Literatuur hoogtestage

1. Bonetti, D.L. & Hopkins, W.G. (2009). Sea-Level Exercise Performance Following Adaptation to Hypoxia. A Meta-Analysis. Sports Medicine, 39 (2), 107-127.
2 .Chapman, R.F., Stray-Gunderson, J. & Levine, B.D. (1998). Individual variation in response to altitude training. J. Appl. Physiology, 85: 1448-1456.
3 .Rusko, H.K., Tikkanen, H.O. & Peltonen, J.E. (2004). Altitude and endurance training. Journal of Sports Sciences, 22, 928-945.
4 .Robach, P., Schmitt, L., Brugniaux, J.V., Nicolet, G., Duvallet, A., Fouillot, J-P., Moutereau, S., Lasne, F., Pialoux, V., Olsen, N.V. & Richalet, J-P. (2006). Living high-training low: effect on  erythropoiesis and maximal aerobic performance in elite Nordic skiers. Eur. J. Appl. Physiology, 97, 695-705.
5 .Saunders, P.U., Pyne, D.B. & Gore, C.J. (2009). Endurance Training at Altitude. High altitude medicine & biology, 10 (2), 135-148.
6 .Wehrlin, J.P., Zuest, P. Hallen, J. & Marti, B. (2006). Live high-train low for 24 days increases hemoglobin mass and red cell volume in elite endurance athletes. J. Appl. Physiology, 100, 1938-1945.
7 .Wilber, R.L. (2007). Application of Altitude/Hypoxic Training by Elite Athletes. Medicine & Science in Sports and Exercise, 39(9), 1610-1624.

 Literatuur wintertraining

1 .Coyle, E.F. (1995). Integration of the physiological factors determining endurance performance ability. Exercise Sport Science Review, 23, 25–63.
2 .Coyle, E.F., Coggan A.R., Hopper M.K. & Walters T.J. (1988). Determinants of endurance in well-trained cyclists. Journal of Applied Physiology, 64, 2622–30.
3. Herzog, W., Guimaraes A.C., Anton M.G. & Carter-Erdman K.A. (1991). Moment-length relations of rectus femoris muscles of speed skaters/cyclists and runners. Medicine & Science in Sports & Exercise, 23(11), 1289-96.
4 .Vleck V.E. & Bentley D.J. (2009). Physiological differences between cycling and running: lessons from triathletes. Sports & Medicine, 39(3), 179-206.
5 .Mutton, D.L., Loy, S.F., Rogers, D.M., Holland, G.J., Vincent, W.J, & Heng, M. (1993).  Effect of run vs combined cycle/run training on VO2max and running performance.  Medicine & Science in Sports & Exercise, 25, 1393-1397.
6 .Pate, R.R., Hughes, D., Chandler, J.V.& Ratliffe, L. (1978). Effects of arm training on retention of training effects derived from leg training. Medicine & Science in Sports & Exercise, 10, 71-74.
7 .Roels ,B., Schmitt, L., Libicz, S., Bentley, D., Richalet, J.P. & Millet, G. (2005). Specificity of VO2MAX and the ventilatory threshold in free swimming and cycle ergometry: comparison between triathletes and swimmers. Journal of Sports & Medicine, 39(12), 965-8.
8 .Rundell, K.W. & Pripstein, L.P. (1995). Physiological responses of speed skaters to treadmill low walking and cycle ergometry. International Journal of Sports & Medicine, 16(5), 304-8.
9 .Suriano, R. & Bishop D. (2010). Physiological attributes of triathletes. Journal of Science & Medicine in Sports, 13(3), 340-7.
10. Tanaka, H. (1994).  Effects of cross training.  Transfer of training effects on VO2max between cycling, running and swimming.  Sports Medicine, 19, 330-339.
11 .Wilmore, W.H., Costill, D.L. & Kenney, W.L. (2008). Physiology of Sport & Exercise. Champaign, IL: Human Kinetics.

code: 1112FC08