Differences in anthropometric, motoric and cognitive abilities between athletically trained and untrained girls

1. Al-Hazzaa H.M. (2007) Pedometer-determined physical activity among obese and non-obese 8- to 12-year-old Saudi schoolboys. J. Physiol. Anthropol., 26(4): 459-465.10.2114/jpa2.26.45917704624Search in Google Scholar

2. Bala G., Drid P. (2010) Anthropometric and motor features of young judoists in Vojvodina. Coll. Antropol., 34(4): 1347-1353.Search in Google Scholar

3. Bompa T.O., Carrera M. (1999) Periodization training for sports. Champaign, IL: Human Kinetics.Search in Google Scholar

4. Bompa T.O. (2000) Periodization. Theory and Methodology of Training. Champaign, Ill: Human Kinetics.Search in Google Scholar

5. Brisswalter J., Collardeau M., René A. (2002) Effects of acute physical exercise characteristics on cognitive performance. Sports Med., 32(9): 555-566.10.2165/00007256-200232090-0000212096929Search in Google Scholar

6. Drid P., Bala G., Obadov S. (2010) The differences in motor and cognitive abilities between the more and less successful 12–14 years old judokas. Archives of BUDO, 6(2): 95-100.Search in Google Scholar

7. Drid P., Maksimovic N., Matic R., Obradovic B., Milosevic Z., Ostojic S.M. (2009) Fitness profiles of elite female judokas of the Serbian national team. Medicina dello Sport, 62(3): 251-263.Search in Google Scholar

8. Fleck S. J., Kraemer W. (2014) Designing Resistance Training Programs, 4E. Human Kinetics.Search in Google Scholar

9. Franchini E., Takito M.Y., Kiss A.P.D.M., Strerkowicz S. (2005) Physical fitness and anthropometrical differences between elite and non-elite judo players. Biol. Sport, 22(4): 315.Search in Google Scholar

10. Godina E., Khomyakova I., Purundzhan A., Tretyak A., Zadorozhnaya L. (2007) Effect of physical training on body composition in Moscow adolescents. J. Physiol. Anthropol., 26(2): 229-234.10.2114/jpa2.26.22917435370Search in Google Scholar

11. Grabara M., Hadzik A. (2009) Postural variables in girls practicing volleyball. Biomed. Hum. Kinet., 1: 67-71.Search in Google Scholar

12. Higashiura T., Nishihira Y., Kamijo K., Hatta A., Kim S.R., Hayashi K., Kuroiwa K. (2006) <Originals> The Interactive Effects of Exercise Intensity and Duration on Cognitive Processing in the Central Nervous System. Adv. Exerc. Sports Physiol., 12(1): 15-21.Search in Google Scholar

13. Kakhabrishvili Z.G., Akhalkatsi V.U., Kvinikadze D.G. (2003) Use of specific tests for an assessment of a functional condition of fighters of judo. Теория и практика физической культуры, 2: 36-37.Search in Google Scholar

14. Katić R., Maleš B., Miletić Đ. (2002) Effect of 6-month athletic training on motor abilities in seven-year-old schoolgirls. Coll. Antropol., 26(2): 533-538.Search in Google Scholar

15. Selingerova M., Selinger P., Hiadlovsky I. (2004) Physical development of pubescent male and female volleyball players. TVS Telesna Vychova & Sport, 14(3/4): 37-41.Search in Google Scholar

16. Svischev I. (2001) Interaction of Contestants at a Judo Competitive Contest. 2nd IJF World Judo Conference in Munich, Germany.Search in Google Scholar

17. Temfemo A., Hugues J., Chardon K., Mandengue S.H., Ahmaidi S. (2009) Relationship between vertical jumping performance and anthropometric characteristics during growth in boys and girls. Eur. J. Pediatr., 168(4): 457-464.10.1007/s00431-008-0771-518597112Search in Google Scholar

18. Thomas S.G., Cox M.H., LeGal Y.M., Verde T.J., Smith H.K. (1989). Physiological profiles of the Canadian National Judo Team. Can. J. Sport Sci., 14(3): 142-147.Search in Google Scholar

19. Yagi Y., Coburn K.L., Estes K.M., Arruda J.E. (1999) Effects of aerobic exercise and gender on visual and auditory P300, reaction time, and accuracy. Eur. J. Appl. Physiol. Occup. Physiol., 80(5): 402-408.10.1007/s00421005061110502073Search in Google Scholar

20. Zheleznyak Yu.D., Kunyansky V.A., Chachin A.V. (2005) Volleyball. Methodical manual on training in game. Москва: Олимпия P ESS, 2005.–112 с. P ESS, 2005.–112 с., 2005.–112 с.Search in Google Scholar

21. Gredelj M., Metikoš D., Hošek A., Momirović K. (1975) Hierarchy motor ability structure model. 1. Results obtained applying one uncommon procedure for latent dimension estimation. Kinesiology, 5(5): 7-81.Search in Google Scholar

22. Kurelić N., Momirović K., Stojanović M., Šturm J., Radojević Đ., Viskić-Štalec N. (1975) Structure and development of morphological and motor dimensions of youth. Institute for the Scientific Research of the Faculty of Physical Education, Belgrade.Search in Google Scholar

23. Raven J. (2000) The Raven’s progressive matrices: change and stability over culture and time. Cognitive Psychology, 41(1): 1-48.10.1006/cogp.1999.073510945921Search in Google Scholar

24. Bala G., Jakšić D., Katić R. (2009) Trend of relations between morphological characteristics and motor abilities in preschool children. Coll. Antropol., 33(2): 373-385.Search in Google Scholar

25. Drid P., Vujkov S., Jakšić D., Trivić T., Marinković D., Bala G. (2013) Differences in motor and cognitive abilities of children depending on their body mass index and subcutaneous adipose tissue. Coll. Antropol., 37(2): 171-177.Search in Google Scholar

26. Weigelt M., Ahlmeyer T., Lex H., Schack T. (2011) The cognitive representation of a throwing technique in judo experts–Technological ways for individual skill diagnostics in high-performance sports. Psychol. Sport . Exerc., 12(3): 231-235.10.1016/j.psychsport.2010.11.001Search in Google Scholar

27. Higashiura T., Nishihira Y., Kamijo K., Hatta A., Kim S.R., Hayashi K., Kaneda T., Kuroiwa K. (2006) The interactive effects of exercise intensity and duration on cognitive processing in the central nervous system. Adv. Exerc.Sports Physiol., 12(1): 15-21.Search in Google Scholar

28. Kaur M.H., Sharma L. (2013) Athletic Intelligence and Different Nature of Sports: an Analysis. Search in Google Scholar