美国大学体育协会第一和第二分区女子足球运动员的直线速度、下肢力量与变向速度之间的关系
Relationships between Linear Speed and Lower-Body Power with Change-of-Direction Speed in National Collegiate Athletic Association Divisions I and II Women Soccer Athletes.
作者信息
Lockie Robert G, Dawes J Jay, Jones Margaret T
机构信息
Department of Kinesiology, California State University, Fullerton, CA 92831, USA.
College of Nursing and Health Sciences, University of Colorado-Colorado Springs, Colorado Springs, CO 80918, USA.
出版信息
Sports (Basel). 2018 Apr 4;6(2):30. doi: 10.3390/sports6020030.
This study investigated relationships that linear speed and lower-body power have on change-of-direction (COD) speed in collegiate women soccer players. Data from two Division I ( = 39) and one Division II ( = 18) schools were analyzed. Subjects were assessed in: power (vertical jump (VJ); jump height, peak anaerobic power measured in watts (PAPw), power-to-body mass ratio (P:BM); linear speed (10-m sprint); and COD speed (modified T-test (MTT), 505, COD deficit). Independent samples T-tests derived significant between-group differences, with effect sizes () calculated. Pearson’s correlations determined relationships between COD speed, linear speed, and power, with regression equations calculated. Division I players demonstrated superior 505, COD deficit, VJ height, PAPw, and P:BM ( = 1.09⁻2.21). Division II players were faster in the MTT ( = 1.51). For all players, the 505 correlated with the 10-m sprint ( = 0.39⁻0.53) and VJ height ( = −0.65⁻0.66), while the COD deficit related to the 10-m sprint ( = −0.77⁻0.82). The regression data supported these results. Division I players were superior in the 505 and COD deficit, and expressed their power in the 180° 505 task. Division II players should enhance lower-body power and the ability to perform 180° direction changes.
本研究调查了直线速度和下肢力量与大学女子足球运动员变向(COD)速度之间的关系。分析了来自两所美国大学体育协会第一级别(n = 39)和一所第二级别(n = 18)学校的数据。对受试者进行了以下评估:力量(垂直纵跳(VJ);跳跃高度、以瓦特为单位测量的峰值无氧功率(PAPw)、力量与体重比(P:BM));直线速度(10米冲刺);以及COD速度(改良T检验(MTT)、505测试、COD差值)。采用独立样本T检验得出显著的组间差异,并计算了效应量(ES)。通过皮尔逊相关性确定COD速度、直线速度和力量之间的关系,并计算了回归方程。第一级别运动员在505测试、COD差值、VJ高度、PAPw和P:BM方面表现更优(ES = 1.09⁻2.21)。第二级别运动员在MTT测试中速度更快(ES = 1.51)。对于所有运动员,505测试与10米冲刺(r = 0.39⁻0.53)和VJ高度(r = −0.65⁻0.66)相关,而COD差值与10米冲刺(r = −0.77⁻0.82)相关。回归数据支持了这些结果。第一级别运动员在505测试和COD差值方面表现更优,并在180°505任务中展现出他们的力量。第二级别运动员应增强下肢力量以及进行180°方向改变的能力。
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