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引文資料
題名:
Predicting Performance of Kayak Sprint through Critical Velocity and Modified Wingate Tests
書刊名:
大專體育學刊
作者:
李婷婷
/
李綿綿
/
簡鸝慧
/
李再立
作者(外文):
Lee, Ting-ting
/
Lee, Mien-mien
/
Chien, Li-hui
/
Li, Tzai-li
出版日期:
2020
卷期:
22:2
頁次:
頁143-152
主題關鍵詞:
開放水域
;
血乳酸濃度
;
輕艇測功儀
;
Open-water
;
Lactate concentration
;
Kayak ergometer
原始連結:
連回原系統網址
相關次數:
被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0)
排除自我引用:0
共同引用:
4
點閱:3
本研究目的是透過使用輕艇測功儀進行臨界速度與改良式溫蓋特無氧動力測試,以建立一個能夠預測輕艇運動員在開放水域輕艇競速運動表現的預測模式。由15名自願參加的卡雅克式輕艇競速男性運動員為受試者,所有受試者皆要完成三項測驗,包括臨界速度測試、改良式溫蓋特無氧動力測試和開放水域輕艇競速衝刺。每次測試間至少有24小時的休息時間,測試過程均測量心跳率,同時於運動後立即收集毛細血管血液樣本測量血乳酸濃度。研究結果發現,於開放水域中輕艇競速1,000公尺、200公尺衝刺完成時間與輕艇測功儀1,000公尺和200公尺之運動表現、臨界速度與溫蓋特無氧動力測試中的無氧動力峰值(peak power, P_(peak))、無氧能力(anaerobic capacity, AnC)、平均最高無氧動力(maximum mean power, P_(max))、平均最低無氧動力(minimum mean power, P_(min))和平均無氧動力(mean power, P_(mean))等數值皆有顯著相關。本研究結論為此項研究預測輕艇競速於開放性水域1,000公尺運動表現時間的最佳回歸公式為Y = 642.06 - 113.9 × CV;200公尺運動表現時間最佳預測回歸公式為Y = 69.957 - 0.093 × P_(min) + 0.058 × P_(mean) - 0.001 × AnC + 0.012 ×P_(max)。研究推論臨界速度和改良式溫蓋特無氧動力測試是預測1,000公尺和200公尺開放式水域輕艇競速運動表現的有利指標。
以文找文
This study developed an open-water kayak sprint performance model using a critical velocity (CV) and modified Wingate test on a kayak ergometer on kayakers. Fifteen kayakers volunteered as subjects, and completed three experimental trials, including a CV test, a modified Wingate test, and an open-water kayak sprint test, with at least a 24-h rest interval between the tests. Heart rates (HRs) were measured throughout the trials. Capillary blood samples were collected immediately after exercise and measured lactate concentrations (LA_(post)). The results revealed that the 1,000-m and 200-m kayak sprint time in open-water was significantly correlated with the 1,000-m and 200-m kayak ergometry tests; CV; and peak power (P_(peak)), anaerobic capacity (AnC), maximum mean power (P_(max)), minimum mean power (P_(min)), and mean power (P_(mean)) in the modified Wingate test. The results of this study suggests that the optimal regression formula for predicting the 1,000-m kayak sprint time was Y = 642.06 - 113.9 × CV, and the optimal 200-m kayak sprint formula was Y = 69.957 - 0.093 × P_(min) + 0.058 × P_(mean) - 0.001 × AnC + 0.012 × P_(max). This study revealed that the CV and modified Wingate tests are the favorable indicators to predict the athlete performance in 1,000-m and 200-m kayak sprints, respectively.
以文找文
期刊論文
1.
張育瑞(20051200)。游泳選手不同游泳姿勢臨界速度游的血乳酸反應。大專體育學刊,7(4),141-150。
延伸查詢
2.
Clarke, A. C.、Presland, J.、Rattray, B.、Pyne, D. B.(2014)。Critical velocity as a measure of aerobic fitness in women's rugby sevens。Journal of Science and Medicine in Sport,17(1),144-148。
3.
Hill, D. W.、Ferguson, C. S.(1999)。A physiological description of critical velocity。European Journal of Applied Physiology and Occupational Physiology,79(3),290-293。
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10.
Riechman, S. E.、Zoeller, R. F.、Balasekaran, G.、Goss, F. L.、Robertson, R. J.(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。
11.
Bishop, D.(2000)。Physiological predictors of flatwater kayak performance in women。European Journal of Applied Physiology,82(1/2),91-97。
12.
Bull, A. J.、Housh, T. J.、Johnson, G. O.、Rana, S. R.(2008)。Physiological responses at five estimates of critical velocity。European Journal of Applied Physiology,102(6),711-720。
13.
Forbes, S. C.、Fuller, D. L.、Krentz, J. R.、Little, J. P.、Chilibeck, P. D.(2009)。Anthropometric and physiological predictors of flat-water 1000 m kayak performance in young adolescents and the effectiveness of a high volume training camp。International Journal of Exercise Science,2(2),106-114。
14.
Karsten, B.、Larumbe-Zabala, E.、Kandemir, G.、Hazir, T.、Klose, A.、Naclerio, F.(2016)。The effects of a 6-week strength training on critical velocity, anaerobic running distance, 30-m sprint and Yo-Yo intermittent running test performances in male soccer players。Plos One,11(3)。
15.
Kendall, K. L.、Fukuda, D. H.、Smith, A. E.、Cramer, J. T.、Stout, J. R.(2012)。Predicting maximal aerobic capacity (V4 O2max) from the critical velocity test in female collegiate rowers。Journal of Strength and Conditioning Research,26(3),733-738。
16.
Kuo, Y.-H.、Cheng, C.-F.、Hsu, W.-C.、Wong, D. P.(2017)。Validity and reliability of the 3-min allout running test to measure critical velocity in hot environments。Research in Sports Medicine,25(4),470-479。
17.
Koutedakis, Y.、Sharp, N. C.(1986)。A modified Wingate test for measuring anaerobic work of the upper body in junior rowers。British Journal of Sports Medicine,20(4),153-156。
18.
郭育瑄、張博勛、紀凱程、鄭景峰(20190300)。高強度循環訓練對健康男性有氧適能和肌肉表現之影響。大專體育學刊,21(1),72-83。
延伸查詢
19.
林書丞、陳志誠、林大猷、成和正(20170300)。不同鹼性飲品增補對短時間高強度運動後血液pH值之影響。大專體育學刊,19(1),99-109。
延伸查詢
20.
Oshita, K.、Ross, M.、Koizumi, K.、Tsuno, T.、Yano, S.(2013)。Gender difference of aerobic contribution to surface performances in finswimming: Analysis using the critical velocity method。Asian Journal of Sports Medicine,4(4),256-262。
21.
Toubekis, A. G.、Tsami, A. P.、Smilios, I. G.、Douda, H. T.、Tokmakidis, S. P.(2011)。Training-induced changes on blood lactate profile and critical velocity in young swimmers。Journal of Strength and Conditioning Research,25(6),1563-1570。
22.
Rizzato, A.、Marcolin, G.、Rubini, A.、Olivato, N.、Fava, S.、Paoli, A.、Bosco, G.(2018)。Critical velocity in swimmers of different ages。The Journal of Sports Medicine and Physical Fitness,58(10),1398-1402。
23.
Yang, M.-T.、Lee, M.-M.、Hsu, S.-C.、Chan, K.-H.(2017)。Effects of high-intensity interval training on canoeing performance。European Journal of Sport Science,17(7),814-820。
24.
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26.
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27.
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。
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