题名

中華台北大學女子足球隊選手的有氧耐力測驗之評估

并列篇名

Evaluation of the Aerobic Endurance Test of Chinese Taipei Women's University Football Players

DOI

10.6127/JEPF.202012_(31).0004

作者

周台英(Tai-Ying Chou);謝忠展(Chung-Chan Hsieh);黃玉娟(Yuh-Chuan Huang)

关键词

最大攝氧量測驗 ; 12分鐘跑測驗 ; Yo-Yo間歇恢復第一級測驗 ; 羅浮堡間歇性折返跑測驗 ; 體能評估 ; maximal oxygen uptake test ; 12-min running test ; Yo-Yo intermittent shuttle running test ; Loughborough Intermittent Shuttle Test ; physical fitness assessment

期刊名称

運動生理暨體能學報

卷期/出版年月

31輯(2020 / 12 / 01)

页次

33 - 44

内容语文

繁體中文
中文摘要

目的:旨釐清不同有氧耐力與羅浮堡間歇性折返跑測驗(Loughborough Intermittent Shuttle Test, LIST)間的關係,期能建立其有效評估女子足球員有氧耐力之方式。方法:以平衡次序方式讓七名參加2018年亞洲大學足球賽的中華台北大學女子足球代表隊選手(21 ± 1歲),各進行一次:最大攝氧量(maximal oxygen uptake, VO_2max)、12分鐘跑(12-min running)、800公尺跑(800-m running)、6 × 10公尺折返跑(6 × 10-m shuttle running)、Yo-Yo間歇恢復第一級(Yo-Yo intermittent recovery test level 1, Yo-Yo IR1)及LIST測驗(各項測驗間間隔休息為3天),所測得結果均以皮爾遜積差相關進行相關分析。結果:女子足球選手在LIST與12分鐘跑(r =.983)/Yo-Yo IR1(r = .978)/VO_2max(r = .942)、Yo-Yo IR1與12分鐘跑(r = .944)/VO_2max(r= .875)、VO_2max與12分鐘跑(r = .933)/Yo-Yo IR1(r = .875)/LIST(r = .942)、12分鐘跑與VO_2max(r = .933)/Yo-Yo IR1(r = .944)/LIST(r = -.983)之間有相關(p < .001)。結論:這些研究結果顯示,VO_2max、LIST、12分鐘跑和Yo-Yo IR1之間具有高相關。從足球運動特殊性來看,Yo-Yo IR1、LIST與12分鐘跑較適合作為評估女子足球員的專項有氧間歇耐力與一般性有氧耐力之用。
英文摘要

Purpose: To determine the relationship between different evaluation methods of aerobic endurance and the Loughborough Intermittent Shuttle Test (LIST) performance, in order to establish an effective method for assessing the aerobic endurance of women football players. Methods: Seven players from the Chinese Taipei women's national football team (age: 21 ± 1 years), who had participated in the 2018 Asian University Football Tournament, were recruited and performed maximal oxygen uptake (VO_2max), 12-min running, 800-m running, 6 × 10-m shuttle running, Yo-Yo intermittent shuttle running (Yo-Yo IR1) and LIST. Participants were given 3 days of rest between tests using the counterbalanced methods. All results among parameters were analyzed by Pearson product-moment correlation. Results: The results showed that: There was a high positive correlation (p < .001) between LIST and 12-min running (r = .983), LIST and Yo-Yo IR1 (r = .978), LIST and VO_2max (r = .942), Yo-Yo IR1 and 12-min running (r = .944), Yo-Yo IR1 and VO_2max (r = .875), VO_2max and 12-min running (r = .933), VO_2max and Yo-Yo IR1 (r = .875), VO_2max and LIST (r = .942), 12-min running and VO_2max (r = .933), 12-min running and Yo-Yo IR1 (r = .944), and 12-min running and LIST (r = -.983), respectively. Conclusion: These results show a significant positive correlation among VO_2max, LIST, 12-min running and Yo-Yo IR1 tests. Considering the particular characteristics of football, the Yo-Yo IR1 and LIST tests are likely to be more suitable for evaluating the specific aerobic intermittent endurance of women football players, while 12-min running seems to be more suitable for evaluating these players' general aerobic endurance.
主题分类 醫藥衛生 > 預防保健與衛生學
醫藥衛生 > 社會醫學
社會科學 > 體育學
参考文献
  1. Andersson, H. M.,Raastad, T.,Nilsson, J.,Paulsen, G.,Garthe, I.,Kadi, F.(2008).Neuromuscular fatigue and recovery in elite female soccer: Effects of active recovery.Medicine & Science in Sports & Exercise,40(2),372-380.
  2. Bangsbo, J.,Iaia, F. M.,Krustrup, P.(2008).The Yo-Yo intermittent recovery test: A useful tool for evaluation of physical performance in intermittent sports.Sports Medicine,38(1),37-51.
  3. Castagna, C.,Impellizzeri, F.,Cecchini, E.,Rampinini, E.,Alvarez, J. C. B.(2009).Effects of intermittent-endurance fitness on match performance in young male soccer players.Journal of Strength and Conditioning Research,23(7),1954-1959.
  4. Chiu, C.-J.,Chi, C.-W.,Hsieh, H.-R.,Huang, Y.-C.,Wu, H.-J.,Chen, Y.-J.(2018).Modulation of macrophage polarization by level-1 Yo-Yo intermittent recovery test in young football players.Medicine,97(42),e12739.
  5. Cooper, K. H.(1968).A means of assessing maximal oxygen intake: Correlation between field and treadmill testing.The Journal of the American Medical Association,203(3),201-204.
  6. Costa, C. S. C.,Barbosa, M. A.,Spineti, J.,Pedrosa, C. M.,Pierucci, A. P. T. R.(2011).Oxidative stress biomarkers response to exercise in Brazilian junior soccer players.Food and Nutrition Sciences,2(5),5753.
  7. Daab, W.,Bouzid, M. A.,Lajri, M.,Bouchiba, M.,Rebai, H.(2020).Brief cycles of lower-limb occlusion accelerate recovery kinetics in soccer players.The Physician and Sportsmedicine,27,1-8.
  8. Das, B.(2013).Estimation of maximum oxygen uptake by evaluating cooper 12-min run test in female students of West Bengal, India.Journal of Human Sport & Exercise,8(4),1008-1014.
  9. Datson, N.,Drust, B.,Weston, M.,Jarman, I. H.,Lisboa, P. J.,Gregson, W.(2017).Match physical performance of elite female soccer players during international competition.The Journal of Strength and Conditioning Research,31(9),2379-2387.
  10. Datson, N.,Hulton, A.,Andersson, H.,Lewis, T.,Weston, M.,Drust, B.(2014).Applied physiology of female soccer: An update.Sports Medicine,44(9),1225-1240.
  11. Dodd, K. D.,Newans, T. J.(2018).Talent identification for soccer: Physiological aspects.Journal of Science and Medicine in Sport,21(10),1073-1078.
  12. Gonçalves, B.,Coutinho, D.,Travassos, B.,Folgado, H.,Caixinha, P.,Sampaio, J.(2018).Speed synchronization, physical workload and match-to-match performance variation of elite football players.Plos One,13(7),e0200019.
  13. Hammouda, O.,Chtourou, H.,Chaouachi, A.,Chahed, H.,Zarrouk, N.,Miled, A.(2013).Biochemical responses to level-1 Yo-Yo intermittent recovery test in young Tunisian football players.Asian Journal of Sports Medicine,4(1),23-28.
  14. Hughes, J. D.,Denton, K.,Lloyd, R. S.,Oliver, J. L.,De Ste Croix, M. B. A.(2018).The impact of soccer match play on the muscle damage response in youth female athletes.International Journal of Sports Medicine,39(5),343-348.
  15. Ingebrigtsen, J.,Brochmann, M.,Castagna, C.,Bradley, P. S.,Ade, J.,Krustrup, P.(2014).Relationships between field performance tests in high-level soccer players.The Journal of Strength and Conditioning Research,28(4),942-949.
  16. 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),e0151448.
  17. Krustrup, P.,Mohr, M.,Amstrup, T.,Rysgaard, T.,Johansen, J.,Steensberg, A.(2003).The Yo-Yo intermittent recovery test: Physiological response, reliability, and validity.Medicine & Science in Sports & Exercise,35(4),697-705.
  18. Leeder, J. D. C.,Godfrey, M.,Gibbon, D.,Gaze, D.,Davison, G. W.,van Someren, K. A.(2019).Cold water immersion improves recovery of sprint speed following a simulated tournament.European Journal of Sport Science,19(9),1166-1174.
  19. National Sports Talent Search Scheme(2015).National Sports Talent Search Scheme. (2015). Ministry of Youth Affairs & Sports Department of sports guidelines on National Sports Talent Search Scheme. Retrieved January 8, 2021, from https://yas.nic.in/sites/default/files/NSTSS%20Guidelines%2020.02.2015_1.pdf.https://yas.nic.in/sites/default/files/NSTSS%20Guidelines%2020.02.2015_1.pdf
  20. Nicholas, C. W.,Nuttall, F. E.,Williams, C.(2000).The Loughborough intermittent shuttle test: A field test that simulates the activity pattern of soccer.Journal of Sports Sciences,18(2),97-104.
  21. Rowsell, G. J.,Coutts, A. J.,Reaburn, P.,HillHaas, S.(2009).Effects of cold-water immersion on physical performance between successive matches in high-performance junior male soccer players.Journal of Sports Sciences,27(6),565-573.
  22. Rowsell, G. J.,Coutts, A. J.,Reaburn, P.,Hill-Haas, S.(2011).Effect of post-match cold-water immersion on subsequent match running performance in junior soccer players during tournament play.Journal of Sports Sciences,29(1),1-6.
  23. Schmitz, B.,Pfeifer, C.,Kreitz, K.,Borowski, M.,Faldum, A.,Brand, S.-M.(2018).The Yo-Yo intermittent tests: A systematic review and structured compendium of test results.Frontiers in Physiology,9,870.
  24. Slimani, M.,Znazen, H.,Miarka, B.,Bragazzi, N. L.(2019).Maximum oxygen uptake of male soccer players according to their competitive level, playing position and age group: Implication from a network metaanalysis.Journal of Human Kinetics,66(1),233-245.
  25. Stølen, T.,Chamari, K.,Castagna, C.,Wisløff, U.(2005).Physiology of soccer: An update.Sports Medicine,35(6),501-536.
  26. Strauss, A.,Sparks, M.,Pienaar, C.(2019).The use of GPS analysis to quantify the internal and external match demands of semi-elite level female soccer players during a tournament.Journal of Sports Science & Medicine,18(1),73-81.
  27. Sun, F.-H.,Cooper, S. B.,Tse, F. C.-F.(2020).Effects of different solutions consumed during exercise on cognitive function of male college soccer players.Journal of Exercise Science & Fitness,18(3),155-161.
  28. Thomas, K.,Dent, J.,Howatson, G.,Goodall, S.(2017).Etiology and recovery of neuromuscular fatigue after simulated soccer match play.Medicine & Science in Sports & Exercise,49(5),955-964.
  29. Tuo, Q.,Wang, L.,Huang, G.,Zhang, H.,Liu, H.(2019).Running performance of soccer players during matches in the 2018 FIFA World Cup: Differences among confederations.Frontiers in Psychology,10,1044.
  30. 周俊飛(2010)。12分鐘跑與YOYO訓練對男子足球運動員專項體能影響的比較研究。武漢體育學院學報,44(9),97-100。
  31. 教育部體育署(2020)。體適能常模/心肺耐力。資料引自https://www.fitness.org.tw/model07.php
  32. 陳鴻(1983)。女子足球員人體測量特質、基本運動能力與足球技術之間的關係研究。體育學報,5,61-69。
  33. 黃玉娟,周台英,王秀銀(2016)。液體攝取方案對女子足球員訓練後的血糖與運動強度自覺之影響。人文社會科學研究:教育類,10(2),21-31。
  34. 鄭景峰(譯),李佳倫(譯),何仁育(譯),周峻忠(譯),劉錦謀(譯),林明儒(譯),Kraemer, W. J.,Fleck, S. J.,Deschenes, M. R(2013).應用運動生理學:整合理論與實務.新北市:藝軒.
print cancel