THE EFFECT OF EXERCISE INTENSITY AND DURATION ON THE OXYGEN DEFICIT AND EXCESS POSTEXERCISE OXYGEN-CONSUMPTION

被引:85
作者
GORE, CJ [1 ]
WITHERS, RT [1 ]
机构
[1] FLINDERS UNIV,SCH EDUC,EXERCISE PHYSIOL LAB,BEDFORD PK,SA 5042,AUSTRALIA
来源
EUROPEAN JOURNAL OF APPLIED PHYSIOLOGY AND OCCUPATIONAL PHYSIOLOGY | 1990年 / 60卷 / 03期
关键词
Excess post-exercise O[!sub]2[!/sub] consumption; O[!sub]2[!/sub] deficit; Submaximal exercise;
D O I
10.1007/BF00839153
中图分类号
Q4 [生理学];
学科分类号
071003 ;
摘要
Nine males with mean maximal oxygen consumption ( {Mathematical expression}) =63.0 ml· kg-1 · min-1, SD 5.7 and mean body fat = 10.6%, SD 3.1 each completed nine counterbalanced treatments comprising 20, 50 and 80 min of treadmill exercise at 30, 50 and 70% {Mathematical expression}. The OZ deficit, 8 h excess post-exercise oxygen consumption (EPOC) and EPOC:O2 deficit ratio were calculated for all subjects relative to mean values obtained from 2 control days each lasting 9.3 h. The O2 deficit, which was essentially independent of exercise duration, increased significantly (P<0.05) with intensity such that the overall mean values for the three 30%, 50% and 70% {Mathematical expression} workloads were 0.83, 1.89 and 3.09 l, respectively. While there were no significant differences (P>0.05) between the three EPOCs after walking at 30% {Mathematical expression} for 20 (1.01 l), 50 (1.43 l) and 80 min (1.041), respectively, the EPOC thereafter increased (P<0.05) with both intensity and duration such that the increments were much greater for the three 70% {Mathematical expression} workloads (EPOC: 20 min=5.68 l; 50 min=10.04 l; 80 min= 14.59 l) than for the three 50% {Mathematical expression} workload (EPOC: 20 min =3.14 l; 50 min=5.19 l; 80 min= 6.10 l). An analysis of variance indicated that exercise intensity was the major determinant of the EPOC since it explained five times more of the EPOC variance than either exercise duration or the intensity times duration interaction. The mean EPOC:O2 deficit ratio ranged from 0.8 to 4.5 and generally increased with both exercise intensity and duration. These data imply that the EPOC is more than mere repayment of the O2 deficit because metabolism is increasingly disturbed from resting levels as exercise intensity and duration increase due to other physiological factors occurring after the steady-state has been attained. © 1990 Springer-Verlag.
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页码:169 / 174
页数:6
相关论文
共 30 条
[2]   AEROBIC RECOVERY AFTER ANAEROBIOSIS IN REST AND WORK [J].
ASMUSSEN, E .
ACTA PHYSIOLOGICA SCANDINAVICA, 1946, 11 (2-3) :197-210
[3]   EFFECT OF DURATION OF EXERCISE ON EXCESS POSTEXERCISE O-2 CONSUMPTION [J].
BAHR, R ;
INGNES, I ;
VAAGE, O ;
SEJERSTED, OM ;
NEWSHOLME, EA .
JOURNAL OF APPLIED PHYSIOLOGY, 1987, 62 (02) :485-490
[4]  
BANG O, 1936, SKAND ARCH PHYSL S10, V74, P49
[5]   MUSCLE METABOLISM DURING EXERCISE WITH CONCENTRIC AND ECCENTRIC CONTRACTIONS [J].
BONDEPETERSEN, F ;
KNUTTGEN, HG ;
HENRIKSSON, J .
JOURNAL OF APPLIED PHYSIOLOGY, 1972, 33 (06) :792-+
[6]  
BREHM BA, 1986, MED SCI SPORT EXER, V18, P205
[7]   OXYGEN-UPTAKE TRANSIENTS AT ONSET AND OFFSET OF ARM AND LEG WORK [J].
CERRETELLI, P ;
SHINDELL, D ;
PENDERGAST, DP ;
DIPRAMPERO, PE ;
RENNIE, DW .
RESPIRATION PHYSIOLOGY, 1977, 30 (1-2) :81-97
[8]  
Chad K.E., 1985, AUST J SCI MED SPORT, V17, P14
[9]  
CHRISTENSEN EH, 1950, INT Z ANGEW PHYSIOL, V14, P251
[10]  
CONSOLAZIO CF, 1963, PHYSL MEASUREMENTS M, P47