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引文資料
題名:
臨界負荷指標於女子划船運動表現之預測
書刊名:
大專體育學刊
作者:
林信甫
/
周峻忠
/
王順正
/
王鈞逸
作者(外文):
Lin, Hsin-fu
/
Chou, Chun-chung
/
Wang, Soun-cheng
/
Wang, Chun-yi
出版日期:
2012
卷期:
14:3
頁次:
頁378-386
主題關鍵詞:
能量消耗
;
無氧動力
;
乳酸閾值
;
臨界速度
;
臨界動力
;
Energy expenditure
;
Anaerobic power
;
Lactate threshold
;
Critical velocity
;
Critical power
原始連結:
連回原系統網址
相關次數:
被引用次數:期刊(
2
) 博士論文(0) 專書(0) 專書論文(0)
排除自我引用:
2
共同引用:
12
點閱:100
臨界動力(critical power, CP)與臨界速度(critical velocity, CV)為間接評估無氧閾值與預測有氧耐力運動表現的生理指標。本研究結合划船作功與能量消耗指標(效率與經濟性),應用CP與CV於女子划船選手室內2,000公尺的運動表現之預測。國內15名優秀的女子西式划船選手(年齡20.7±1.4歲、身高164±3.5公分、體重56.6±4.4公斤),經平衡次序法在划船測功儀上,接受不同距離(400公尺、600公尺、800公尺、1,000公尺)與時間(90秒、240秒、600秒、1,200秒)的運動測驗,以線性模式分析分別獲得CP(139.5±20.4W)與CV(4.0±0.1m/s);接著分別進行漸進負荷測驗獲得最大攝氧量與乳酸閾值(VO2peak=2.5±0.5L/min; AT4=157.8±22.1W)、2,000公尺衝刺測驗(493.4±19.2秒)與30秒溫蓋特無氧動力測驗獲得無氧能力(6912.1±895.6W),平均無氧動力(323.2±26.7W),疲勞指數(3.8±2.6%)等指標。結果顯示,CV與CP與2,000公尺划船運動成績呈顯著相關,其中CV的相關程度大於VO2peak與AT4,但划船效率以及經濟性皆無相關。逐步回歸分析顯示,CV結合疲勞指數(FI)為2,000公尺划船成績的較佳預測模式(T2000=-131.44 CV-89.57FI+1022.27, SEE=4.08秒),決定係數達0.96。本研究結論:CV與CP皆與2,000公尺成績有顯著相關;CV結合疲勞指數的預測模式,對國內女子划船運動表現具有高預測力。
以文找文
The purpose of this study was to compare the different critical thresholds, critical velocity (CV) and critical power (CP), combining with anaerobic power and energy expenditure to predict the 2,000m indoor performance of female rowers in Taiwan. Fifteen elite female rowers (age 20.7±1.4 years, height 164±3.5cm, weight 56.6±4.4kg) were recruited for this study. By using counter-balanced design order, 4 time-trials on 90s, 240s, 600s and 1,200s were underwent to determine the CP (139.5±20.4W), whereas CV (4.0±0.1 m/s) was derived by 400m, 600m, 800m and 1,000m distance-trials on different days by using linear distance-time model. Maximal oxygen uptake (VO2peak=2.5±0.5L/min) and anaerobic threshold (AT4=157.8±22.1W) were obtained from an incremental exercise test. Further, anaerobic capacity (6,912.1±895.6W), mean power (323.2±26.7W) and fatigue index (3.8±2.6%) were obtained using a modified Wingate protocol on rowing ergometer followed by a 2,000 m time-trial. The results showed that CV, CP as well as VO2peak and AT4 were significantly correlated with 2,000 m indoor rowing performance. Stepwise regression analysis indicated CV and fatigue index (FI) were most important determinants in establishing predicting model of 2,000 m indoor rowing performance (T2000=-131.44 CV-89.57 FI+1022.27, SEE=4.08s). This study concludes that both CV and CP were significant correlated with 2,000m indoor rowing performance. CV and FI constructed the best predicting model for indoor rowing performance of female rowers in Taiwan.
以文找文
期刊論文
1.
Smith, R. M.、Spinks, W. L.(1995)。Discriminant analysis of biomechanical differences between novice, good and elite rowers。Journal of Professional Service Marketing,13(5),377-385。
2.
Billat, V.、Renoux, J. C.、Pinoteau, J.、Petit, B.、Koralsztein, J. P.(1994)。Times to exhaustion at 100% of velocity at VO2 max and modelling of the time-limit / velocity relationship in elite long-distance runners。European Journal of Applied Physiology and Occupational Physiology,69(3),271-273。
3.
Riechman, S. E.、Robertson, R. J.、Zoeller, R. F.、Balasekaran, G.、Goss, F, L.(2002)。Prediction of 2000 m indoor rowing performance using a 30 s sprint and maximal oxygen uptake。Journal of Sports Sciences,20(9),681-687。
4.
Peltonen, J.、Rusko, H.(1993)。Interrelations between power, force production and energy metabolism in maximal leg work using a modified rowing ergometer。Journal of Sports Science,11(3),233-240。
5.
Ingham, S. A.、Whyte, G. P.、Jones, K.、Nevill, A. M.(2002)。Determinants of 2,000 m rowing ergometer performance in elite rowers。European Journal of Applied Physiology,88(3),243-246。
6.
Lamb, D. H.(1989)。A kinematic comparison of ergometer and on-water rowing。The American Journal of Sports Medicine,17(3),367-373。
7.
Kranenburg, K. J.、Smith, D. J.(1996)。Comparison of critical speed determined from track running and treadmill tests in elite runners。Medicine and Science in Sports and Exercise,28(5),614-618。
8.
王順正、林正常、謝伸裕(19921200)。臨界負荷、肌電圖疲勞閾值與無氧閾值的關係研究。體育學報,14,207-226。
延伸查詢
9.
Monod, H.、Scherrer, J.(1965)。The work capacity of a synergic muscular group。Ergonomics,8(3),329-338。
10.
Walsh, M. L.(2000)。Whole body fatigue and critical power: a physiological interpretation。Sports Medicine,29(3),153-166。
11.
Moritani, T.、Nagata, A.、deVries, H. A.、Muro, M.(1981)。Critical power as a measure of physical work capacity and anaerobic threshold。Ergonomics,24(5),339-350。
12.
Cosgrove, M. J.、Wilson, J.、Watt, D.、Grant, S. F.(1999)。The relationship between selected physiological variables of rowers and rowing performance as determined by a 2000 m ergometer test。Journal of Sports Sciences,17(11),845-852。
13.
Kennedy, M. D.、Bell, G. J.(2000)。A comparison of critical velocity estimates to actual velocities in predicting simulated rowing performance。Canadian Journal of Applied Physiology,25(4),223-235。
14.
鄭景峰、林惠美、李佳倫、林正常(2008)。以生理變項預估2,000公尺室內西式划船運動表現。大專體育學刊,10(3),137-149。
延伸查詢
15.
Borch, K. W.、Ingjer, F.、Larsen, S.、Tomten, S. E.(1993)。Rate of accumulation of blood lactate during graded exercise as a predictor of anaerobic threshold。Journal of Sports Science,11(1),49-55。
16.
Bourdin, M.、Messonnier, L.、Hager, J. P.、Sc Lacour, J. R.(2004)。Peak power output predicts rowing ergometer performance in elite male rowers。International Journal of Sports Medicine,25(5),368-373。
17.
Bourgois, J.、Vrijens, J.(1998)。Metabolic and cardiorespiratory responses in young oarsmen during prolonged exercise tests on a rowing ergometer at power outputs corresponding to two concepts of anaerobic threshold。European Journal of Applied Physiology and Occupational Physiology,77(1/2),164-169。
18.
Clingeleffer, A.、Mc Naughton, L.、Davoren, B.(1994)。Critical power may be determined from two tests in elite kayakers。European Journal of Applied Physiology and Occupational Physiology,68,36-40。
19.
Clingeleffer, A.、McNaughton, L. R.、Davoren, B.(1994)。The use of critical power as a determinant for establishing the onset of blood lactate accumulation。European Journal of Applied Physiology and Occupational Physiology,68(2),182-187。
20.
Hagerman, F. C.(1984)。Applied physiology of rowing。Sports Medicine,1(4),303-326。
21.
Hill, D. W.、Alain, C.、Kennedy, M. D.(2003)。Modeling the relationship between velocity and time to fatigue in rowing。Medicine and Science in Sports and Exercise,35(12),2098-2105。
22.
Joyner, M. J.、Coyle, E. F.(2008)。Endurance exercise performance: The physiology of champions。The Journal of Physiology,586(1),35-44。
23.
Kendall, K. L.、Smith, A. E.、Fukuda, D. H.、Dwyer, T. R.、Stout, J. R.(2011)。Critical velocity: A predictor of 2000-m rowing ergometer performance in NCAA D1 female collegiate rowers。Journal of Sports Science,29(9),945-950。
24.
Kramer, J. F.、Leger, A.、Paterson, D. H.、Morrow, A.(1994)。Rowing performance and selected- descriptive, field, and laboratory variables。Canadian Journal of Applied Physiology,19(2),174-184。
25.
Mahler, D. A.、Parker, H. W.、Andresen, D. C.(1985)。Physiologic changes in rowing performance associated with training in collegiate women rowers。International Journal of Sports Medicine,6(4),229-233。
26.
Pripstein, L. P.、Rhodes, E, C.、McKenzie, D. C.、Coutts, K. D.(1999)。Aerobic and anaerobic energy during a 2-km race simulation in female rowers。European Journal of Applied Physiology and Occupational Physiology,79(6),491-494。
27.
Russell, A. P.、Le Rossignol, P. F.、Sparrow, W. A.(1998)。Prediction of elite schoolboy 2000-m rowing ergometer performance from metabolic, anthropometric and strength variables。Journal of Sports Science,16(8),749-754。
28.
Secher, N. H.(1993)。Physiological and biomechanical aspects of rowing. Implications for training。Sports Medicine,15(1),24-42。
29.
Steinacker, J. M.(1993)。Physiological aspects of training in rowing。International Journal of Sports Medicine,14(1),S3-S10。
其他
1.
DeVries, H. A.,Moritani, T.(1980)。A simple, direct method for estimation of aerobic power and anaerobic threshold。
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