Search Results

You are looking at 1 - 4 of 4 items for :

  • "Olympic winter sport" x
Clear All
Restricted access

Anne Marte Pensgaard, Glyn C. Roberts and Holger Ursin

This study aimed to compare individual and situational motivational factors and the use of coping strategies among elite athletes with and without physical disabilities. Participants were Norwegian athletes from the 1994 Winter Olympics (n = 69) and Paralympics (n = 30) at Lillehammer. Quantitative data came from questions concerning expectations and satisfactions, and three instruments (Perception of Success Questionnaire, Perceived Motivational Climate Questionnaire, and the COPE Inventory). Qualitative data came from interviews. MANOVA analyses revealed that Paralympic and Olympic athletes had similar motivational profiles, but the Paralympic athletes perceived a more mastery-oriented climate, F(1, 98) = 12.6, p < .001. Both groups used similar types of coping strategies, except that Olympic athletes employed more redefinition and growth strategies, F(1, 97) = 6.72, p < .01. Paralympic athletes were also significantly more satisfied with effort and results. Paralympic and Olympic athletes were significantly different on only 4 of 11 variables.

Restricted access

Espen Tønnessen, Thomas A. Haugen, Erlend Hem, Svein Leirstein and Stephen Seiler


To generate updated Olympic-medal benchmarks for V̇O2max in winter endurance disciplines, examine possible differences in V̇O2max between medalists and nonmedalists, and calculate gender difference in V̇O2max based on a homogeneous subset of world-leading endurance athletes.


The authors identified 111 athletes who participated in winter Olympic Games/World Championships in the period 1990 to 2013. All identified athletes tested V̇O2max at the Norwegian Olympic Training Center within ±1 y of their championship performance. Testing procedures were consistent throughout the entire period.


For medal-winning athletes, the following relative V̇O2max values (mean:95% confidence intervals) for men/women were observed (mL · min–1 · kg–1): 84:87-81/72:77-68 for cross-country distance skiing, 78:81-75/68:73-64 for cross-country sprint skiing, 81:84-78/67:73-61 for biathlon, and 77:80-75 for Nordic combined (men only). Similar benchmarks for absolute V̇O2max (L/min) in male/female athletes are 6.4:6.1-6.7/4.3:4.1-4.5 for cross-country distance skiers, 6.3:5.8-6.8/4.0:3.7-4.3 for cross-country sprint skiers, 6.2:5.7-6.4/4.0:3.7-4.3 for biathletes, and 5.3:5.0-5.5 for Nordic combined (men only). The difference in relative V̇O2max between medalists and nonmedalists was large for Nordic combined, moderate for cross-country distance and biathlon, and small/trivial for the other disciplines. Corresponding differences in absolute V̇O2max were small/trivial for all disciplines. Male cross-country medalists achieve 15% higher relative V̇O2max than corresponding women.


This study provides updated benchmark V̇O2max values for Olympic-medal-level performance in winter endurance disciplines and can serve as a guideline of the requirements for future elite athletes.

Restricted access

Harri Luchsinger, Jan Kocbach, Gertjan Ettema and Øyvind Sandbakk

Biathlon is an Olympic winter sport, where 3 or 5 (0.8–4 km) laps of cross-country skiing using the skating technique is interspersed with 5-shot series of rifle shooting, alternating between the prone or standing position. One of the traditional racing formats is the individual distance

Restricted access

Careers: An International Study Garry D. Wheeler * Robert D. Steadward * David Legg * Yesahayu Hutzler * Elizabeth Campbell * Anne Johnson * 7 1999 16 3 219 237 10.1123/apaq.16.3.219 Motivational Factors and Coping Strategies of Norwegian Paralympic and Olympic Winter Sport Athletes Anne Marte