Summary
The mechanics of crosscountry skiing involve a complex interaction between the kinematic characteristics of the movement patterns and the kinetic relationships driving the motion. Crosscountry skiing techniques have been the subject of some biomechanical research, primarily involving the traditional diagonal stride technique. In the 1980s, skiers have developed several new approaches to moving across snow. These skating techniques rely on the generation of force from ski placements at an angle to the forward direction creating propulsive force while the ski slides forward. Biomechanical analysis of the crosscountry techniques has developed from rather simple 2-dimensional kinematic descriptions of diagonal stride to complex measurement of skating forces and 3-dimensional motion. The combined determination of forces and resultant motion has perhaps the most promise for practical application in assessments of equipment and technique. The relationship of the kinematic characteristics of skiing to the forces involved have received preliminary study but substantial gains in understanding will be necessary before approaches to optimising a skier’s technique are plausible.
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Andres P. Cross-country skiing: a film analysis for the ascertainment of parameters which determine performance in conjunction with the double pole with thrust, Swiss Federal Institute of Technology, Laboratory of Biomechanics, Zurich, 1977
Baumann W. The mechanics of the roller ski and its influence on technique in crosscountry skiing. In Perren and Schneider (Eds) Biomechanics: current interdisciplinary research, Martinus Nighoff Publishers, Dordrecht, 1985
Borowski L. Ski faster, easier, Leisure Press, Champaign, 1986
Borowski L. Another view of ski skating. American Ski Coach 10(3): 15–17, 1987
Dal Monte A, Fucci S, Leonardi LM, Trozzi V. An evaluation of the diagonal stride technique, in cross country skiing. In Matsui and Kobayashi (Eds) Biomechanics VII-B, Human Kinetics, Champaign, 1983
Dillman C. Biomechanical evaluations of cross-country skiing techniques. Journal of the United States Ski Coaches Association 2(4): 62–66, 1979
Dillman C, Schierman G. Biomechanical features of uphill ‘ski skating’ on crosscountry skis. Unpublished manuscript, United States Olympic Committee, Biomechanics Laboratory, Colorado Springs, 1986
Ekstrom H. Force interplay in cross country skiing. Scandinavian Journal of Sports Science 3(2): 69–76, 1981
Ekstrom H. The next generation of cross-country ski. Paper presented at the Fifth International Symposium on Ski Trauma and Ski Safety, Keystone, Colorado, 1983
Ekstrom H. The force interplay foot-binding-ski in cross-country skiing. Presented at the Sixth International Symposium on Ski Trauma and Ski Safety, Naeba, Japan, April, 1985
Endestad A, Teaford J. Skating for cross-country skiers, Leisure Press, Champaign, 1987
Gagnon M. Characteristiques dynamiques du pas alternatif en ski de fond. Canadian Journal of Applied Sport Science 5: 49–59, 1980
Gagnon M. A kinematic analysis of the alternate stride in crosscountry skiing. In Morecki et al. (Eds) Biomechanics VII-B, Polish Scientific Publishers, Warsaw, 1981
Gervais P, Wronko C. The marathon skate in nordic skiing performed on roller skates, roller skis, and snow skis. International Journal of Sport Biomechanics 4: 38–48, 1988
Haberli R. Cross-country skiing: a film analysis of the diagonal stride during elevation, Swiss Federal Institute of Technology, Laboratory of Biomechanics, Zurich, 1977
Hall M. One stride ahead, Winchester Press, Tulsa 1981
India DM. A mechanical analysis of female world cross-country skiers performing the diagonal stride on a flat terrain. Unpublished master’s thesis, University of Illinois, Urbana-Champaign, 1979
Komi P. Ground reaction forces in cross-country skiing. In Winter et al. (Eds) Biomechanics IX-B, pp. 185–190, Human Kinetics, Champaign, 1985
Komi PV. Force measurements during cross-country skiing. International Journal of Sport Biomechanics 3: 370–381, 1987
Komi PV, Norman RW. Preloading of the thrust phase in crosscountry skiing. International Journal of Sports Medicine 8 (Suppl.): 48–54, 1987
Komi PV, Norman RW, Caldwell G. Horizontal velocity changes of worldclass skiers using diagonal technique. In Komi (Ed.) Exercise and sport biology, pp. 166–175, Human Kinetics, Champaign, 1982
Marino GW, Titley BT, Gervais P. A technique profile of the diagonal stride patterns of highly skilled female cross-country skiers. In Nadeau et al. (Eds) Psychology of motor behavior and sport — 1979, pp. 615–621, Human Kinetics, Champaign, 1980
Martin P. Diagonal stride on uphill terrain. Unpublished master’s thesis, University of Illinois at Urbana-Champaign, 1979
McNitt-Gray J, Street GM, Nelson RC. Temporal analysis of skating technique. Unpublished manuscript, The Pennsylvania State University, Biomechanics Laboratory, University Park, 1986
Norman R, Caldwell G, Komi P. Differences in body segment energy utilization between world-class and recreational cross country skiers. International Journal of Sport Biomechanics 1: 253–262, 1985
Norman RW, Komi PV. Mechanical energetics of world class cross-country skiing. International Journal of Sport Biomechanics 3: 353–369, 1987
Norman RW, Ounpuu S. Towards the identification of biomechanical indices which distinguish successful from less successful high performance cross country skiers executing the diagonal stride. Unpublished manuscript, University of Waterloo, Occupational Biomechanics Laboratories, Waterloo, Ontario, 1987
Norman R, Ounpuu S, Fraser M, Mitchell R. Mechanical power output and estimated metabolic rates of nordic skiers during Olympic competition. International Journal of Sport Biomechanics 5: 169–184, 1989
Pierce J, Pope M, Johnson R, Punia D. Force analysis in crosscountry skiing. Abstract. Journal of Biomechanics 16: 290, 1983
Pierce JC, Pope MH, Renstrom P, Johnson RJ, Dufek J, et al. Force measurement in cross-country skiing. International Journal of Sport Biomechanics 3: 382–391, 1987
Pierrynowski MR, Norman RW, Winter DA. Mechanical energy analyses of the human during load carriage on a treadmill. Ergonomics 24: 1–14, 1981
Pierrynowski MR, Winter RW, Norman RW. Transfers of mechanical energy within the total body and mechanical efficiency during treadmill gait. Ergonomics 23: 147–156, 1980
Smith GA. Perceived exertion and kinematic characteristics of cross-country skiers using the marathon skate and double pole with stride techniques. Unpublished master’s thesis, University of Illinois, Urbana-Champaign, 1985
Smith GA. The effect of velocity and grade on the kinematics and kinetics of V1 skating in cross country skiing. Unpublished doctoral dissertation, The Pennsylvania State University, University Park, 1989
Smith GA, McNitt-Gray J, Nelson RC. Kinematic analysis of alternate stride skating in cross-country skiing. International Journal of Sport Biomechanics 4: 49–58, 1988
Smith GA, Nelson RC. Effects of increased velocity on the kinematics of V1 skating in cross country skiing. Presented at the meeting of the International Society for Biomechanics in Sport, Bozeman, MT, 1988
Smith GA, Nelson RC, Feldman A, Rankinen JL. Analysis of V1 skating technique of Olympic cross country skiers. International Journal of Sport Biomechanics 5: 185–207, 1989
Soliman AT. Cross-country skiing: the diagonal stride in flat. Unpublished thesis for diploma in biomechanics, Swiss Federal Institute of Technology, Zurich, 1977
Street GM. Kinetic analysis of the V1 skating technique during roller skiing. Unpublished doctoral dissertation, The Pennsylvania State University, University Park, 1988
Street G, McNitt-Gray J, Nelson R. Timing study world cup cross country ski race Biwabik, Minnesota, December 1985. Unpublished manuscript, The Pennsylvania State University, Biomechanics Laboratory, University Park, 1986
Tabor J. Face to face, Bill Koch. Ultrasport Magazine (Nov): 14–21, 1985
Waser J. Film analysis of biomechanical parameters associated with cross-country skiing. Paper presented at the International Symposium, Biomechanik Des Schilaufs, Innsbruck, 1976
Winter D. A new definition of mechanical work done in human movement. Journal of Applied Physiology 46: 79–83, 1979a
Winter D. Biomechanics of human movement, John Wiley, New York, 1979b
Woodward B. Calgary’ 88 — an inside look. Ski Research News 4(1): 1–4, 1988
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Smith, G.A. Biomechanics of Crosscountry Skiing. Sports Med 9, 273–285 (1990). https://doi.org/10.2165/00007256-199009050-00003
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DOI: https://doi.org/10.2165/00007256-199009050-00003