A cinematographic analysis of cross country skiing flat diagonal stride technique

Matthews, Margaret Emma, 1950-

January 1977

No description available.

Cross-country skiing.

A comparison between fitness and performance in cross-country skiers

Peterson, Matthew D.

January 1984

Thesis (M.S.)--University of Wisconsin--Madison, 1984. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 42-45).

Cross-country skiing. Exercise.

Metabolic cost comparison of cross country skiing between elite and non-elite skiers

Harkins, Kenneth J.

January 1978

Thesis (M.S.)--Wisconsin. / Includes bibliographical references (leaves 36-37).

Cross-country skiing.

The role of upper body power in classical cross-country skiing performance

Alsobrook, Nathan Gabriel.

January 1900

Thesis (M.S.)--Montana State University--Bozeman, 2005. / Includes bibliographical references (leaves 44-47). Also available online (PDF file) by a subscription to the set or by purchasing the individual file.

Kinematic analysis of male olympic cross-country skiers using the open field skating technique

Heagy, Brian S.

15 September 1992

The kinematic characteristics of 17 elite male cross-country skiers competing in the 50 km race of the 1992 Winter Olympic Games were determined. Each skier used the open field skating technique, one of four skating techniques used in free technique cross-country ski races. Skiers were filmed by the use of three video cameras, placed at a filming site on a flat portion of the racing course. Digitized data from the video were used to determine selected kinematic parameters which included: cycle velocity; cycle length; cycle rate; center of mass (CM) velocity vector angle; CM lateral displacement; CM lateral velocity; CM horizontal velocity; ski angles; ski edging angles; several types of pole angles; and hip, knee, and trunk angles. Temporal characteristics including strong side and weak side ski and pole phase times were also calculated. Cycle velocity and cycle length were found to be significantly related as were cycle velocity and the maximum strong side knee angle (r > .48, p < .05). Cycle velocity and the CM velocity vector angle were found to have only a moderate non-significant relationship as did cycle velocity and the strong and weak side ski angles. For those skiers using the open field skating technique, CM lateral motion (as measured by the CM velocity vector angle and the ski angles) did not seem to be a distinguishing factor between faster and slower skiers, as hypothesized. However, cycle length and the maximum strong side knee angle did seem to distinguish faster from slower skiers. Skiers who covered more distance throughout a cyde tended to have faster cycle velocities. Contributing to this increased distance could have been the thrust of the strong side ski. Skiers with the most strong side knee extension tended to ski the fastest. Thus, it seems that greater leg extension results in greater propulsive forces and greater velocity. / Graduation date: 1993

Cross-country skiing -- Technique

Kinesiology

The effect of cold ambient conditions on body temperature regulation during exercise

Brooks, Robert Williams.

January 1979

Thesis (M.S.)--University of Wisconsin--Madison. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 62-65).

Cross-country skiing. Body temperature.

The role of upper body power in classical cross-country skiing performance

Alsobrook, Nathan Gabriel.

January 2005

Thesis (M.S.)--Montana State University--Bozeman, 2005. / Typescript. Chairperson, Graduate Committee: Daniel P. Heil. Includes bibliographical references (leaves 44-47).

Cross-country skiing. Muscle strength.

The role of upper body power in classical cross-country skiing performance

Alsobrook, Nathan Gabriel.

January 1900

Thesis (M.S.)--Montana State University--Bozeman, 2005. / Includes bibliographical references (leaves 44-47).

Cross-country skiing Muscle strength.

The acute physiological responses of elite cross country skiers to exercise at sea level and moderate altitude

Daley, Phillipa J., n/a

January 1999

Nine Australian male cross country ski team members (19.8±2.5 years, (X±SD),76.6±6.4kg, 184.8±4.9cm) completed both an incremental maximal exercise test and a 45 minute time trial performance test using a dryland ski striding technique with poles on a treadmill. Testing occurred at 610m in a chamber that was supplied with either an 02 enriched (p02 = 152mmHg) or an N2 enriched (p02 = 132mmHg) gas mixture to simulate sea level (SL) or 1800m (A) conditions respectively. A 48 hour rest interval was provided between tests and the testing conditions were randomised, counterbalanced and double blind. At maximum effort there were significant differences in V02 max (70.2±4.0 v 61.7±2.9 ml.kg-1.min-1), PaO2 (97.2±12.7 v 77.1±11.2 mmHg) and SaO2 (90.6±4.9 v 77.8±3.9%); but not in HR (194.1±8.1 v 191.7±7.4 bpm), VE (133.1±12.8 v 132.6±11.3 L.min-1 STPD) or [La] (14.2±2.3 v 13.7±3.3 mM) at SL v A. There was a decrease of 7.6% in overall time trial performance between the conditions (4005±378 v 3702±301 m, p = 0.08), although performance was significantly lower at A during the latter period of the test, >25 minutes. During the steady state stage of the time trial performance test, (=75% SL VO2 max) there were no significant differences between SL and A in any of VO2 (52.9±5.9 v 52.1±4.9 ml.kg-'.min-' at 15 minutes for SL and A respectively); HR (173.1±12.8 v 176.1+10.1 bpm); or [La] (3.0±1.0 v 4.8±2.2 mM). However, there was a significant reduction in PaO2 between SL (111.2±25.5 mmHg at 15 minutes) and A (72.6±24.3 mmHg at 15 minutes), resulting in a significant reduction in SaO2 (96.6±1.1 v 84.6±6.8% at 15 minutes) between the conditions. At the end of each lap of the variable workload stage of the time trial performance test there were significant reductions in VO2 (65.3±6.9, 64.2±6.3 and 66.4±5.9 v 54.6±5.6, 56.0±4.6 and 57.9±3.2 ml.kg-'.min-1 at 25, 35 and 45 minutes at SL v A); and HR (190.1 ±9.2, 192.4±8.6 and 195.9±7.6 v 181.8±12.4, 186±8.1 and 189.6±9.2 bpm) under A conditions. There were no significant differences in [La] at the end of each lap of the time trial performance test between SL and A, although [La] did increase over time during the test at both SL and A (6.2±2.0, 8.9±2.8 and 10.6±4.1 v 7.6±2.0, 8.4±2.2 and 9.9± 1.8 mM). At the end of each lap of the time trial performance test, there was a significant reduction in PaO2 (120.9±24.4, 108.8±25.9 and 103.0±23.0 v 86.0±31.4, 94.9±22.3 and 71.1±3.2 mmHg); and SaO2 (94.6±2.4, 94.3±2.4 and 92.3±3.4 v 85.9±5.8, 84.3±6.4 and 81.7±6.1%) and both PaO, and SaO2 decreased over time during the test at both SL and A. This study has indicated that as well as the extent of hypoxia induced by altitude, both exercise intensity and duration may impact on the magnitude of the response to sustained exercise at altitude, such as in cross country ski racing.

cross country skiing

altitude

exercise

elite athletes

The effects of training on upper body power in female cross-country skiers

Downing, Julie J.

04 June 2002

Graduation date: 2003

Cross-country skiing -- Training

Muscle strength