Relationship of Two Vertical Jumping Tests to Sprint and Change of Direction Speed among Male and Female Collegiate Soccer Players

In collegiate level soccer acceleration, maximal velocity and agility are essential for successful performance. Power production is believed to provide a foundation for these speed qualities. The purpose of this study was to determine the relationship of change of direction speed, acceleration, and maximal velocity to both the counter movement jump (CMJ) and squat jump (SJ) in collegiate soccer players. Thirty-six NCAA Division II soccer players (20 males and 16 females) were tested for speed over 10 and 30 m, CODS (T-test, pro agility) and power (CMJ, SJ). Independent t-tests (p ≤ 0.05) were used to derive gender differences, and Pearson’s correlations (p ≤ 0.05) calculated relationships between the different power and speed tests. Female subjects displayed moderate-to-strong correlations between 30 m, pro agility and T-test with the CMJ (r = −0.502 to −0.751), and SJ (r = −0.502 to −0.681). Moderate correlations between 10 and 30 m with CMJ (r = −0.476 and −0.570) and SJ (r = −0.443 and −0.553, respectively) were observed for males. Moderate to strong relationships exist between speed and power attributes in both male and female collegiate soccer players, especially between CMJ and maximal velocity. Improving stretch shortening cycle (SSC) utilization may contribute to enhanced sport-specific speed.

[1]  John B Cronin,et al.  STRENGTH AND POWER PREDICTORS OF SPORTS SPEED , 2005, Journal of strength and conditioning research.

[2]  John S. Leard,et al.  VALIDITY OF TWO ALTERNATIVE SYSTEMS FOR MEASURING VERTICAL JUMP HEIGHT , 2007, Journal of strength and conditioning research.

[3]  Oliver Faude,et al.  Straight sprinting is the most frequent action in goal situations in professional football , 2012, Journal of sports sciences.

[4]  Ralph Rozenek,et al.  Reliability and Validity of the T‐Test as a Measure of Agility, Leg Power, and Leg Speed in College‐Aged Men and Women , 2000 .

[5]  R. Newton,et al.  Mechanical Determinants of Faster Change of Direction and Agility Performance in Female Basketball Athletes , 2015, Journal of strength and conditioning research.

[6]  R. Newton,et al.  Relationship Between Strength, Power, Speed, and Change of Direction Performance of Female Softball Players , 2010, Journal of strength and conditioning research.

[7]  M. Falvo,et al.  RELATIONSHIP OF JUMPING AND AGILITY PERFORMANCE IN FEMALE VOLLEYBALL ATHLETES , 2007, Journal of strength and conditioning research.

[8]  Shaher A. I. Shalfawi,et al.  The Relationship between Measures of Sprinting, Aerobic Fitness, and Lower Body Strength and Power in Well-Trained Female Soccer Players , 2014 .

[9]  Sophia Nimphius,et al.  Effect of strength on plant foot kinetics and kinematics during a change of direction task , 2013, European journal of sport science.

[10]  R. Lockie,et al.  Reliability and Validity of a New Test of Change-of-Direction Speed for Field-Based Sports: the Change-of-Direction and Acceleration Test (CODAT). , 2013, Journal of sports science & medicine.

[11]  T. Little,et al.  SPECIFICITY OF ACCELERATION,MAXIMUM SPEED, AND AGILITY IN PROFESSIONAL SOCCER PLAYERS , 2005, Journal of strength and conditioning research.

[12]  R. Newton,et al.  Contribution of Strength Characteristics to Change of Direction and Agility Performance in Female Basketball Athletes , 2014, Journal of strength and conditioning research.

[13]  Robert G Lockie,et al.  Factors That Differentiate Acceleration Ability in Field Sport Athletes , 2011, Journal of strength and conditioning research.

[14]  Brian T. McCormick THE RELATIONSHIP BETWEEN LATERAL MOVEMENT AND POWER IN FEMALE ADOLESCENT BASKETBALL PLAY , 2014 .

[15]  J. Hoffman,et al.  Anthropometric and Performance Differences Among High-School Football Players , 2010, Journal of strength and conditioning research.

[16]  M. Sayers Influence of Test Distance on Change of Direction Speed Test Results , 2015, Journal of strength and conditioning research.

[17]  Serkan Çelik,et al.  Comparison of a New Test For Agility and Skill in Soccer With Other Agility Tests , 2012, Journal of human kinetics.

[18]  T. Hewett,et al.  Gender differences in hip adduction motion and torque during a single‐leg agility maneuver , 2006, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[19]  Jacob Cohen,et al.  Applied multiple regression/correlation analysis for the behavioral sciences , 1979 .

[20]  Alex Martin,et al.  Investigation of anthropometric and work-rate profiles of elite South American international soccer players. , 2000, The Journal of sports medicine and physical fitness.

[21]  Samuel J Callaghan,et al.  Relationship Between Unilateral Jumping Ability and Asymmetry on Multidirectional Speed in Team-Sport Athletes , 2014, Journal of strength and conditioning research.

[22]  Jonathan Bloomfield,et al.  Physical Demands of Different Positions in FA Premier League Soccer. , 2007, Journal of sports science & medicine.

[23]  Michelle B Sabick,et al.  THE EFFECTS OF A COMMERCIALLY AVAILABLE WARM‐UP PROGRAM ON LANDING MECHANICS IN FEMALE YOUTH SOCCER PLAYERS , 2006, Journal of strength and conditioning research.

[24]  G. Sporiš,et al.  Reliability and Factorial Validity of Agility Tests for Soccer Players , 2010, Journal of strength and conditioning research.