References
- Abbiss, C. R., Ross, M. L., Garvican, L. A., Ross, N., Pottgiesser, T., Gregory, J., & Martin, D. T. (2013). The distribution of pace adopted by cyclists during a cross-country mountain bike World Championships. Journal of Sports Sciences, 31, 787–794.10.1080/02640414.2012.751118
- Allen, H., & Coggan, A. (2012). Training and racing with a power meter (p. 43). Boulder, CO: VeloPress.
- Atkinson, G., Peacock, O., & Law, M. (2007). Acceptability of power variation during a simulated hilly time trial. International Journal of Sports Medicine, 28, 157–163.10.1055/s-2006-924209
- Bertucci, W. M., Rogier, S., & Reiser, R. F. (2013). Evaluation of aerodynamic and rolling resistances in mountain-bike field conditions. Journal of Sports Sciences, 31, 1606–1613. doi:10.1080/02640414.2013.792945.
- Chidley, J. B., MacGregor, A. L., Martin, C., Arthur, C. A., & Macdonald, J. H. (2015). Characteristics explaining performance in downhill mountain biking. International Journal of Sports Physiology and Performance, 10, 183–190. doi:10.1123/ijspp.2014-0135.
- Hurst, H. T., Swarén, M., Hébert-Losier, K., Ericsson, F., Sinclair, J., Atkins, S., & Homlberg, H. C. (2013). GPS-based evaluation of activity profiles in elite downhill mountain biking and the influence of course type. Journal of Science and Cycling, 2, 25.
- Hurst, H. T., & Atkins, S. (2006). Power output of field-based downhill mountain biking. Journal of Sports Sciences, 24, 1047–1053.10.1080/02640410500431997
- Impellizzeri, F. M., & Marcora, S. M. (2007). The physiology of mountain biking. Sports Medicine, 37, 59–71.10.2165/00007256-200737010-00005
- Jobson, S. A., Passfield, L., Atkinson, G., Barton, G., & Scarf, P. (2009). The analysis and utilization of cycling training data. Sports Medicine, 39, 833–844.10.2165/11317840-000000000-00000
- Macdermid, P. W., Fink, P. W., & Stannard, S. R. (2015). The effects of vibrations experienced during road vs. off-road cycling. International Journal of Sports Medicine, 94, 783–788.
- Macdermid, P. W., & Stannard, S. (2012). Mechanical work and physiological responses to simulated cross country mountain bike racing. Journal of Sports Sciences, 30, 1491–1501.10.1080/02640414.2012.711487
- Mastroianni, G. R., Zupan, M. F., Chuba, D. M., Berger, R. C., & Wile, A. L. (2000). Voluntary pacing and energy cost of off-road cycling and running. Applied Ergonomics, 31, 479–485.10.1016/S0003-6870(00)00017-X
- Miller, M. C., Macdermid, P. W., Fink, P. W., & Stannard, S. R. (2016). Agreement between Powertap, Quarq and Stages power meters for cross-country mountain biking. Sports Technology, 1–7. doi: 10.1080/19346182.2015.110897910.1080/17461391.2016.1237550
- Miller, M. C., Macdermid, P. W., Fink, P. W., & Stannard, S. R. (2017). Performance and physiological effects of different descending strategies for cross-country mountain biking. European Journal of Sport Science, 17(3), 279–285.10.1080/17461391.2016.1237550
- Miller, M. C., Moir, G. L., & Stannard, S. R. (2014). Validity of using functional threshold power and intermittent power to predict cross-country mountain bike race outcome. Journal of Science and Cycling, 3, 16.
- Padilla, S. A., Mujika, I., Orbananos, J. A., & Angulo, F. (2000). Exercise intensity during competition time trials in professional road cycling. Medicine and Science in Sports and Exercise, 32, 850–856.10.1097/00005768-200004000-00019
- Stapelfeldt, B., Schwirtz, A., Schumacher, Y. O., & Hillebrecht, M. (2004). Workload demands in mountain bike racing. International Journal of Sports Medicine, 25, 294–300.