Autorzy: |
Oliwer
Huzarski
![]() Student Research at the Chair and Department of Functional Diagnostics and Physical Medicine, Pomeranian Medical University, Szczecin, Poland Waldemar Pluta ![]() Chair and Department of Functional Diagnostics and Physical Medicine, Faculty of Health Sciences, Pomeranian Medical University, Szczecin, Poland Anna Lubkowska ![]() Chair and Department of Functional Diagnostics and Physical Medicine, Faculty of Health Sciences, Pomeranian Medical University, Szczecin, Poland |
Słowa kluczowe: | performance rowing indoor rowing ergometer "1000m maximal test" |
Data publikacji całości: | 2022 |
Liczba stron: | 14 (101-114) |
1. | Bohannon, R. W., Magasi, S. R., Bubela, D. J. (2012). Grip and knee extension muscle strength reflect a common construct among adults. Muscle Nerve, 46, 555–558. |
2. | Boyas, S., Nordez, A., Cornu, C., Guével, A. (2006). Power responses of a rowing ergometer: mechanical sensors vs. Concept2 measurement system. Int J Sports Med., 27 (10), 830-–3. DOI:10.1055/s-2006-923774 |
3. | Cosgrove, M.J., Wilson, J., Watt, D. Grant, S. F. (1999). The relationship between selected physiological variables of rowers and rowing performance as determined by a 2,000 m ergometer test. Journal of Sports Sciences, 17 (11), 845–852. |
4. | Hagerman, F.C., Staron R.S. (1983). Seasonal variables among physiological variables in elite oarsmen. Can J Appl Sport Sci ,8, 143–148. |
5. | Hennig, M. (ed) (2003): Wioślarstwo. Warszawa: Polski Związek Towarzystw Wioślarskich, |
6. | Hume, P.A. (2018). Movement Analysis of Scull and Oar Rowing. In: Müller B., Wolf S. (eds) Handbook of Human Motion. Springer, Cham. DOI: 10.1007/978-3-319-14418-4_133 |
7. | Majumdar, P., Das, A., Mandal, M. (2017). Physical and strength variables as a predictor of 2000m rowing ergometer performance in elite rowers. Journal of Physical Education and Sport ® (JPES), 17 (4), 2502–2507. |
8. | Mikulic, P., Bralic, N. (2018). Elite status maintained: a 12-year physiological and performance follow-up of two Olympic champion rowers. Journal of Sports Sciences, 36 (6), 660–665. DOI 10.1080/02640414.2017.1329548 |
9. | Mikulic, P., Ruzic L. (2008). Predicting the 1000m rowing ergometer performance in 12-13-year-old rowers: the basis for selection process? J Sci Med Sport, 11(2), 218-26. DOI 10.1016/j.jsams.2007.01.008 |
10. | Penichet-Tomas, A., Pueo, B., Selles-Perez, S., Jimenez-Olmedo, J.M. (2021). Analysis of Anthropometric and Body Composition Profile in Male and Female Traditional Rowers. Int J Environ Res Public Health, 18 (15), 7826. |
11. | Purge P., Hofmann P., Merisaar R., Mueller A., Tschakert G., Mäestu J., Jürimäe J. (2017). The Effect of Upper Body Anaerobic Pre-Loading on 2000-m Ergometer-Rowing Performance in College Level Male Rowers. J Sports Sci Med., 16 (2), 264–271 |
12. | Sablic T., Versic S., Uljevic O. (2021) Association of Motor Abilities and Morphological Characteristics with Results on a Rowing Ergometer. Sport Mont, 19, 3–6 |
13. | Secher, N.H. (1993). Physiological and biomechanical aspects of rowing. Implications for training. Sports Med., 15(1), 24-42. https://doi.org/10.2165/00007256-199315010-00004 |
14. | Secher N. H. (ed.) (2007). Handbook of Sports Medicine and Science Rowing. Blackwell Publishing |
15. | Soper, C., Hume, P.A. (2004). Towards an Ideal Rowing Technique for Performance. The Contributions from Biomechanics. Sports Med, 34(12), 825–848. |
16. | Soper, C., Hume P.A. (2004) Reliability of power output changes with ergometer type and race distance. Sports Biomechanics, 3 (2), 237–47. |
17. | Thiele, D., Prieske, O., Gäbler, M., Granacher, U. (2021). Zusammenhang von biologischer Reife, Körperkonstitution und körperlicher Fitness und der Leistung auf dem Ruderergometer bei Elite-Nachwuchsruderinnen [Association between biological maturity, body constitution and physical fitness with performance on a rowing ergometer in elite youth female rowers]. Sportverletz Sportschaden. German. DOI 10.1055/a-1532-4597 |