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dc.contributor.authorIngham, Stephen A.
dc.contributor.authorWhyte, Gregory P.
dc.contributor.authorJones, K.
dc.contributor.authorNevill, Alan M.
dc.date.accessioned2011-04-01T14:08:21Z
dc.date.available2011-04-01T14:08:21Z
dc.date.issued2002
dc.identifier.citationEuropean Journal of Applied Physiology, 88 (3):243-246
dc.identifier.issn1439-6319
dc.identifier.doi10.1007/s00421-002-0699-9
dc.identifier.urihttp://hdl.handle.net/2436/126805
dc.description.abstractThis study examined the physiological determinants of performance during rowing over 2,000 m on an ergometer in finalists from World Championship rowing or sculling competitions from all categories of competion rowing (19 male and 13 female heavyweight, 4 male and 5 female lightweight). Discontinuous incremental rowing to exhaustion established the blood lactate threshold, maximum oxygen consumption (VO2max)and power at VO2max; five maximal strokes assessed maximal force, maximal power and stroke length. These results were compared to maximal speed during a 2,000 m ergometer time trial. The strongest correlations were for power at VO2max, maximal power and maximal force (r=0.95; P<0.001). Correlations were also observed for VO2max (r=0.88, P<0.001) and oxygen consumption (VO2) at the blood lactate threshold (r=0.87, P=0.001). The physiological variables were included in a stepwise regression analysis to predict performance speed (metres per second). The resultant model included power at VO2max, VO2 at the blood lactate threshold, power at the 4 mmolÆl–1 concentration of blood lactate and maximal power which together explained 98% of the variance in the rowing performance over 2,000 m on an ergometer. The model was validated in 18 elite rowers, producing limits of agreement from –0.006 to 0.098 mÆs–1 for speed of rowing over 2,000 m on the ergometer, equivalent to times of – 1.5 to 6.9 s (–0.41% to 1.85%). Together, power at VO2max, VO2 at the blood lactate threshold, power at 4 mmolÆl–1 blood lactate concentration and maximal power could be used to predict rowing performance.
dc.language.isoen
dc.publisherSpringer-Verlag
dc.relation.urlhttp://www.springerlink.com/openurl.asp?genre=article&id=doi:10.1007/s00421-002-0699-9
dc.subjectPerformance determination
dc.subjectElite rowing
dc.subjectAnaerobic
dc.subjectAerobic
dc.titleDeterminants of 2,000 m rowing ergometer performance in elite rowers
dc.typeJournal article
dc.identifier.journalEuropean Journal of Applied Physiology
html.description.abstractThis study examined the physiological determinants of performance during rowing over 2,000 m on an ergometer in finalists from World Championship rowing or sculling competitions from all categories of competion rowing (19 male and 13 female heavyweight, 4 male and 5 female lightweight). Discontinuous incremental rowing to exhaustion established the blood lactate threshold, maximum oxygen consumption (VO2max)and power at VO2max; five maximal strokes assessed maximal force, maximal power and stroke length. These results were compared to maximal speed during a 2,000 m ergometer time trial. The strongest correlations were for power at VO2max, maximal power and maximal force (r=0.95; P<0.001). Correlations were also observed for VO2max (r=0.88, P<0.001) and oxygen consumption (VO2) at the blood lactate threshold (r=0.87, P=0.001). The physiological variables were included in a stepwise regression analysis to predict performance speed (metres per second). The resultant model included power at VO2max, VO2 at the blood lactate threshold, power at the 4 mmolÆl–1 concentration of blood lactate and maximal power which together explained 98% of the variance in the rowing performance over 2,000 m on an ergometer. The model was validated in 18 elite rowers, producing limits of agreement from –0.006 to 0.098 mÆs–1 for speed of rowing over 2,000 m on the ergometer, equivalent to times of – 1.5 to 6.9 s (–0.41% to 1.85%). Together, power at VO2max, VO2 at the blood lactate threshold, power at 4 mmolÆl–1 blood lactate concentration and maximal power could be used to predict rowing performance.


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