Search Results - Rowing Stronger

Kleshnev, V. “…However, uneven forces would "tip" the boat on the weaker side at high pitch and on the stronger side at low pitch. 4. Rowers may intentionally use a controlled boat roll during the drive, e.g., to overcome asymmetry in sculling. …”

Yao, Z.-F., Sligte, I. G., Ridderinkhof, R. “…Importantly, task-related BOLD responses suggested that Olympic closed-skill team athletes show stronger recruitment of brain areas that emphasize relatively stable task demands and weaker engagement of brain areas that emphasize rapidly changing demands imposed by extraneous Conclusion Functional brain imaging data suggest elite closed-skill athletes may employ different cognitive strategies.…”

Ruth, W. Collective title: “…Rowing Stronger…”

Suszter, L., Barthalos, I., Fügedi, B., Ihász, F. “…The correlation between body weight (BW) and performance is stronger in both groups. In our study, the differences between the sexes are clear, considering all groups, we can observe the tendency that the increasing value of STJ means also increasing of maximum (W5 strokes) and average power (W100m), and we found a relationship between anthropometrical characteristics and performance already in adolescence. …”

Everett, K. L., Chapman, D. W., Mitchell, J. A., Ball, N. “…Twenty highly trained rowers completed regular training (on-water rowing, rowing ergometer, and resistance training sessions) in 2 consecutive mesocycles. …”

Haraldsdottir, K., Sanfilippo, J., Dawes, S., Watson, A. “…Among female collegiate rowers, whole body LBM is a significant predictor of both Vo2max and Tmax. However, LLM is a stronger predictor of Vo2max while TLM is a stronger predictor Tmax, although each of these relationships has a low coefficient of determination. …”

Degens, H., Stasiulis, A., Skurvydas, A., Statkeviciene, B., Venckunas, T.

Talsnes, R. K., van den Tillaar, R., Cai, C.-X., Sandbakk, O.

Sherman, S. R., Esco, M. R., Fedewa, M. V., MacDonald, H. V., Freeborn, T. “…CONCLUSIONS: Ultra-short RMSSD can be measured immediately upon waking or prior to practice, however assessing HRV immediately upon waking yielded stronger correlations with performance.…”

Kleshnev, V.

Tran, J., Rice, A. J., Main, L. C., Gastin, P. B. “…Elite rowers complete rowing-specific and non-specific training, incorporating continuous and interval-like efforts spanning the intensity spectrum. …”

Jurisic, D., Donadic, Z., Lozovina, M. “…There is a stronger correlation between the rowing velocity at anaerobic threshold and the rowing simulator result at 2000m (r = 0,72) than between the VO2max and the rowing simulator result at 2000m (r = -0,55). …”

Lutfullin, I., Kim, Z., Bilalova, R., Tsibulkin, N., Almetova, R., Mudarisova, R., Ahmetov, I.

Christensen, P., Fritzdorf, S. W., Bangsbo, J. “…ANA power (100-m max) and capacity (Lac & 1-min max) were not correlated with any measure of AER power (VO2 max) or capacity (6000m & 60min max rowing). ANA power and capacity determined as 100-m and 1-min max rowing respectively were correlated with 2000-m performance (r2=0.29 & 0.43), and the 1 min max test actually showed a stronger relationship to 2000-m performance than VO2 max (r2=0.34). …”

Cieszczyk, P., Eider, J., Ostanek, M., Leonska-Duniec, A., Ficek, K., Kotarska, K., Girdauskas, G.

Huntsman, H. D., DiPietro, L., Drury, D. G., Miller, T. A. “…With slight modifications to the testing protocol, stronger correlations and a more accurate prediction of Vo2max is expected in men.…”

Lawton, T. W., Cronin, J. B., McGuigan, M. R. “…The reliability of maximal strength and power tests involving leg extension (e.g. leg pressing) and arm pulling (e.g. prone bench pull) was high (intra-class correlations 0.82-0.99), revealing that elite rowers were significantly stronger than their less competitive peers. The greater strength of elite rowers was in part attributed to the correlation between strength and greater lean body mass (r = 0.57-0.63). …”

Matsin, T., Alaver, M., Lemberg, H. “…DISCUSSION: As it is widely assumed, in endurance training the main factors of additional effect in middle altitude conditions (training at levels of 1,500 — 3,000 m above sea level) is first of all hypoxia, or reduced oxygen in the inhaled air resulting from lower athmospheric pressure (at the height of 2,000 m there is nearly 25% less oxygen in the air reaching the lungs thanat sea level), Besides hypocapnia, stronger UV-radiation, air ionization level, lower athmospheric humidity, and temperature also have to be considered. …”

Seiler, S. “…Part of this increase is a result of recruitment of athletes from a population that has become taller and stronger. However, the increase in boat speed attributable to increased physical dimensions alone accounts for less than 10% of the total improvement, because the increase in rower mass has increased boat drag. …”

Vinther, A., Kanstrup, I.-L., Christiansen, E., Alkjær, T., Larsson, B., Magnusson, S. P., Ekdahl, C., Aagaard, P. “…In addition, the RSF subjects showed a lower knee-extension to elbow-flexion strength ratio (RSF: 4.2±0.22, 4.3 (3.5-5.1) vs C: 4.8±0.16, 5.0 (4.2-5.3) P=0.043), indicating stronger arms relative to legs compared with controls. …”