Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes

Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes

Purpose: Long-term training specificity is thought to alter performance in tests evaluating strength and power production capability. The aim of the present study was to provide additional information to the limited existing knowledge concerning the possible differences of the force/time profile of...

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Main Authors: Vassilios Panoutsakopoulos, Nikolaos Papachatzis, Iraklis A. Kollias
Format: Article
Language:English
Published: Elsevier 2014-09-01
Series:Journal of Sport and Health Science
Subjects:
Gender differences
Performance assessment
Power output
Principal components analysis
Rate of force development
Online Access:http://www.sciencedirect.com/science/article/pii/S2095254614000027
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spelling doaj-fb20bbfeae514f11933b4d0fcb82f1482020-11-24T22:32:41ZengElsevierJournal of Sport and Health Science2095-25462014-09-013323924710.1016/j.jshs.2013.08.003Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletesVassilios PanoutsakopoulosNikolaos PapachatzisIraklis A. KolliasPurpose: Long-term training specificity is thought to alter performance in tests evaluating strength and power production capability. The aim of the present study was to provide additional information to the limited existing knowledge concerning the possible differences of the force/time profile of squat jumping among different groups of young female athletes. Methods: One hundred and seventy-three adult women (20.1 ± 2.8 years, 1.71 ± 0.09 m, 65.6 ± 10.3 kg, mean ± SD for age, height, and mass, respectively) engaged in track and field (TF), volleyball (VO), handball (HA), basketball (BA), and physical education students (PE) executed maximal squat jumps (SQJ) on a force plate. Pearson's correlation was used to identify the relationship between SQJ performance, the anthropometric characteristics and the biomechanical parameters. Differences concerning the biomechanical parameters among groups were investigated with analysis of variance, while the force- (FPD) or time- (TPD) dependency of SQJ execution was examined using principal components analysis (PCA). Results: SQJ was unrelated to body height but significantly correlated with body mass (r = −0.26, p = 0.001). TF jumped higher and produced larger peak body power output compared to all the other groups (p < 0.05). All athletes were superior to PE since they performed the SQJ with a longer (p < 0.05) vertical body center of mass trajectory during the propulsion phase. PCA results revealed that TF significantly differentiated than the other groups by relying on FPD. Conclusion: Various different profiles of FPD and TPD were detected due to different sporting background in young female athletes. Since TF superiority in SQJ was relied on the larger power production and a greater FPD, female indoor team sport athletes are suggested to execute jumping exercises adopting the jumping strategies utilized by TF.http://www.sciencedirect.com/science/article/pii/S2095254614000027Gender differencesPerformance assessmentPower outputPrincipal components analysisRate of force development
collection DOAJ
language English
format Article
sources DOAJ
author Vassilios Panoutsakopoulos
Nikolaos Papachatzis
Iraklis A. Kollias
spellingShingle Vassilios Panoutsakopoulos
Nikolaos Papachatzis
Iraklis A. Kollias
Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
Journal of Sport and Health Science
Gender differences
Performance assessment
Power output
Principal components analysis
Rate of force development
author_facet Vassilios Panoutsakopoulos
Nikolaos Papachatzis
Iraklis A. Kollias
author_sort Vassilios Panoutsakopoulos
title Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
title_short Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
title_full Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
title_fullStr Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
title_full_unstemmed Sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
title_sort sport specificity background affects the principal component structure of vertical squat jump performance of young adult female athletes
publisher Elsevier
series Journal of Sport and Health Science
issn 2095-2546
publishDate 2014-09-01
description Purpose: Long-term training specificity is thought to alter performance in tests evaluating strength and power production capability. The aim of the present study was to provide additional information to the limited existing knowledge concerning the possible differences of the force/time profile of squat jumping among different groups of young female athletes. Methods: One hundred and seventy-three adult women (20.1 ± 2.8 years, 1.71 ± 0.09 m, 65.6 ± 10.3 kg, mean ± SD for age, height, and mass, respectively) engaged in track and field (TF), volleyball (VO), handball (HA), basketball (BA), and physical education students (PE) executed maximal squat jumps (SQJ) on a force plate. Pearson's correlation was used to identify the relationship between SQJ performance, the anthropometric characteristics and the biomechanical parameters. Differences concerning the biomechanical parameters among groups were investigated with analysis of variance, while the force- (FPD) or time- (TPD) dependency of SQJ execution was examined using principal components analysis (PCA). Results: SQJ was unrelated to body height but significantly correlated with body mass (r = −0.26, p = 0.001). TF jumped higher and produced larger peak body power output compared to all the other groups (p < 0.05). All athletes were superior to PE since they performed the SQJ with a longer (p < 0.05) vertical body center of mass trajectory during the propulsion phase. PCA results revealed that TF significantly differentiated than the other groups by relying on FPD. Conclusion: Various different profiles of FPD and TPD were detected due to different sporting background in young female athletes. Since TF superiority in SQJ was relied on the larger power production and a greater FPD, female indoor team sport athletes are suggested to execute jumping exercises adopting the jumping strategies utilized by TF.
topic Gender differences
Performance assessment
Power output
Principal components analysis
Rate of force development
url http://www.sciencedirect.com/science/article/pii/S2095254614000027
work_keys_str_mv AT vassiliospanoutsakopoulos sportspecificitybackgroundaffectstheprincipalcomponentstructureofverticalsquatjumpperformanceofyoungadultfemaleathletes
AT nikolaospapachatzis sportspecificitybackgroundaffectstheprincipalcomponentstructureofverticalsquatjumpperformanceofyoungadultfemaleathletes
AT iraklisakollias sportspecificitybackgroundaffectstheprincipalcomponentstructureofverticalsquatjumpperformanceofyoungadultfemaleathletes
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