Aerobic and anaerobic power and muscle thickness of varsity kayak paddlers.
- VernacularTitle:大学カヤック・カヌー選手の有酸素性ならびに無酸素性パワーと筋厚の特徴
- Author:
TADAO ISAKA
;
KATSUMI TAKAHASHI
- Publication Type:Journal Article
- Keywords:
kayak paddler;
aerobic power;
anaerobic power;
muscle thickness
- From:Japanese Journal of Physical Fitness and Sports Medicine
1998;47(3):295-303
- CountryJapan
- Language:Japanese
-
Abstract:
The purpose of this study was to clarify the characteristics of the ability of aerobic and anaerobic power output and the muscle thickness at each site of varsity kayak paddlers. Twenty-three male kayak paddlers who divided into skilled and unskilled group by their career participated in this study. Maximal oxygen uptake as a measure of aerobic power was determined with a progressive arm cranking exercise. Four all-out ergometer work tests lasting 7 and 40 seconds were used to estimate anaerobic alactic power and anaerobic lactic power with leg (pedaling) and arm (cranking) exercises. Anaerobic alactic power (AAP) was computed as the highest power output during 7 seconds and anaerobic lactic power (ALP) was obtained as the mean power output during 40 seconds. Muscle thickness were measured by B-mode ultrasonography at 11 sites on the body. Maximal oxygen uptake of skilled paddlers (3.501/min) was significantly higher than that of unskilled ones (2.701/min) . Similarly, there were significant differences between skilled and unskilled paddlers in AAP and ALP, especially as measured by the arm cranking exercise. The results showed that the career of arm-specific training induced the large specificity of aerobic and anaerobic power output with arm cranking mode. Muscle thickness of skilled paddlers were significantly larger than those of unskilled paddlers at sites on the biceps, abdomen, back muscles, quadriceps and hamstrings, and these strongly correlated with aerobic and anaerobic power output. It is suggested that for the improvement in power output it was necessary to train the muscles of trunk and thigh, and have a specific exercise mode.