Abstract
Adaptation to training loads can be quantitatively described by a dose-effect dependence, with the gain in the training function over a certain period regarded as the effect and the dose expressed as a product of the energy spent during exercise and the stimulus duration. The duration combines the periods of exercises, pauses, and recovery needed to compensate for the fast fraction of the oxygen debt. In addition to direct measurements of the energy spent, quantitative assessment of the load intensity can be based on the total pulse cost of exercise, which accurately reflects the changes in the oxygen demand and the energy cost of the physical load. To quantitate and standardize training and competition loads, we suggest the use of correlations found between the pulse and energy costs of exercises and their relative power determined in critical modes of muscle activity: at the anaerobic threshold; the critical power, associated with the maximum oxygen consumption; the alactic anaerobic threshold; the power of exhaustion, when blood lactic acid reaches its maximum; or at maximum aerobic power, when the muscle reserves of ATP and creatine phosphate are the most depleted.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
REFERENCES
Volkov, N.I., Development of Biochemical Adaptation and Principles of Training, in Volkov, N.I., Nesen, E.N, Osipenko, A.A., and Korsun, S.N., Biokhimiya myshechnoi deyatel'nosti (Biochemistry of Muscle Activity), Kiev: Olimpiiskaya Literatura, 2000, p. 408.
Volkov, N.I. and Savel'ev, I.A., Oxygen Demand and Energy Cost of Strenuous Exercise in Human, Fiziol. Chel., 2002, vol. 28, no.4, p. 80.
Volkov, N.I., Popov, O.I., Savel'ev, I.A., and Samborskii, A.G., Pulse Rate Criteria for Determining the Energy Cost of Exercise, Fiziol. Chel., 2003, vol. 29, no.2, p. 91.
Shephard, R.J., Standard Test of Aerobic Power, Fractions of Fitness, Shepard, R.J., Ed., Springfield: Thomans, 1971.
Whipp, D.J., Davis, J.A., Torres, F., and Wasserman, K., A Test to Determine the Parameters of Aerobic Function during Exercise, J. Appl. Physiol., 1981, vol. 50, p. 217.
Inbar, O., Bar-Or, O., and Skinner, J.S., The Wingate Anaerobic Test, Champaign: Human Kenetics, 1996.
Bar-Or, O., The Wingate Anaerobic Test: An Update on Methodology, Reliability and Validity, Sports Med., 1987, vol. 4, p. 381.
Margaria, R., Aghemo, P., and Rovelli, E., Measurement of Muscular Power (Anaerobic) in Man, J. Appl. Physiol., 1966, vol. 21, p. 1662.
Volkov, N.I. and Danilov, V.A., Maximum Anaerobic Power of Basketball Players, Teor. Prakt. Fiz. Kul't., 1973, no. 3, p. 41.
Boning, D., Clasing, D., and Weicker, H., Stellenwert der Lacktatbestimmung in der Leistungsdiagnostik, Stuttgart: Fisher, 1994.
Borovikov, V.P. and Borovikov I.P., Statistica—Statisticheskii analiz i obrabotka dannykh v srede Windows (Statistica: Statistical Analysis and Data Management Using Windows), Moscow: Filin'', 1997.
Janssen, P.G.J.M., Training, Lactate, Pulse Rate, Ou Lu: Polar Electro, 1987, 2nd ed.
Smith, D.J. and Norris, S.R., Training Load and Monitoring an Athlete's Tolerance for Endurance Training, Enhancing Recovery: Preventing Underperformance in Athletes, Kellman, M., Ed., Champaign: Human Kinetics, 2002, p. 88.
Bannister, E.W., Modelling Elite Athlete Performance, Physiological Testing of the High-Performance Athlete, MacDougall, J.D., et al., Eds., Champaign: Human Kinetics, 1991, 2nd ed., p. 403.
Author information
Authors and Affiliations
Additional information
__________
Translated from Fiziologiya Cheloveka, Vol. 31, No. 5, 2005, pp. 125–134.
Original Russian Text Copyright © 2005 by Volkov, Popov, Gabrys', Shmatlyan-Gabrys'.
Rights and permissions
About this article
Cite this article
Volkov, N.I., Popov, O.I., Gabrys', T. et al. Physiological Criteria in Defining the Standards for Training and Competition Loads in Elite Sports. Hum Physiol 31, 606–614 (2005). https://doi.org/10.1007/s10747-005-0102-4
Received:
Issue Date:
DOI: https://doi.org/10.1007/s10747-005-0102-4