Central European Journal of Sport Sciences and Medicine

ISSN: 2300-9705     eISSN: 2353-2807    OAI    DOI: 10.18276/cej.2022.1-09
CC BY-SA   Open Access   DOAJ  DOAJ

Lista wydań / Vol. 37, No. 1/2022
1,000-m Rowing Ergometer Time Trial Performance in Female and Male Collegiate Rowers

Autorzy: Oliwer Huzarski ORCID
Student Research at the Chair and Department of Functional Diagnostics and Physical Medicine, Pomeranian Medical University, Szczecin, Poland

Waldemar Pluta ORCID
Chair and Department of Functional Diagnostics and Physical Medicine, Faculty of Health Sciences, Pomeranian Medical University, Szczecin, Poland

Anna Lubkowska ORCID
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)
Cited-by (Crossref) ?:

Abstrakt

Introduction. The purpose of this study was to evaluate the time of covering a distance of 1000 m on a rowing ergometer by competitors of the Academic Sports Association of the Pomeranian Medical University and to relate the achieved results to the best results from the Polish Rowing Ergometer Academic Championships. Methods. 28 rowers were tested in the 1000 m "maximum" test (1000TM/t). In addition, correlations were sought between the time and power values obtained in the 1000 TM/t with the values of selected anthropometric indices (height and weight, body mass index BMI), hand grip strength, heart rate and body composition components (free fat mass FFM, skeletal muscle mass SMM). Results. The significant correlation between the time and power output in 1000TM/t and values of FFM, SMM, handgrip strength test as well as resting HR have been observed. Conclusion. The results obtained at 1000TM/t can be considered promising for the further training stage due to the fact that the study was conducted on a rowing ergometer under training conditions prior to a special training mesocycle shaping strength and speed, while the athletes competing at the event to which our results were related were in peak competitive performance.
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Bibliografia

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