Developments in the biomechanics and equipment of Olympic cross-country skiers
Permanent link
https://hdl.handle.net/10037/15131Date
2018-07-24Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Here, our aim was to describe the major changes in cross-country (XC) skiing in
recent decades, as well as potential future developments. XC skiing has been an
Olympic event since the very first Winter Games in Chamonix, France, in 1924. Over
the past decades, considerable developments in skiing techniques and improvements
in equipment and track preparation have increased skiing speed. In contrast to the
numerous investigations on the physiological determinants of successful performance,
key biomechanical factors have been less explored. Today’s XC skier must master a
wide range of speeds, terrains, and race distances and formats (e.g., distance races with
individual start, mass-start or pursuit; knock-out and team-sprint; relays), continuously
adapting by alternating between various sub-techniques. Moreover, several of the new
events in which skiers compete head-to-head favor technical and tactical flexibility and
encourage high-speed techniques (including more rapid development of propulsive
force and higher peak forces), as well as appropriate training. Moreover, the trends
toward more extensive use of double poling and skiing without grip wax in classical
races have given rise to regulations in connection with Olympic distances that appear
to have preserved utilization of the traditional classical sub-techniques. In conclusion,
although both XC equipment and biomechanics have developed significantly in recent
decades, there is clearly room for further improvement. In this context as well, for
analyzing performance and optimizing training, sensor technology has a potentially
important role to play.
Description
Source at: http://doi.org/10.3389/fphys.2018.00976