•  
  •  
 

Abstract

Strength and conditioning professionals routinely collect performance data from velocity- and power-based assessments. However, turning that data into longitudinal insights remains a challenge. This study presents a practical example of how training data can be leveraged to support data-informed programming decisions. PURPOSE: To examine the relationship between Olympic lift performance and unilateral depth jump performance in collegiate jumpers, and whether this relationship differs by gender. METHODS: Thirteen NCAA Division I track and field athletes (n = 7 women; n = 6 men) from long, triple, and high jump events participated. Athletes completed repeated testing over a 14-month period, including Olympic lifts (Power Clean, Hang Clean, and Barbell Snatch) and unilateral depth jumps (12 in. for women, 18 in. for men) using a force plate system (Hawkin Dynamics, USA). Barbell velocity (m/s) was collected from Power Clean, Hang Clean, and Snatch. Five metrics were collected from each depth jump: Jump Height, Reactive Strength Index (RSI), Braking Phase, Contact Time, and Peak Propulsive Power. Linear regressions were performed for each jump metric using each lift as a predictor in MATLAB. Subgroup analyses were conducted by gender. RESULTS: In the full sample, Hang Clean significantly predicted RSI, R² = .20, F(1, 34) = 8.08, p = .007; and Power Clean predicted Peak Propulsive Power, R² = .19, F(1, 35) = 8.14, p = .007. Among women, stronger relationships emerged, including RSI predicted by Power Clean, R² = .33, F(1, 16) = 7.96, p = .012. Results were weaker and non-significant in men. Snatch models were limited by sample size. CONCLUSION: Olympic lift velocity, especially Power and Hang Clean, is associated with reactive jump performance in women jumpers. These findings support using longitudinal testing to monitor adaptation, guide athlete-specific training decisions, and highlight the potential benefit of gender-specific profiling when targeting explosive qualities in collegiate jumpers. Coaches may consider integrating regular lift velocity tracking as a proxy for jump performance potential, particularly in women athletes. This approach demonstrates how routine weight-room data can be leveraged to evaluate explosive characteristics without requiring additional field testing.

Download

Share

COinS
 
 

To view the content in your browser, please download Adobe Reader or, alternately,
you may Download the file to your hard drive.

NOTE: The latest versions of Adobe Reader do not support viewing PDF files within Firefox on Mac OS and if you are using a modern (Intel) Mac, there is no official plugin for viewing PDF files within the browser window.