Metrika članka

  • citati u SCindeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[=>]
  • posete u poslednjih 30 dana:1
  • preuzimanja u poslednjih 30 dana:0
članak: 3 od 3  
Back povratak na rezultate
Exercise and Quality of Life
2012, vol. 4, br. 1, str. 23-32
jezik rada: engleski
vrsta rada: istraživanja
objavljeno: 29/10/2012
Relationship between morphological characteristics and motor abilities of boys and girls aged from 11-14 in the province of Vojvodina
(naslov ne postoji na srpskom)
Univerzitet u Novom Sadu, Fakultet sporta i fizičkog vaspitanja

e-adresa: igorberetic@yahoo.com

Sažetak

(ne postoji na srpskom)
The aim of this study was to examine the relationship between morphological characteristics and motor abilities of boys and girls aged from 11 to 14 so that the process of physical education could be in line with the dynamics of growth and development as well as the differences between the sexes. The total sample consisted of 730 subjects, divided into four age groups of 11, 12, 13 and 14. Eight motor tests were conducted and 9 anthropometric measures were taken. The boys of all ages achieved better results in tests of coordination, repetitive and explosive power, while girls of all age groups scored better in flexibility tests. The largest differences between the sexes at the ages of 11 and 12 years were the results of variables evaluating motor abilities. At the age of 13, a significant difference in skinfold thickness was found in favor of girls and at the age of 14 in the voluminousness in favor of boys. In boys aged from 13 and 14, the increase in body volume was negatively correlated with the increase in skinfold thickness, indicating that the increase of voluminousness is caused by the increase of muscle mass. It is therefore concluded that the linear increase of the differences in motor performance tests under 14 years of age is caused by increased muscle mass in boys, especially in tests where achievement depends on the strength and production of force.

Ključne reči

Reference

Arner, P., Lithell, H., Wahrenberg, H., Brönnegard, M. (1991) Expression of lipoprotein lipase in different human subcutaneous adipose tissue regions. Journal of Lipid Research, (32): 423-439
Bala, G., Stojanović, M.V., Stojanović, M. (2007) Merenje i definisanje motoričkih sposobnosti dece. Novi Sad: Fakultet sporta i fizičkog vaspitanja
Beunen, G., Malina, R.M. (1988) Growth and physical performance relative to the timing of the adolescent spurt. Exerc Sport Sci Rev, 16: 503-40
Brandt, C., Haubenstricker, J., Seefeldt, V. (1984) Age changes in motor scill during childhood and adolescence. Exercise and Sciences Reviews, (12): 467-520
Burmeister, W. (1965) Body cell mass as the basis of allometric growth functions. Annales paediatrici. International review of pediatrics, 204: 65-72
Carron, A.V., Bailey, D.A. (1974) Strenght development in boys from 10 through 16 years. u: Monographs of the society for research in child development, serial no. 157. 39
Dickerson, J.W., Widdiwson, E.M. (1960) Chemical changes in skeletal muscle during development. Biohemical Journal, (74): 247-257
Eckert, H.M., Eichorn, D.H. (1974) Construct standards in skilled action. Child development, 45(2): 439-45
Foran, B. (2001) High-performance sports conditioning. Champaign: Human Kinetics
Gasser, T., Müller, H.G., Köhler, W., Prader, A., Largo, R., Molinari, L. (1985) An analysis of the mid-growth and adolescent spurts of height based on acceleration. Annals of human biology, 12(2): 129-48
Huang, T.T., Johnson, M.S., Figueroa-Colon, R., Dwyer, J.H., Goran, M.I. (2001) Growth of visceral fat, subcutaneous abdominal fat, and total body fat in children. Obesity research, 9(5): 283-9
Krsmanović, B., Batez, M., Krsmanović, T. (2011) Razlike u antropometrijskim karakteristikama i uhranjenosti dečaka i devojčica. Glasnik Antropološkog društva Srbije, (46): 89-94
Lever, J. (1976) Sex Differences in the Games Children Play. Social Problems, 23(4): 478-487
Malina, R.M. (1995) Physical activity and fitness of the children and youth: Questions and implications. Medicine, Exercise. Nutrition, and Health, (4): 123-135
Malina, R.M., Johnston, F.E. (1967) Significance of age, sex, and maturity differences in upper arm composition. Research quarterly, 38(2): 219-30
Malina, R.M., Roche, A.F. (1983) Manual of physical status and performance in childhood. New York: Physical Performance, vol. 2
Thomas, J.R., French, K.E. (1985) Gender differences across age in motor performance: A meta-analysis. Psychol Bull, 98(2): 260-82