Factors influencing performance of competitive and amateur rhythmic gymnastics--gender differences.

During last decade, male athletes were involved in official rhythmic gymnastics (RG) competitions. Aim of this study was to examine anthropometric characteristics and motor skills of male rhythmic gymnasts to identify guidelines in talent identification, selection and development training plans. Twenty-four gymnasts (age range 22+/-4 years), 12 male athletes and 12 female athletes, underwent two testing sessions: the previous session to assess anthropometric measures, and the second one to evaluate jumping ability using Optojump. Three vertical jumps: squat jump (SJ), counter-movement jump (CMJ), hopping test (HT) and three different technical jumps (Split Leap with stretched legs (SL); Cossack with 180 degrees of rotation (CK); Jeté with turn (JWT)) were evaluated. Male gymnasts had significant higher values in each anthropometric measure than females (p<0.01) except for sitting height/stature ratio, sitting height and fat mass (no significant differences). Female athletes were selected for their lowest fat mass. Height and ground contact time of technical leaps, squat jump and counter-movement jump, were significantly higher in male athletes than females. Height of hopping test (evaluating stiffness), and of difference between CMJ and squat jump (evaluating elastic properties of muscles) were no different between genders. Ground contact time of hopping test was significantly correlated (p<0.05) with ground contact time of technical leaps. Results of the present study suggest that similar anthropometric characteristics have to be researched for both gymnasts' gender. Reactivity and elastic muscle properties of the legs have to be research both in male and female athletes.

[1]  John J Petronis,et al.  THE RELATIONSHIP OF BODY SEGMENT LENGTH AND VERTICAL JUMP DISPLACEMENT IN RECREATIONAL ATHLETES , 2006, Journal of strength and conditioning research.

[2]  Chris Comber,et al.  School Subject Preferences: Age and gender differences revisited , 2003 .

[3]  David Hendley,et al.  Pupils’ Subject Preferences at Key Stage 3 in South Wales , 1996 .

[4]  A. Arampatzis,et al.  Leg stiffness and mechanical energetic processes during jumping on a sprung surface. , 2001, Medicine and science in sports and exercise.

[5]  A. Claessens,et al.  The contribution of anthropometric characteristics to performance scores in elite female gymnasts. , 1999, The Journal of sports medicine and physical fitness.

[6]  M. Hutchinson,et al.  Improving leaping ability in elite rhythmic gymnasts. , 1998, Medicine and science in sports and exercise.

[7]  Sex difference in strength , 1979, The American journal of sports medicine.

[8]  D. Sekulić,et al.  Anthropometric characteristics of high level European junior basketball players. , 2002, Collegium antropologicum.

[9]  Slobodan Jaric,et al.  Standard Anthropometric, Body Composition, and Strength Variables as Predictors of Jumping Performance in Elite Junior Athletes , 2002, Journal of strength and conditioning research.

[10]  R. Katić,et al.  Some anthropologic factors of performance in rhythmic gymnastics novices. , 2004, Collegium antropologicum.

[11]  P Apor,et al.  Store and recoil of elastic energy in slow and fast types of human skeletal muscles. , 1982, Acta physiologica Scandinavica.

[12]  Slobodan Jaric,et al.  Movement performance and body size: the relationship for different groups of tests , 2004, European Journal of Applied Physiology.

[13]  Robert N. Singer,et al.  Handbook of Research on Sport Psychology , 1993 .

[14]  W. Hopkins,et al.  Predictors of attainment in rhythmic sportive gymnastics. , 1993, The Journal of sports medicine and physical fitness.

[15]  G. Johnson,et al.  Body composition and somatotype characteristics of junior Olympic athletes. , 1981, Medicine and science in sports and exercise.