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2015 | 21 | 4 | 234-239
Article title

Structure of Coordination Motor Abilities in Male Basketball Players at Different Levels of Competition

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EN
Abstracts
EN
Introduction. The purpose of this investigation was to examine the structure of coordination motor abilities (CMA) in male basketball players at different levels of competition. Material and methods. The study included 183 male basketball players from 10 Polish sports clubs. The examined groups consisted of seniors (n=42) aged 24.5 (± 3.3), juniors (n=37) aged 16.8 (± 0.6), cadets (n=54) aged 14.5 (± 0.1) and children (n=50) aged 13.4 (± 0.2). A battery of motor tests was administered to assess the following CMA: kinesthetic differentiation of movements, spatio-temporal orientation, reaction time, movement coupling, sense of balance, sense of rhythm and adjustment of movements. The structure of CMA under investigation was determined based on the results of Hotelling's principal component analysis in Tucker's modification, completed with Kaiser's Varimax rotation [1, 2]. Results. The CMA structure of basketball players was composed of three or four factors. Most often these included rhythm, movement differentiation, movement coupling and adjustment of movements. Less frequently the structure consisted of spatio-temporal orientation, balance and reaction time. An in-depth analysis of the CMA structure revealed that factors ranged from heterogeneous (children and cadets) to homogeneous ones (juniors and seniors). The distribution of identified factors in the common variance was the smallest in children and cadets (58.9% and 62.9%, respectively) and the biggest in juniors and seniors (69.3% and 68.48%, respectively).
Publisher

Year
Volume
21
Issue
4
Pages
234-239
Physical description
Dates
online
1 - 3 - 2015
received
28 - 4 - 2014
accepted
4 - 12 - 2014
Contributors
  • Józef Piłsudski University of Physical Education in Warsaw, Faculty of Physical Education and Sport in Biała Podlaska, Department of Athletics, jerzy.sadowski@awf-bp.edu.pl
  • Department of Basketball and Handball
  • Department of Basketball and Handball
  • Department of Gymnastics
  • Department of Foreign Languages
References
  • 1. Czyż T. (1971). The application of the factor analysis method in studying the economic and regional structure of Poland. Geographical Studies. Wrocław: PAN. [in Polish].
  • 2. Weber E. (1982). Mathematical fundamentals of genetics. Verlag: Jena VEB Gustav Fischer. [in German]
  • 3. Raczek J. (2010). Antropomotorics. Theory of human motorics. Warszawa: Medical publishing PZWL. [in Polish].
  • 4. Ljach W. (1979). Factor structure of dexterity in the position of multi-level system of controlling movements. Teoria i Praktika Fizyczeskoj Kultury 5, 51-53. [in Russian]
  • 5. Zając A., Mikołajec K., Kubaszczyk A. (1993). Development of coordination abilities in the process of fitness preparation of a basketball player. Scientific annual AWF in Katowice 21, 135-147. [in Polish].
  • 6. Zwierko T., Lesiakowski P., Florkiewicz B. (2005). Selected aspects of motor coordination in young basketball players. Human Movement Science 6, 124-128.
  • 7. Sadowski J., Jaślikowska-Sadowska T., Wołosz P., Zieliński J. (2003). Coordination motor abilities and technical skills of young basketball players. In W. Starosta, W. Osiński (eds), New ideas in sport sciences: current issues and perspectives (pp. 224-227). Leszno: PWSZ.
  • 8. Raczek J., Juras G., Waśkiewicz Z. (2000). New methods of assessing coordination motor abilities. Professional Sport 3- 4, 14-27. [in Polish].
  • 9. Ljach W. (2007). Coordination motor abilities and their significance for technical and tactical skills, methodology of development. In A. Zając, Z. Waśkiewicz (eds), Science for professional sport (pp. 23-61). Katowice: AWF Katowice. [in Polish].
  • 10. Gallotta M. C., Marchetti R., Baldari C., Guidetti L., Pesce C. (2009). Linking co-ordinative and fitness training in physical education settings. Scandinavian Journal of Medicine & Science in Sports 19, 412-418.[Crossref]
  • 11. Miller S., Bartlett R. (1996). The relationship between basketball shooting kinematics, distance and playing position. Journal of Sports Sciences 14, 243-253.[Crossref]
  • 12. Oudejans R., Koedijker J. (2010). Perceptual training for basketball shooting. In I. Renshaw, K. Davis (eds.), Motor Learning in Practice (pp. 47-56). New York: Routladge.
  • 13. Kioumourtzoglou E., Kourtessis T., Michalopoulou M., Derri V. (1998). Differences in several perceptual abilities between experts and novices in basketball, volleyball and waterpolo. Perceptual Motor Skill 86; 899-912.
  • 14. Abernethy B., Wood J.M. (2001). Do generalized visual training programmes for sport really work? An experimental investigation. Journal Sport Science 19, 203-222.
  • 15. Elmurr P. (2000). Assessing and Training Eye-Hand Coordination. Miejsce Wydania: Sports Vision Summer, 8-10.
  • 16. Balasaheb T., Maman P., Sandu J.S. (2008). The impact of visual skills training on batting performance in cricketers. Serbian Journal of Sports Sciences 2(1),17-23.
  • 17. Diaczuk J., Pawelak Z. (2001). Levels of specific coordination motor abilities (CMA) and selected technical elements in active and retired female handball players - differences and correlations. Man and Movement 3, 58-60. [in Polish].
  • 18. Pawelak Z., Witkowski Z. (2004). The structure of coordination motor abilities in elite female handball players. In S. Żak, M. Spieszny, R. Rzepka (eds.), Science in theory and practice of handball (pp. 107-112). Kraków: AWF Kraków. [in Polish].
  • 19. Mikołajec K., Rzepka R. (2007). Objective assessment and importance of stability and motor control in sports performance. Journal of Human Kinetics 18, 135-140.
  • 20. Brodani J., Šimonek J. (2010). Strukture of coordination capacities and prediction of overall coordination performance in selected sports. Slovakia: Editura Universitatii din Oradea.
  • 21. Jukiè I., Milanoviè D., Vuleta D. (2005). The latent structure of variables of sports preparation and athletic preparendess based on physical conditioning contents in basketball. Kinesjology 37(2), 182-194.
  • 22. Kubaszczyk A. (2001). Level of coordinational motor abilities and technical skills of basketball players. Physical Education and Sport 4, 499-515.
  • 23. Dembiński J. (1997). Activity effectiveness in a game as a criterion for the individualisation of training tasks as exemplified by basketball. Training 3, 123-134. [in Polish].
  • 24. Brooks M.A., Boleach L.W., Mayhew J.L. (1987). Relationship of specific and non-specific variables to successful basketball performance among high school players. Perceptual and Motor Skills 64, 832-827.
  • 25. Franciosi E., Guidetti L., Gallotta M., Emerenziani G., Baldari C. (2010). Contributions of selected fundamental factors to basketball performance in adult players with mental retardation. Journal of Strenght & Conditioning Research 24(8), 2166-71.
  • 26. Pavlidou S., Michalopoulou M., Aggeloussis N., Kioumourtzoglou E. (2006). Relationship between perceptual and motor abilities on fundamental basketball skills in 8-13 years old children. Sport & Physical Education 4, 399-408.
  • 27. Erèulj F., Blas M., Èoh M., Braèiè M. (2009). Differences in motor abilities of various types of European young elite female basketball players. Kinesiology 41(2), 203-211.
  • 28. Ljach W. (2001). Coordination training in team games: selected theoretical and methodical attitudes. Man and Movement 3, 46-49. [in Polish].
  • 29. Nieber L., Glasauer G. (2000). Theoretical fundamentals of regular coordination training in basketball. Leistungssport 30(5), 28-37. [in German]
  • 30. Zieliński J., Sadowski J. (2005). Dynamics of selected coordination abilities and their connection with game effectiveness in young basketball players in a yearly cycle. In A. Kuder, K. Perkowski, D. Śledziewski (eds), Directions of training improvement - diagnostics (pp. 155-158). Warszawa: AWF Warszawa. [in Polish].
  • 31. Manolopoulos E., Papadopoulos C., Kellis E. (2006). Effects of combined strength and kick coordination training on soccer kick biomechanics in amateur players. Scandinavian Jour-nal of Medicine & Science in Sports 16, 102-110.
  • 32. Zwierko T. (1998). Correlation between coordination motor abilities and special basketball fitness in physical education students. In D. Umiastowska (ed.), Aktywność ruchowa ludzi w różnym wieku (pp. 436-441). Szczecin: Polskie Towarzystwo Naukowe Kultury Fizycznej. [in Polish].
  • 33. Karpowicz K. (2006). Interrelation of selected factors determining the effectiveness of training in young basketball players. Human Movement 2, 130-146.
  • 34. Hirtz P. (1985). Coordination skills in school sport. Berlin: Volk und Wissen. [in German]
  • 35. Ljach W. (1998). Tests in physical education of students. Moskva. [in Russian]
  • 36. Brill M.S. (1980). Selection in team sports. Fizkultura i Sport, 26-29. [in Russian]
  • 37. Raczek J. (1989). The role of coordination motor abilities in the process of learning sports skills in children and youth. Scientific Quarterly 50, 21-27. [in Polish].
  • 38. Starosta W., Stronczyński W. (2010). Significance of rhythm in learning and improving movement technique. Warszawa: Association of Sport Kinetics. [in Polish]
Document Type
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.-psjd-doi-10_1515_pjst-2015-0004
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