References
- Bosquet, L. (2011). Les femmes dépasseront-elles les hommes dans les épreuves d’endurance? Nutritions Et Endocrinologie, 9(53), 140–142.
- Cheuvront, S. N., Carter, R., Deruisseau, K. C., & Moffatt, R. J. (2005). Running performance differences between men and women: An update. Sports Medicine, 35, 1017–1024.
- Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd ed.). Hillsdale, MI: Erlbaum.
- Coquart, J. B., Eston, R. G., Noakes, T. D., Tourny-Chollet, C., L’Hermette, M., Lemaître, F., & Garcin, M. (2012). Estimated time limit: A brief review of a perceptually based scale. Sports Medicine, 42, 845–855.
- Coquart, J. B. J., Alberty, M., & Bosquet, L. (2009). Validity of a nomogram to predict long distance running performance. Journal of Strength and Conditioning Research, 23, 2119–2123.
- Coquart, J. B. J., & Bosquet, L. (2010). Precision in the prediction of middle distance-running performances using either a nomogram or the modeling of the distance-time relationship. Journal of Strength and Conditioning Research, 24, 2920–2926.
- Currell, K., & Jeukendrup, A. E. (2008). Validity, reliability and sensitivity of measures of sporting performance. Sports Medicine, 38(4), 297–316.
- Dupuy, O., Bherer, L., Audiffren, M., & Bosquet, L. (2013). Night and postexercise cardiac autonomic control in functional overreaching. Applied Physiology, Nutrition and Metabolism, 38(2), 200–208.
- Ettema, J. H. (1966). Limits of human performance and energy production. Internationale Zeitschrift FüR Angewandte Physiologie Einschliesslich Arbeitsphysiologie, 22, 45–54.
- Greenhouse, S. W., & Geisser, S. (1959). On methods in the analysis of profile data. Psychometrika, 24, 95–112.
- Hedges, L. V. (1981). Distribution theory for Glass’s estimator of effect size and related estimators. Journal of Educational Statistics, 6(2), 107–128.
- Hughson, R. L., Orok, C. J., & Staudt, L. E. (1984). A high velocity treadmill running test to assess endurance running potential. International Journal of Sports Medicine, 5, 23–25.
- Joyner, M. J. (1993). Physiological limiting factors and distance running: Influence of gender and age on record performances. Exercise and Sport Sciences Reviews, 21, 103–133.
- Lamberts, R. P., Swart, J., Woolrich, R. W., Noakes, T. D., & Lambert, M. I. (2009). Measurement error associated with performance testing in well-trained cyclists: Application to the precision of monitoring changes in training status. International SportMed Journal, 10, 33–44.
- Mauchly, J. W. (1940). Significance test for sphericity of a normal n-variate distribution. Annals of Mathematical Statistics, 11(2), 204–209.
- Mercier, D., Léger, L., & Desjardins, M. (1984). Nomogramme pour prédire la performance le VO2max et l’endurance relative en course de fond. Médecine Du Sport, 58(4), 181–187.
- Munro, B. H. (1997). Statistical methods for health care research (3rd ed.). Philadelphia, PA: Lippincott.
- Nevill, A. M., & Atkinson, G. (1997). Assessing agreement between measurements recorded on a ratio scale in sports medicine and sports science. British Journal of Sports Medicine, 31, 314–318.
- Newman, D. (1939). The distribution of range in samples from a normal population, expressed in terms of an independent estimate of standard deviation. Biometrika, 31, 20–30.
- Pate, R. R., & Branch, J. D. (1992). Training for endurance sport. Medicine and Science in Sports and Exercise, 24(Suppl. 9), S340–343.
- Spearman, C. (1904). The proof and measurement of association between two things. The American Journal of Psychology, 15, 72–101.
- Tokmakidis, S. P., Léger, L., Mercier, D., Peronnet, F., & Thibault, G. (1987). New approaches to predict VO2 max and endurance from running performances. Journal of Sports Medicine and Physical Fitness, 27, 401–409.