Ahlquist, L.E., Bassett, D.R., Sufit, R., Nagle, F.J. and Thomas, D.P. (1992) The effect of pedalling frequency on glycogen depletion rates in type 1 and type 2 quadriceps muscle fibres during submaximal cycling exercise. European Journal of Applied Physiology 65, 360-364.
Atkinson, G., Davison, R., Jeukendrup, A. and Passfield, L. (2003) Science and cycling: current knowledge and future directions for research. Journal of Sports Sciences 21, 767-787.
BASES (2000) BASES Code of Conduct [online] Available from URL: http://www.bases.org.uk/newsite/pdf/Code%20of%20Conduct.pdf [Accessed 29 September 2004].
Beelen, A. and Sargeant, A.J. (1993) Effect of prior exercise at different pedalling frequencies on maximal power in humans. European Journal of Applied Physiology 66, 102-107.
Bentley, D.J., Millet, G.P., Vleck, V.E. and McNaughton, L.R. (2002) Specific aspects of contemporary triathlon - Implications for physical analysis and performance. Sports Medicine 32, 345-359.
Bernard, T., Vercruyssen, F., Grego, F., Hausswirth, C., Lepers, R., Vallier, J.M. and Brisswalter, J. (2003) Effect of cycling cadence on subsequent 3km running performance in well trained triathletes. British Journal of Sports Medicine 37, 154-159.
Borg, G. (1973) Perceived exertion - a note on history and methods. Medicine and Science in Sports and Exercise 5, 90-93.
Brisswalter, J., Hausswirth, C., Smith, D., Vercruyssen, F. and Vallier, J.M. (2000) Energetically optimal cadence vs. freely chosen cadence during cycling: effect of exercise duration. International Journal of Sports Medicine 21, 60-64.
Chavarren, J. and Calbet, J.A.L. (1999) Cycling efficiency and pedalling frequency in road cyclists. European Journal of Applied Physiology 80, 555-563.
Deschenes, M.R., Kraemer, W.J., McCoy, R.W., Volek, J.S., Turner, B.M. and Weinlein, J.C. (2000) Muscle recruitment patterns regulate physiological responses during exercise of the same intensity. American Journal of Physiology, Regulatory Integrative Complimentary Physiology 279, 2229-2236.
Gotshall, R.W., Bauer, T.A. and Fahrner, S.L. (1996) Cycling cadence alters exercise hemodynamics. International Journal of Sports Medicine 17, 17-21.
Gottschall, J.S. and Palmer, B.M. (2002) The acute effects of prior cycling cadence on running performance and kinematics. Medicine and Science in Sports and Exercise 34, 1518-1522.
Gurfinkel, V.S., Levik, Y.S., Kazennikov, O.V. and Selionov, V.A. (1998) Locomotor-like movements evoked by leg muscle vibration in humans. European Journal of Neuroscience 10, 1608-1612.
Hausswirth, C. and Lehénaff, D. (2001) Physiological demands of running during long distance runs and triathlons. Sports Medicine 31, 679-689.
Howley, E.T., Basset, D.R. and Welch, H.G. (1995) Criteria for maximal oxygen uptake: review and commentary. Medicine and Science in Sports and Exercise 27, 1292-1301.
Hue, O., Gallais, D.L., Chollet, D., Boussana, A. and Prefaut, C. (1998) The influence of prior cycling on biomechanical and cardiorespiratory response profiles during running in triathletes. European Journal of Applied Physiology 77, 98-105.
Jameson, C. and Ring, C. (2000) Contributions of local and central sensations to the perception of exertion during cycling: Effects of work rate and cadence. Journal of Sports Sciences 18, 291-298.
Jones, A.M. and Doust, J.H. (1996) A 1% treadmill grade most accurately reflects the energy cost of outdoor running. Journal of Sports Sciences 14, . 321-327.
Lepers, R., Millet, G.Y., Maffiuletti, N.A., Hausswirth, C. and Brisswalter, J. (2001a) Effect of pedalling rates on physiological response during endurance cycling. European Journal of Applied Physiology 85, 392-395.
Lepers, R., Millet, G.Y. and Maffiuletti, N.A. (2001b) Effect of cycling cadence on contractile and neural properties of knee extensors. MMedicine and Science in Sports and Exercise 33, 1882-1888.
Lucía, A., Hoyos, J. and Chicharro, J.L. (2001) Preferred pedalling cadence in professional cycling. Medicine and Science in Sports and Exercise 33, 1361-1366.
Marsh, A.P., Martin, P.E. and Foley, K.O. (2000a) Effect of cadence, cycling experience, and aerobic power on delta efficiency during cycling. Medicine and Science in Sports and Exercise 32, 1630-1634.
Marsh, A.P., Martin, P.E. and Sanderson, D.J. (2000b) Is a joint moment-based cost function associated with preferred cycling cadence? Journal of Biomechanics 33, 173-180.
Millet, G.P. and Vleck, V.E. (2000) Physiological and biomechanical adaptations to the cycle to run transition in Olympic triathlon: review and practical recommendations for training. British Journal of Sports Medicine 34, 384-390.
Miura, H., Kitagawa, K. and Ishiko, T. (1997) Economy during a simulated laboratory test triathlon is highly related to Olympic distance triathlon. International Journal of Sports Medicine 18, 276-280.
Miura, H., Kitagawa, K. and Ishiko, T. (1999) Characteristic feature of oxygen cost at simulated laboratory triathlon test in trained triathletes. Journal of Sports Medicine and Physical Fitness 39, 101-106.
Neptune, R.R. and Hull, M.L. (1999) A theoretical analysis of preferred pedalling rate selection in endurance cycling. Journal of Biomechanics 32, 409-415.
Pringle, J.S.M., Doust, J.H., Carter, H., Tolfrey, K. and Jones, A.M. (2003) Effect of pedal rate on primary and slow component oxygen uptake responses during heavy cycle exercise. Journal of Applied Physiology 94, 1501-1507.
Rowland, T. and Lisowski, R. (2001) Hemodynamic responses to increasing cycling cadence in 11-year old boys: role of the skeletal muscle pump. International Journal of Sports Medicine 22, 405-409.
Sarre, G., Lepers, R., Maffiuletti, N., Millet, G. and Martin, A. (2003) Influence of cycling cadence on neuromuscular activity of the knee extensors in humans. European Journal of Applied Physiology 88, 476-479.
Takaishi, T., Yasuda, Y., Ono, T. and Moritani, T. (1996) Optimal pedalling rates estimated from neuromuscular fatigue for cyclists. Medicine and Science in Sports and Exercise 28, 1492-1497.
Vercruyssen, F., Brisswalter, J., Hausswirth, C., Bernard, T., Bernard, O. and Vallier, J.M. (2002) Influence of cycling cadence on subsequent running performance in triathlon. Medicine and Science in Sports and Exercise 3, 530-536