Litcius/Paper detail

Predicting the 2000‐m Rowing Ergometer Performance from Anthropometric, Maximal Oxygen Uptake and 60‐s Mean Power Variables in National Level Young Rowers

Dario Cerasola, Marianna Bellafiore, Angelo Cataldo, Daniele Zangla, Antonino Bianco, Patrizia Proia, Marcello Traina, Antonio Palma, Laura Capranica

2020Journal of Human Kinetics34 citationsDOIOpen Access PDF

Abstract

Abstract Many studies reported various relationships between 2000-m rowing performance and anthropometric as well as metabolic variables, however, little is known about 60-s mean power in elite youth athletes. The aim of this study was to develop different regression models to predict 2000-m rowing indoor performance time (t 2000 ) using anthropometric variables, maximal oxygen uptake (VO 2max ) and mean power established during a 60-s all-out test (W 60 ) in national elite youth rowers. Fifteen youth male Italian rowers (age: 15.7 ± 2.0 years; body height: 176.0 ± 8.0 cm; body mass: 71.2 ± 10.0 kg) performed an incremental maximal test, a 60-s all-out test and a 2000-m race simulation using a Concept2 rowing ergometer to assess VO 2max , W 60 and t 2000 , respectively. The relationships of all variables with t 2000 were investigated through Pearson’s correlation. Multiple regression analyses were used to verify the best prediction model of 2000-m indoor rowing performance. The reliability of these models was expressed by R 2 and the standard error of estimate. The results showed that t2000 was significantly correlated with all the examined variables, except for VO 2max /body mass and age, and exhibited the significantly highest relationship with W 60 (r = -0.943). The combination of anthropometric, VO 2max and W 60 variables was found to be the most reliable equation to predict t 2000 (R2 = 0.94, SEE = 6.4). W 60 measure should be considered when monitoring the rower’s capability to perform high-intensity phases, important during the race’s fast start and end. Not requiring expensive equipment and long duration, a 60-s all-out test could be considered a valuable tool for predicting 2000-m performance of elite youth rowers.

Topics & Concepts

RowingAnthropometryVO2 maxMathematicsStatisticsStepwise regressionRegression analysisLinear regressionAnimal scienceMedicinePhysical therapyInternal medicineBiologyHeart rateGeographyBlood pressureArchaeologySports Performance and TrainingCardiovascular and exercise physiologyMuscle activation and electromyography studies
Predicting the 2000‐m Rowing Ergometer Performance from Anthropometric, Maximal Oxygen Uptake and 60‐s Mean Power Variables in National Level Young Rowers | Litcius