Development of Selected Motor Skills in Boys and Girls in Relation to Their Rate of Maturation - A Longitudinal Study

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Development of Selected Motor Skills in Boys and Girls in Relation to Their Rate of Maturation - A Longitudinal Study

Purpose. The aim of this study was to examine the process of how motor skills were developed and shaped in boys and girls in relation to their rate of maturation, based on the use of peak height velocity (PHV), which measures biological maturity. Methods. This study made use of a longitudinal study researching the physical fitness of boys and girls from Kraków, Poland during the years 1980-1990. From the original sample population, 296 boys and 196 girls were selected for further analysis. Physical fitness tests were administered over the subsequent decade, measuring the following motor skills: speed, explosive strength of the lower limbs, static strength of the right and left hand, agility, dynamic strength of the abdominal muscles, static endurance of the upper limbs and shoulders, and flexibility. On the basis of the median and PHV age quartiles for both sexes, the examined individuals were divided into two cohorts: early maturers and late maturers. The mean values and standard deviations of the physical fitness test results were calculated based on biological age. Afterwards, the means and standard deviations of each tested motor skill of the early maturers were standardized into means and standard deviations of the late maturers. Results. The motor skills best performed in all age groups and in both sexes by early maturers were in tests of static strength of the hands. In the group of boys, early maturers in all age groups also performed the best in tests of speed and explosive strength of the lower limbs. Late-maturing girls were positively differentiated in each age group in tests of static strength of the upper limbs and shoulders, and in the dynamic strength of the abdominal muscles. Conclusions. The rate of maturation was found to significantly influence the results of fitness tests, particularly in the case of boys.

Malina R. M., Rożek K., Ignasiak Z., Sławińska T., Fugiel J., Kochan K., Domaradzki J., Growth and functional characteristics of male athletes 11-15 years of age. Hum Mov, 2011, 12 (2), 180-187, doi: 10.2478/v10038-011-0017-7.

Malina R. M., Ignasiak Z., Rożek K., Sławińska T., Domaradzki J., Fugiel J., Kochan K., Growth, maturity and functional characteristics of female athletes 11-15 years of age. Hum Mov, 2011, 12 (1), 31-40, doi: 10.2478/v10038-011-0003-0.

Katić R., Retelj E., Milat S., Ivanisević S., Kudelj I., Development of motor and specific motor abilities for athletics in elementary school male and female first graders. Coll Antropol, 2008, 32 (4), 1141-1147.

Malina R. M., Physical growth and biological maturation of young athletes. Exerc Sport Sci Rev, 1994, 22, 389-433.

Puciato D., Morpho-functional development of children and adolescents from Jedlina-Zdrój with regard to objective quality of life of their families. Hum Mov, 2010, 11 (1), 66-70, doi: 10.2478/v10038-010-0005-3.

Mleczko E., Environmental differentiation vs. the level and dynamics of functional development in Krakow children aged 7-14 years [in Polish]. Antropomotoryka, 1993, 10, 57-114.

Bouchard C., Malina R. M., Perusse L., Defining performance, fitness, and health. In: Bouchard C., Malina R. M., Perusse L., Genetics of Fitness and Physical Performance. Human Kinetics, Leeds 1997, 89-98.

Gołąb S., Chrzanowska M., Sobiecki J., Żarów R., Kościuk T., Brudecki J. et al., The Child of Krakow 2000. Physical Fitness and body posture in the Krakow children and youth. [in Polish]. Studia i Monografie AWF w Krakowie, 2003, 22.

Tanner J. M., Davies P. S., Clinical longitudinal standards for height and height velocity for North American children. J Pediatr, 1985, 107 (3), 317-329, doi: 10.1016/S0022-3476(85)80501-1.

Chrzanowska M., Gołąb S., Bocheńska Z., Panek S., The Krakow Child - the level of biological development of children and adolescents from the city of Krakow [in Polish]. AWF, Kraków 1988.

Jagiełło W., Kalina R. M., Tkaczuk W., Development of strength abilities in children and youth. Biol Sport, 2004, 21 (4), 351-368.

Loko J., Aule R., Sikkut T., Ereline J., Viru A., Motor performance status in 10 to 17-year-old Estonian girls. Scand J Med Sci Sports, 2000, 10 (2), 109-113, doi: 10.1034/j.1600-0838.2000.010002109.x.

Bocheńska Z., Morphofunctional and psychological development of school children from Nowa Huta of high physical fitness level as compared to groups of average and low fitness [in Polish]. AWF, Kraków 1987.

Panek S., Bocheńska Z., Chrzanowska M., Somatic, physiological and psychical development of children and adolescents of different level of physical fitness based on longitudinal studies [in Polish]. AWF, Kraków 1993, 103-113.

Juliano-Burns S., Mirwald R. L., Bailey D. A., Timing and magnitude of peak height velocity and peak tissue velocities for early, average, and late maturers boys and girls. Am J Hum Biol, 2001, 13 (1), 1-8, doi: 10.1002/1520-6300(200101/02)13:1<1::AID-AJHB1000>3.0.CO;2-S.

Kemper H., de Vente W., van Mechelen W., Twisk J. W., Adolescent motor skill and performance: Is physical activity in adolescence related to adult physical fitness? Am J Hum Biol, 2001, 13 (2), 180-189, doi: 10.1002/1520-6300(200102/03)13:2<180::AID-AJHB1027>3.0.CO;2-R.

Volver A., Viru A., Viru M., Formation of sprinting ability in girls. Acta Academiae Olimpiquae Estoniae, 2005, 13 (2), 11-15.

Żak S., Sterkowicz S., The influence of peak height velocity and age of girls on some of their co-ordination motor abilities. Kinesiology, 2004, 14, 45-54.

Sterkowicz S., Żak S., Development of strength in girls aged 8-15 years in the aspect of peak height velocity [in Polish]. Ann UMCS, 2006, 60 (16), 222-226.

Yague P., De la Fuente J., Changes in height and motor performance relative to peak height velocity: a mixedlongitudinal study of Spanish boys and girls. Am J Hum Biol, 1998, 10 (5), 647-660, doi: 10.1002/(SICI)1520-6300(1998)10:5<647::AID-AJHB11>3.0.CO;2-8.

Branta C., Haubenstricker J., Seefeldt V., Age changes in motor skills during childhood and adolescence. Exerc Sport Sci Rev, 1984, 12 (1), 467-520.

Buenen G., Malina R., Growth and physical performance relative to the timing of the adolescent spurt. Exerc Sport Sci Rev, 1988, 16 (1), 503-540.

Szopa J., In the search of motor activity structure: a factor analysis of somatic and functional features as well as fitness tests in girls and boys aged 8-19 years [in Polish]. AWF, Kraków 1988.

Viru A., Loko J., Volver A., Laaneots L., Karelson K., Viru M., Age periods of accelerated improvement of muscle strength, power, speed and endurance in the age interval 6-18 years. Biol Sport, 1998, 15 (4), 211-227.

Raudsepp L., Jürimäe T., Relationships between somatic variables, physical activity, fitness and fundamental motor skills in prepubertal boys. Biol Sport, 1996, 13 (4), 279-289.

Chrzanowska M., Gołąb S., Żarów R., Sobiecki J., Matusik S., Trends in body adiposity and overweight and occurrence in children and youth in Krakow in the last thirty years [in Polish]. Pediatria Polska, 2002, 2, 113-120.

Volver A., Viru A., Viru M., Improvement of motor abilities in pubertal girls. J Sports Med Phys Fitness, 2000, 40 (1), 17-25.

Malina R. M., Bouchard C., Growth maturation and physical activity. Human Kinetics, Champaign 1991.

Łaska-Mierzejewska T., Anthropology in sport and physical education [in Polish]. COS, Warszawa 1999.

Human Movement

The Journal of University School of Physical Education, Wroclaw

Journal Information

CiteScore 2016: 0.41

SCImago Journal Rank (SJR) 2016: 0.208
Source Normalized Impact per Paper (SNIP) 2016: 0.230


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