Allometric scaling of uphill cycling performance (2008)
Jobson, S.A., Woodside, J., Passfield, L., Nevill, Alan M.
Previous laboratory-based investigations have identified optimal body mass scaling exponents in the range 0.79 - 0.91 for uphill cycling. The purpose of this investigation was to evaluate whether or...
Jobson, S.A., Nevill, Alan M., George, S.R., Jeukendrup, A.E., Passfield, L.
The aims of this study were to compare the physiological demands of laboratory- and road-based time-trial cycling and to examine the importance of body position during laboratory cycling. Nine male...
Jobson, S.A., Nevill, Alan M., Palmer, G.S., Jeukendrup, A.E., Doherty, M., Atkinson, Greg
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Wyon, M., Deighan, M., Nevill, Alan M., Doherty, M., Morrison, S., Allen, N., ...
This study examined the cardiorespiratory and anthropometric indices of professional classical ballet dancers in relation to company seniority, gender, and supplemental training. Forty-nine...
Optimal power-to-mass ratios when predicting flat and hill-climbing time-trial cycling. (2006)
Nevill, Alan M., Jobson, S.A., Davison, R.C.R., Jeukendrup, A.E.
The purpose of this article was to establish whether previously reported oxygen-to-mass ratios, used to predict flat and hill-climbing cycling performance, extend to similar power-to-mass ratios...
Nevill, Alan M., Jobson, S.A., Palmer, G.S., Olds, Tim
The purpose of the present article is to identify the most appropriate method of scaling VO2max for differences in body mass when assessing the energy cost of time-trial cycling. The data from three...