min BTPS for 3 minutes of this exercise. Excellent V̇O2max and O2 pulse values demonstrate outstanding cardiorespiratory efficiency. Both oarsmen and oarswomen utilise a unique physiological pattern of race pacing; they begin exertion with a vigorous sprint which places excessive demands on anaerobic metabolism followed by a severely high aerobic steady-state and then an exhaustive sprint at the finish. Tolerance to excessive anaerobiosis is evident by very high lactates and O2 deficits measured during the first 2 minutes of exercise. Physiological profiles of successful international calibre rowing athletes have been established as a result of studies described in this review and the data have been used in a variety of ways to improve rowing performance.
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References
Agnevik, G.; Karlsson, J. et al.: Energy demands during running. Second International Seminar of Ergometry, W. Berlin, p. 281 (1967).
Andersen, P.: Capillary density in skeletal muscle of man. Acta Physiologica Scandinavica 95: 203–205 (1975).
Åstrand, P.-O.: Work tests with the bicycle ergometer. Vorberg, Sweden: Br. Carlssons Baktr. AB, 1967.
Åstrand, P.-O. and Rodahl, K.: Textbook of Work Physiology, 2nd ed. (McGraw-Hill, New York 1977).
Bergh, U.; Thorstensson, A.; Sjodin, B.; Hulten, B.; Piehl, K. and Karlsson, J.: Maximal oxygen uptake and muscle fiber types in trained and untrained humans. Medicine and Science in Sports 7: 37–43 (1975).
Bonde-Petersen, F.; Gollnick, P.D.; Hansen, T.I.; Hulten, N.; Kristensen, J.H.; Secher, N. and Secher, O.: Glycogen depletion pattern in human muscle fiber during work under curarization (d-tubocurarine); in Howald and Poortmans (Eds) Metabolic Adaptation to Prolonged Physical Exercise, pp.422–430 (Birkhauser Verlag, Basel 1975).
Carey, P.; Stensland, M. and Hartley, L.: Comparison of oxygen uptake during maximal work on the treadmill and the rowing ergometer. Medicine and Science in Sports 6: 101–103 (1974).
Celentano, F.; Cortili, G.; DiPrampero, P.E. and Cerrctelli, P.: Mechanical aspects of rowing. Journal of Applied Physiology 36: 642–647 (1974).
Clark, J.M.; Hagerman, F.C. and Gelfand, R.: Breathing patterns during submaximal and maximal exercise in elite oarsmen. Journal of Applied Physiology 55: 440–446 (1983).
Clarkson, P.M.; Johnson, J.; Melchionda, A. and Graves, J.: Isokinetic strength, fatigue, and fiber type in elite oarswomen. (Abstract). Medicine and Science in Sports and Exercise 15: 178 (1983).
Connors, M.C.: An energetic analysis of rowing. Doctoral Dissertation (Ohio University, Athens, Ohio 1974).
Coyle, E.F.; Costill, D.L. and Lesmes, G.R.: Leg extension power and muscle fiber composition. Medicine and Science in Sports 11: 12–15 (1979).
Cunningham, D.A.; Goode, P.B. and Critz, J.B.: Cardiorespiratory response to exercise on a rowing and bicycle ergometer. Medicine and Science in Sports 7: 37–43 (1975).
de Garay, A.L.; Levine, L. and Carter, J.E.L.: Genetic and Anthropological Studies of Olympic Athletes (Academic Press, New York 1974).
DiPrampero, P.E.; Cortili, G.; Celentano, F. and Cerretelli, P.: Physiological aspects of rowing. Journal of Applied Physiology 31: 853–857 (1971).
DiPrampero, P.E.; Pinera Limas, F. and Sassi, G.: Maximal muscular power (aerobic and anaerobic) in 116 athletes performing at XIX Olympic Games in Mexico. Ergonomics 13: 665–674 (1970).
Ekblom, B. and Hermansen, L.: Cardiac output in athletes. Journal of Applied Physiology 25: 619–625 (1968).
FISA Coaches Conference Report; in Proceedings of the FISA Coaches Conference, Rome, Italy, Oct. 1980 (Albrecht Philler Verlag, Minden 1983).
Fox, E.L.: Measurement of the maximal alactic (Phosphagen) capacity in man. Medicine and Science in sports 5: 66 (1973).
Gollnick, P.D.; Armstrong, R.B.; Saltin, B.; Saubert IV. C.W.; Sembrowich, W.L. and Shepherd, R.E.: Effect of training on enzyme activity and fiber composition of human skeletal muscle. Journal of Applied Physiology 34: 107–111 (1973).
Gollnick, P.D. and Hermansen, L.: Biochemical adaptations to exercise: Anaerobic metabolism; in Wilmore (Ed.) Exercise and Sport Sciences Reviews, pp. 1–43 (Academic Press, New York 1973).
Gollnick, P.D.; Hermansen, L. and Saltin, B.: The muscle biopsy: Still a research tool. Physician and Sportsmedicine 8(1): 50–55 (1980).
Hagerman, F.C: Respiratory distress among oarsmen during competition at the 1968 Summer Olympic Games. Medical Tribune, p. 12 (May, 1969).
Hagerman, F.C: Metabolic responses of women rowers during ergometric rowing. (Abstract). Medicine and Science in Sports 6: 87 (1974).
Hagerman, F.C: Teamwork in the hardest pull in sports. Physician and Sportsmedicine 3: 39–44 (1975).
Hagerman, F.C: Knee pain. Oarsman 10: 37–42 (1978).
Hagerman, F.C; Addington, W.W. and Gaensler, E.A.: A comparison of selected physiological variables among outstanding competitive oarsmen. Journal of Sports Medicine and Physical Fitness 12: 12–22 (1972).
Hagerman, F.C; Addington, W.W. and Gaensler, E.A.: Severe steady state exercise at sea level and altitude in Olympic oarsmen. Medicine and Science in Sports 7: 275–279 (1975b).
Hagerman, F.C; Connors, M.C.; Gault, J.A.; Hagerman, G.R. and Polinski, W.J.: Energy expenditure during stimulated rowing. Journal of Applied Physiology 45: 87–93 (1978).
Hagerman, F.C; Fox, E.L.; Connors, M.C and Pompei, J.A.: Metabolic responses of women rowers during ergometric rowing. (Abstract). Medicine and Science in Sports 6(1): 87 (1974).
Hagerman, F.C; Hagerman, G.R. and Mickelson, T.C.: Physiological profiles of elite rowers. Physician and Sportsmedicine 7(7): 74–81 (1979).
Hagerman, F.C. and Howie, G.A.: Use of certain physiological variables in the selection of the 1967 New Zealand crew. Research Quarterly of the American Association of Health and Physical Education 42: 264–273 (1971).
Hagerman, F.C. and Lee, W.D.: Measurement of oxygen consumption, heart rate, and work output during rowing. Medicine and Science in Sports 3: 155–160 (1971).
Hagerman, F.C. and Mansfield, M.C: A comparison of energy cost and mechanical efficiency at identical power outputs between a mechanical variable-resistance rowing ergometer and a mechanical fixed-resistance bicycle ergometer. (Abstract). Medicine and Science in Sports and Exercise 16: 125 (1984).
Hagerman, F.C.; McKirnan, M.D. and Pompei, J.A.: Maximal oxygen consumption of conditioned and unconditioned oarsmen. Journal of Sports Medicine 15: 43–48 (1975a).
Hagerman, F.C. and Mickelson, T.C.: A task specificity comparison of anaerobic thresholds among competitive oarsmen. (Abstract). Medicine and Science in Sports and Exercise 13: 17–20 (1981).
Hagerman, F.C. and Staron, R.S.: Seasonal variations among physiological variables in elite oarsmen. Canadian Journal of Applied Sport Science 8: 143–148 (1983).
Hagerman, G.R.: Metabolic evaluation of international caliber lightweight oarsmen. Doctoral Dissertation (Ohio State University, Columbus, Ohio 1976).
Hamby, E.J. and Thomas, V.: Comparison of rowing and cycling work capacity tests using heart rate as the parameter. Journal of Physiology 203: 80P–81P (1969).
Hansen, G.: Vergleichende Untersuchungen über dem Verhältnis der aeroben zur anaeroben Kapazität bei maximaler ergometrischen Belastung. Schweizerische Zeitschrift für Sportsmedizin 15: 68–75 (1967).
Harrison, J.Y.: A constant torque-brake for use in bicycle and other ergometers. Journal of Applied Physiology 23: 482–483 (1967).
Harrison, J.Y.: Maximizing human power output by suitable selection of motion cycle and load. Human Factors 12: 315–329 (1970).
Hay, J.G.: Rowing: An analysis of the New Zealand Olympic selection tests. New Zealand Journal of Health Physical Education and Recreation 1: 83–90 (1968).
Haymes, E.M. and Dickinson, A.L.: Characteristics of elite male and female ski racers. Medicine and Science in Sports and Exercise 12: 153–158 (1980).
Hebbelinck, M.; Ross, W.D.; Carter, J.E.L. and Boems, J.: Anthropometric characteristics of female Olympic rowers. Canadian Journal of Applied Sport Sciences 5: 255–262 (1980).
Henderson, J.Y. and Haggard, H.W.: The maximum of human power and its fuel. American Journal of Physiology 72: 264–282 (1925).
Holloszy, J.O.: Biochemical adaptations to exercise: Aerobic metabolism; in Wilmore (Ed.) Exercise and Sport Sciences Reviews, pp.46–73 (Academic Press, New York 1973).
Ingjer, F.: Effects of endurance training of muscle fibre ATP-ase activity, capillary supply and mitochondrial content in man. Journal of Physiology 294: 419–432 (1979).
Ingjer, F. and Dahl, H.A.: Dropouts from an endurance training program. Scandinavian Journal of Sports Sciences 1: 20–22 (1979).
Ishiko, T.: Aerobic capacity and external criteria of performance. Canadian Medical Association Journal 26: 746–749 (1967).
Ishiko, T.: Application of telemetry to sports activities; in Wartenweiler et al. (Eds) Biomechanics I, pp. 138–146 (Karger, Basel 1968).
Jackson, R.C. and Secher, N.: The metabolic cost of rowing and pnysiological characteristics of world class oarsmen. (Abstract). Medicine and Science in Sports 5: 65 (1973).
Jackson, R.C. and Secher, N.H.: The aerobic demands of rowing in two Olympic rowers. Medicine and Science in Sports 8: 168–170 (1976).
Larsson, L. and Forsberg, A.: Morphological muscle characteristics in rowers. Canadian Journal of Applied Sports Sciences 5:239–244 (1980).
Liljestrand, G. and Lindhard, J.: Zur Physiologie des Ruderns. Skandinavisches Archiv für Physiologie 39: 215–235 (1920).
Lundin, A. and Saltin, B.: Oxygen demands of swimming. Il Medico — Scientific Conference of FINA, Dublin (1971).
Mahler, D.A.: Comparison of six-minute ‘all-out’ and incremental exercise tests in elite oarsmen. Submitted for publication, Medicine and Science in Sports and Exercise (1983).
Mahler, D.A.: Unpublished data: Pulmonary Section, Dartmouth-Hitchcock Medical Center, Hanover, New Hampshire, USA.
Mahler, D.A.; Andresen, D.C.; Parker, H.W.; Mitchell, W.S. and Hagerman, F.C: Physiologic comparison of rowing performance between national and collegiate women rowers. (Abstract). Medicine and Science in Sports and Exercise 15: 157 (1983).
Margaria, R.: The sources of muscular energy. Scientific American 226: 84–91 (1972).
Margaria, R.; Cerretelli, P.; DiPrampero, P.E.; Massari, C. and Torelli, G.: Kinetics and mechanisms of oxygen debt contraction in man. Journal of Applied Physiology 18: 371–377 (1963).
Margaria, R.; Cerretelli, P. and Mangili, F.: Balance and kinetics of anaerobic energy release during strenuous exercise in man. Journal of Applied Physiology 19: 623–628 (1964).
Margaria, R.; Edwards, H.T. and Dill, D.B.: The possible mechanisms of contracting and paying the oxygen debt and the role of lactic acid in muscular contraction. American Journal of Physiology 106: 689–715 (1963).
Mellerowicz, H. and Hansen, G.: Sauerstoff Kapazität und andere spiro-ergometrische maximal werte der Ruder — Olympiasieger im viser mit st. vom Berliner Ruderclub. Sportarzt und Sportmedizin 5: 188 (1965).
Mickelson, T.C. and Hagerman, F.C: Anaerobic threshold measurements of elite oarsmen. Medicine and Science in Sports and Exercise 14: 440–444 (1982).
Niu, H.; Ito, K.; Takagi, K. and Ito, M.: A study of the development of cardio-respiratory function of the oarsmen; in Kato (Ed.) Proceedings of International Congress of Sport Sciences, Tokyo, October, 1964, pp.360–361 (Japanese Union of Sport Sciences, Tokyo 1966).
Nowacki, P.E.; Adam, K.; Krause, R. and Ritter, V.: Die Spiroergometrie im neuen Untersuchungs-System für den Spitzensport. Trainer — Journal Rudersport 26: I–VI (1971b).
Nowacki, P.E.; Krause, R. and Adam, K.: Maximal oxygen uptake by the rowing crew winning the Olympic gold medal 1968. Pflugers Archiv 312: R66–R67 (1969).
Nowacki, P.E.; Krause, R.; Adam, K. and Ruluffs, M.: Über die cardiopulmonale Leistungsfähigkeit des Deutschland — Achtus vor seinem Olympiasieg 1968. Sportarzt und Sportmedizin 10: 227–229 (1971a).
Orfeldt, L.: Metabolism of l(+)-lactate in human skeletal muscle during exercise. Acta Physiologica Scandinavica 338 (Suppl.): 1–66 (1970).
Polinski, W.J.: Indirect determination of oxygen deficit during maximal ergometric rowing. Masters Thesis (Ohio University, Athens, Ohio 1976).
Prince, R.P.; Hikida, R.S. and Hagerman, F.C.: Human muscle fiber types in power lifters, distance runners, and untrained subjects. Pflugers Archiv 363: 19–26 (1976).
Pruett, E.D.R.: in Astrand and Rodahl (Eds) Textbook of Work Physiology, figs 16–19 (McGraw-Hill, New York 1977).
Pyke, F.S.; Minikin, B.R.; Woodman, L.R.; Roberts, M. and Wright, T.G.: Isokinetic strength and maximal oxygen uptake of trained oarsmen. Canadian Journal of Applied Sports Sciences 4: 277–279 (1979).
Saltin, B. and Åstrand, P.O.: Maximal oxygen uptake in athletes. Journal of Applied Physiology 23: 353–358 (1967).
Saltin, B.; Henriksson, J.; Nygaard, E.; Andersen, P. and Jansson, E.: Fiber types and metabolic potentials of skeletal muscle in sedentary man and endurance runners. Annals of the New York Academy of Sciences 302: 3–29 (1977).
Schneider, E.: Leistungsanalyse bei Rudermannschaften (Limpert Verlag, Bad Hamburg 1980).
Secher, N.H.: Isometric rowing strength of experienced and inexperienced oarsmen. Medicine and Science in Sports 7: 280–283 (1975).
Secher, N.H.: The physiology of rowing. Journal of Sports Sciences 1: 23–53 (1983).
Secher, N.H.; Espersen, M.; Binkhorst, R.A.; Andersen, P.A. and Rube, N.: Aerobic power at the onset of maximal exercise. Scandinavian Journal of Sports Sciences 4: 12–16 (1982).
Secher, N.H.; Rorsgaard, S. and Secher, O.: Contralateral influence on recruitment of type I muscle fibres during maximum voluntary extension of the legs. Acta Physiologica Scandinavica 96: 20A–21A (1976).
Secher, N.H.; Rorsgaard, S. and Secher, O.: Contralateral influence on recruitment of curarized muscle fibres during maximal voluntary extension of the legs. Acta Physiologica Scandinavica 103: 456–462 (1978).
Secher, N.H.; Rube, N. and Molbech, S.: The voluntary muscle contraction pattern in man; in De Potter (Ed.) Adapted Physical Activities, pp.225–236 (Editions de L’Universite de Bruxelles, Bruxelles 1981).
Secher, N.H.; Rube, N. and Secher, O.: Effect of tubocurarine on human soleus and gastrocnemius muscles. Acta Anaesthesiologica Scandinavica 26: 231–234 (1982).
Secher, N.H.; Vaage, O. and Jackson, R.C.: Rowing performance and maximal aerobic power in oarsmen. Scandinavian Journal of Sports Sciences 4: 9–11 (1982).
Spitzer, J.J.: Effect of lactate infusion of canine myocardial free fatty acid metabolism in vivo. American Journal of Physiology 226: 213–217 (1974).
Szogy, A. and Cherebetiu, G.: Physical work capacity testing in male performance rowers with practical conclusions for their training process. Journal of Sports Medicine and Physical Fitness 14: 218–223 (1974).
Thorstensson, A.: Muscle strength, fibre types and enzyme activities in man. Acta Physiologica Scandinavica 443 (Suppl.): (1976).
Thorstensson, A.; Grimby, G. and Karlsson, J.: Force-velocity relations and fiber composition in human knee extensor muscles. Journal of Applied Physiology 40: 12–16 (1976).
Thorstensson, A. and Karlsson, J.: Fatiguability and fibre composition of human skeletal muscle. Acta Physiologica Scandinavica 98: 318–322 (1976).
Thorstensson, A.; Larsson, L.; Tesch, P. and Karlsson, J.: Muscle strength and fiber composition in athletes and sedentary men. Medicine and Science in Sports 9: 26–30 (1977).
Vaage, O.: in Åstrand and Rodahl (Eds) Textbook of Work Physiology, table 16–2 (McGraw-Hill, New York 1977).
Williams, L.R.T.: Work output and heart rate response of top level New Zealand oarsmen. Research Quarterly 47: 506–512 (1976).
Wilmore, J.H.: Alterations in strength, body composition and anthropometric measurements consequent to a 10-week weight training program. Medicine and Science in Sports 6: 133–138 (1974).
Wright, G.R.; Bompa, T. and Shephard, R.J.: Physiological evaluation of a winter training programme for oarsmen. Journal of Sports Medicine and Physical Fitness 15: 22–37 (1976).
Yamakawa, J. and Ishiko, T.: Standardization of physical fitness test for oarsmen; in Kato (Ed.) Proceedings of International Congress of Sports Sciences, Tokyo, October, 1964, pp.435–436 (Japanese Union of Sports Sciences, Tokyo 1966).
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Hagerman, F.C. Applied Physiology of Rowing. Sports Medicine 1, 303–326 (1984). https://doi.org/10.2165/00007256-198401040-00005
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DOI: https://doi.org/10.2165/00007256-198401040-00005