The Influence of Different Training Conditions on the Kinematics of Long Jump-Specific Exercise in Young Female Jumpers

1. Lees A. (2002). Technique analysis in sports: a critical review. Journal of Sports Sciences 20(10), 813-828.10.1080/026404102320675657Search in Google Scholar

2. Hay J.G., Miller J.A., Canterna R.W. (1986). The techniques of elite male long jumpers. Journal of Biomechanics 19(10), 855-866.10.1016/0021-9290(86)90136-3Search in Google Scholar

3. Lees A., Graham-Smith P., Fowler N. (1994). A biomechanical analysis of the last stride, touchdown, and takeoff characteristics of the men’s long jump. Journal of Applied Biomechanics 10, 61-61.10.1123/jab.10.1.61Search in Google Scholar

4. Bridgett L.A., Linthorne N.P. (2006). Changes in long jump take-off technique with increasing run-up speed. Journal of Sports Sciences 24(8), 889-897.10.1080/02640410500298040Search in Google Scholar

5. Hay J.G., Nohara H. (1990). Techniques used by elite long jumpers in preparation for takeoff. Journal of Biomechanics 23(3), 229-239.10.1016/0021-9290(90)90014-TSearch in Google Scholar

6. Lees A., Fowler N., Derby D. (1993). A biomechanical analysis of the last stride, touch-down and take-off characteristics of the women’s long jump. Journal of Sports Sciences 11(4), 303-314.10.1080/02640419308730000Search in Google Scholar

7. Makaruk H., Sadowski J. (2008). Selected aspects of long and triple jump training. Biała Podlaska: ZWWF. [in Polish]Search in Google Scholar

8. Bober T. (1973). Biomechanical principles of technical training. Wrocław: AWF. [in Polish]Search in Google Scholar

9. Koyama H., Muraki Y., Ae M. (2005). Athletics: Effects of an inclined board as a training tool on the take-off motion of the long jump. Sports Biomechanics 4(2), 113-129.10.1080/14763140508522858Search in Google Scholar

10. Boden B.P., Dean G.S., Feagin Jr J.A., Garrett Jr W.E. (2000). Mechanisms of anterior cruciate ligament injury. Orthopedics 23(6), 573-578.10.3928/0147-7447-20000601-15Search in Google Scholar

11. Roetenberg D., Luinge H., Slycke P. (2013). Xsens MVN: Full 6DOF Human Motion Tracking Using Miniature Inertial Sensors. Xsens Technologies, Enschede, The Netherlands.Search in Google Scholar

12. Graham-Smith P., Lees A. (2005). A three-dimensional kinematic analysis of the long jump take-off. Journal of Sports Sciences 23(9), 891-903.10.1080/02640410400022169Search in Google Scholar

13. Beyer E. (1992). Dictionary of sport science. Schorndorf: Verlag Karl Hofmann.Search in Google Scholar

14. Seyfarth A., Friedrichs A., Wank V., Blickhan R. (1999). Dynamics of the long jump. Journal of Biomechanics 32(12), 1259-1267.10.1016/S0021-9290(99)00137-2Search in Google Scholar

15. Miladinov O. (2006). New aspects in perfecting the long jump technique. New Studies in Athletics 21(4), 7-25.Search in Google Scholar

16. Brosnan J.T., McNitt A.S., Serensits T.J. (2009). Effects of varying surface characteristics on the hardness and traction of baseball field playing surfaces. International Turfgrass Society Research Journal 11, 1053-1065.Search in Google Scholar

17. Nigg B.M., Yeadon M.R. (1987). Biomechanical aspects of playing surfaces. Journal of Sports Sciences 5(2), 117-145.10.1080/02640418708729771Search in Google Scholar

18. Weyand P.G., Sternlight D.B., Bellizzi M.J., Wright S. (2000). Faster top running speeds are achieved with greater ground forces not more rapid leg movements. Journal of Applied Physiology 89(5), 1991-1999.10.1152/jappl.2000.89.5.1991Search in Google Scholar

19. Béres S., Csende Z., Lees A., Tihanyi J. (2014). Prediction of jumping distance using a short approach model. Kinesiology 46(1), 88-96.Search in Google Scholar

20. Nemtsev O., Doronin A., Nemtseva N., Sukhanov S., Shubin M. (2014). Features of takeoff phase in long jumps with various run-up lengths. In 32nd Conference of the International Society of Biomechanics in Sports, July 12-16, 2014, Johnson City, USA: East Tennessee State University.Search in Google Scholar

21. Hay J.G. (1999). Changes in muscle-tendon length during the take-off of a running long jump. Journal of Sports Sciences 17(2), 159-172.10.1080/026404199366262Search in Google Scholar

22. Kyröläinen H., Avela J., Komi P.V. (1989). Regulation of muscle force and stiffness during long jump take off. Journal of Biomechanics 22(10), 1042.10.1016/0021-9290(89)90337-0Search in Google Scholar

23. Ford K.R., Myer G.D., Smith R.L., Byrnes R.N., Dopirak S.E., Hewett T.E. (2005). Use of an overhead goal alters vertical jump performance and biomechanics. The Journal of Strength & Conditioning Research 19(2), 394-399.Search in Google Scholar

24. Porter J.M., Anton P.M., Wu W.F. (2012). Increasing the distance of an external focus of attention enhances standing long jump performance. The Journal of Strength & Conditioning Research 26(9), 2389-2393.10.1519/JSC.0b013e31823f275c22067252Search in Google Scholar

25. Latash M.L., Turvey M.T., Bernstein N.A. (1996). Dexterity and its development. Lawrence Erlbaum.Search in Google Scholar

26. Porter J., Wu W., Partridge J. (2010). Focus of attention and verbal instructions: strategies of elite track and field coaches and athletes. Sport Science Review 19(3-4), 77-89.10.2478/v10237-011-0018-7Search in Google Scholar

27. Makaruk H., Czaplicki A., Sacewicz T., Sadowski J. (2014). The effects of single versus repeated plyometrics on landing biomechanics and jumping performance in men. Biology of Sport 31(1), 9-14.10.5604/20831862.1083273399457924917684Search in Google Scholar