Abstract

Jumping ability is crucial in volleyball, where both jump height and execution speed significantly influence performance. Previous research has yielded mixed findings on the role of jump force-time characteristics in determining starting status among female volleyball players. This study examined the relationship between countermovement jump (CMJ) force-time metrics and starting status in elite female volleyball players to identify key performance indicators. Nine national team athletes (five starters, four non-starters) performed CMJs on a force platform. Force-time variables from distinct jump phases were analyzed. Reactive strength index modified (RSImod)—the ratio of jump height to time to take-off—was used to assess lower-body explosiveness and reactive strength. Starters demonstrated significantly higher RSImod scores and relative propulsive mean force, indicating superior ability to generate force rapidly. Moderate-to-large effect sizes favoring greater relative strength (force and power normalized to body mass) were observed but were not statistically significant. Reactive strength, as reflected by RSImod, is a key differentiator of starting status in elite female volleyball players. Relative strength also appears to contribute to performance but requires further exploration. Training programs should prioritize lower-body power and reactive strength through targeted plyometric and resistance exercises to enhance volleyball performance.

Keywords

Countermovement Jump, Elite Female Athletes, RSImod, Relative Strength, Jump Performance, Athlete Profiling,

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