Chinese Compilation of Physical Activities in healthy adults aged 18-64: Categories and metabolic intensities

Junqiang Qiu, Junchao Yang, Mingyue Lu, Yuyang Chen, Yanping Yang, Wei Cao, Kun Meng, Yan Chen, Jun Zhang, Chunyan Xu, Longyan Yi, Xian Guo, Yang Wang, Xiaolei Liu, Yi Yan, Hanjun Li, Qin Zhuo, Wenhua Zhao, Lianshi Feng, Barbara E. Ainsworth

Sports Medicine and Health Science ›› 2022, Vol. 4 ›› Issue (3) : 160-171. DOI: 10.1016/j.smhs.2022.06.004
Original article

Chinese Compilation of Physical Activities in healthy adults aged 18-64: Categories and metabolic intensities

Author information +
History +

Abstract

A Chinese Compilation of Physical Activities was compiled to estimate the energy costs of physical activities (PAs) using data on adults aged 18-64. Data were obtained from published articles and laboratory measurements. Databases, including PubMed, Embase, Scopus, Ebsco, Web of Science, Chinese National Knowledge Infrastructure, Wan Fang Data, National Science and Technology Report Service, Public Health Scientific Data were searched to collect data from inception to January 2022, on energy expenditure associated with PA in the healthy Chinese population. Two reviewers independently screened the literature and extracted, classified, and summarized data. Data were measured for 36 PAs using indirect calorimetry. Detailed descriptions of specific activities and metabolic equivalent values were provided by summarizing 241 physical activities in 13 categories. The first edition of the Chinese Compilation of PAs in Healthy Adults Aged 18-64(CCPA) was created. It provides valuable resources for people who regularly engage in physical exercise, researchers, educators, fitness professionals, and health or commercial sectors to quickly obtain various PA MET intensities. In the future, the energy expenditure of various PAs of different ages within the Chinese population can be measured based on the CCPA.

Keywords

Compendium of physical activity / Healthy Chinese adults / Energy cost / Metabolic equivalent

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾
Junqiang Qiu, Junchao Yang, Mingyue Lu, Yuyang Chen, Yanping Yang, Wei Cao, Kun Meng, Yan Chen, Jun Zhang, Chunyan Xu, Longyan Yi, Xian Guo, Yang Wang, Xiaolei Liu, Yi Yan, Hanjun Li, Qin Zhuo, Wenhua Zhao, Lianshi Feng, Barbara E. Ainsworth. Chinese Compilation of Physical Activities in healthy adults aged 18-64: Categories and metabolic intensities. Sports Medicine and Health Science, 2022, 4(3): 160‒171 https://doi.org/10.1016/j.smhs.2022.06.004

References

Publishing order | Descend order by publishing year | Descend order by cited within
[[1]]
World Health Organization. WHO Guidelines on Physical Activity and Sedentary Behaviour: At a Glance. WHO ( 2020). Accessed April 15, 2022. int/publications/i/item/9789240014886
[[2]]
R. Guthold, G.A. Stevens, L.M. Riley, F.C. Bull. Worldwide trends in insufficient physical activity from 2001 to 2016: a pooled analysis of 358 population-based surveys with 1.9 million participants. Lancet Global Health, 6 (10) ( 2018), pp. e1077-e1086, DOI: 10.1016/s2214-109x(18)30357-7
[[3]]
J. Qiu, Y. Chen, Y. Xie, L. Feng, D. Luo, W. Zhao. Exercise for health:A review and outlook based on the energy balance theory. J Beijing Sport Univ, 44 (5) ( 2021), pp. 2-20, DOI: 10.19582/j.cnki.11-3785/g8.2021.05.001
[[4]]
F.C. Bull, S.S. Al-Ansari, S. Biddle, et al.. World Health Organization 2020 guidelines on physical activity and sedentary behaviour. Br J Sports Med, 54 (24) ( 2020), pp. 1451-1462, DOI: 10.1136/bjsports-2020-102955
[[5]]
C.J. Caspersen, M.E. Powell, G.M. Christenson. Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research. Publ Health Rep, 100 (2) ( 1985), pp. 126-131, DOI: 10.2307/20056429
[[6]]
Composing and Editorial Board of Physical Activity Guidelines for Chinese. Physical Activity Guidelines For Chinese ( 2021). People's medical publishing house ( 2021)
[[7]]
B.E. Ainsworth, W.L. Haskell, A.S. Leon, D.R. Jacobs, H.J. Montoye. Compendium of physical activities: classification of energy costs of human physical activities. Med Sci Sports Exerc, 25 (1) ( 1993), pp. 71-80, DOI: 10.1249/00005768-199301000-00011
[[8]]
B.E. Ainsworth, W.L. Haskell, M.C. Whitt, et al.. Compendium of physical activities: an update of activity codes and MET intensities. Med Sci Sports Exerc, 32 (9 Suppl) ( 2000), pp. S498-S504, DOI: 10.1097/00005768-200009001-00009
[[9]]
B.E. Ainsworth, W.L. Haskell, S.D. Herrmann, M.R. Nathanael. Compendium of physical activities: a second update of codes and MET values. 2011. Med Sci Sports Exerc, 43 (8) ( 2011), pp. 1575-1581, DOI: 10.1249/MSS.0b013e31821ece12
[[10]]
H. Wang, C. Jiang, X. Liu, Z. He, L. Xu, J. Li. Walking energy expenditure and recommendation in Chinese adults. Chin Sport Sci, 33 (11) ( 2013), pp. 89-93, DOI: 10.3969/j.issn.1000-677X.2013.11.011
[[11]]
General Administration of Sport of China. The Energy Consumption of Exercise and Fitness. People's Sports Press ( 2013)
[[12]]
Chinese Nutrition Society.Chinese Dietary Guidelines. People's Medical Publishing House ( 2016)
[[13]]
C. Jiang, H. Wang, Y. Zhang, D. Wu. A Study on the Establishment of the Energy Expenditure Norm of Physical Activity and Physical Exercise in China. General Administration of Sport of China ( 2013). Accessed April 15, 2022.
[[14]]
A.P. Hills, N. Mokhtar, N.M. Byrne. Assessment of physical activity and energy expenditure: an overview of objective measures. Front Nutr, 1 (5) ( 2014), pp. 1-16, DOI: 10.3389/fnut.2014.00005
[[15]]
W.M. Ip, J. Woo, S.Y. Yue, et al.. Evaluation of the effect of energy conservation techniques in the performance of activity of daily living tasks. Clin Rehabil, 20 (3) ( 2006), pp. 254-261, DOI: 10.1191/0269215506cr908oa
[[16]]
J. Hong, S. Chen, Y. Liu. Compendium of physical activities: content, application and development. J Shanghai Univ Sport, 44 (9) ( 2020), pp. 53-63, DOI: 10.16099/j.sus.2020.09.006
[[17]]
J. Qiu, Q. Zhuo, Y. Yan, W. Cao. Report of Based on the Principle of Energy Balance, the Chinese Exercise Energy Consumption Benchmark and Fitness Guidance Program. ( 2019)
[[18]]
K.L. Piercy, R.P. Troiano, R.M. Ballard, et al.. The physical activity guidelines for Americans. JAMA, 320 (19) ( 2018), pp. 2020-2028, DOI: 10.1001/jama.2018.14854
[[19]]
M. Brandes, B. Steenbock, N. Wirsik. Energy cost of common physical activities in preschoolers. J Phys Activ Health, 15 (4) ( 2018), pp. 233-238, DOI: 10.1123/jpah.2017-0348
[[20]]
M.R. Puyau, A.L. Adolph, Y. Liu, T.A. Wilson, I.F. Zakeri, N.F. Butte. Energy cost of activities in preschool-aged children. J Phys Activ Health, 13 (6 Suppl 1) ( 2016), pp. S11-S16, DOI: 10.1123/jpah.2015-0711
[[21]]
N.F. Butte, K.B. Watson, K. Ridley, et al.. A youth compendium of physical activities: activity codes and metabolic intensities. Med Sci Sports Exerc, 50 (2) ( 2018), pp. 246-256, DOI: 10.1249/MSS.0000000000001430
[[22]]
S.A. Conger, D.R. Bassett. A compendium of energy costs of physical activities for individuals who use manual wheelchairs. Adapt Phys Act Q, 28 ( 2011) ( 2011), pp. 310-325, DOI: 10.1123/apaq.28.4.310
[[23]]
W.L. Kenney, J.H. Wilmore, D.L. Costill. Physiology of Sport and Exercise. (seventh ed.), Human Kinetics ( 2020)
[[24]]
B.E. Ainsworth, K.B. Watson, K. Ridley, et al.. Utility of the youth compendium of physical activities. Res Q Exerc Sport, 89 (3) ( 2018), pp. 273-281, DOI: 10.1080/02701367.2018.1487754
[[25]]
X. Ji, J. Tan, J. An. Energy Consumption Characteristics of Middle-Aged and Elderly Women Performing Out of the Mountain Square Dance. Sian ( 2018)
[[26]]
J. Qiu, Q. Zhuo, Y. Yan, L. Yi. National Key R&D Program of China: Based on the Principle of Energy Balance, the Chinese Exercise Energy Consumption Benchmark and Fitness Guidance Program. School of Sport Science, Beijing Sport University ( 2018). Unpublished Data
[[27]]
X. Chen, J. Tan. A Study on the Energy Consumption Characteristics of Middle-Aged and Elderly Women in Square Dancing Exercise - A Case Study of "Standing on the Grassland and Looking at Beijing". Sian ( 2018)
[[28]]
Y. Lv, Y. Zhou. Energy consumption and substrate metabolism of square dancing and brisk walking in middle-aged and elderly women. Zhejiang Sport Sci, 42 (5) ( 2020), pp. 99-103. https://doi.org/1004-3624(2020)05-0099-05
[[29]]
W. Rao. Research on energy consumption of young people's daily physical activity measuring by smart phone. Zhejiang Sport Sci, 41 (3) ( 2019), pp. 107-112. https://doi.org/1004-3624(2019)03-0107-06
[[30]]
H. Liu. College Students in the Movement of the Athletes in Different Parts of the Body Acceleration of Change and the Relationship between Energy Expenditure Research.Master’s Thesis. Capital University of Physical Education and Sports ( 2018). Accessed April 15, 2022.
[[31]]
L. Zhang.A Comparative Study on the Characteristics of the Energy Consumption of the Routine and the Different Speed of the Latin Dance Silver. Master’s Thesis. Guangzhou Sport University ( 2020). Accessed April 15, 2022.
[[32]]
R. Hughes, M. Giles. CRiT walking in higher education: activating critical race theory in the academy. Race Ethn Educ, 13 (1) ( 2010), pp. 41-57, DOI: 10.1080/13613320903549685
[[33]]
J. Qu, F. Zeng, W. Feng, X. Li. The difference of energy consumption between high temperature and humidity environment and normal temperature environment. Chin J Sports Med, 34 (2) ( 2015), pp. 164-169, DOI: 10.16038/j.1000-6710.2015.02.011
[[34]]
X. Yin, Q. Lu, X. Guo, F. Hu. Changes of cardiopulmonary function and blood lactic acid in military cadets at 1 km with different weights. Chin J Appl Physiol, 32 (4) ( 2016), pp. 323-325, DOI: 10.13459/j.cnki.cjap.2016.04.009
[[35]]
R. Sun, J.H. Piao, Y. Tian. A study of 30 young women's energy expenditure while watching television and reading books. Chin J Prev Med, 42 (3) ( 2008), pp. 196-198, DOI: 10.3321/j.issn:0253-9624.2008.03.012
[[36]]
L. Ma. Development of Prediction Models for Activity Energy Expenditure Using Wrist-Worn ActiGraph GT3X+ in Adults.Master’s Thesis. Shanghai Sport University ( 2019). Accessed April 15, 2022.
[[37]]
J. Dai, J. Li, Z. Gu, B. Sun. The calculation on energy expenditure of walking and daily physical activity. Chin Sport Sci, 26 (11) ( 2006), pp. 91-95, DOI: 10.16469/j.css.2006.11.017
[[38]]
H. Wang, C. Jiang, X. Liu. Walking energy expenditureand recommendation in Chinese adults. Chin Sport Sci, 33 (11) ( 2013), pp. 89-93, DOI: 10.16469/j.css.2013.11.012
[[39]]
L. Wang.Validity of Three Axis Accelerometer (Hip and Wrist) in Physical Activity Monitoring. Master’s Thesis. Guangzhou Sport University ( 2018). Accessed April 15, 2022.
[[40]]
J. Liu. Effect Of the Circadian Rhythm on Relevant Indicators of Energy Metabolism during Walking and Jogging.Master’s Thesis. Shandong Sport University ( 2018). Accessed April 15, 2022.
[[41]]
H. Wang, Y.F. Zhang, L.L. Xu, C.M. Jiang. Step rate-determined walking intensity and walking recommendation in Chinese young adults: a cross-sectional study. BMJ Open, 3 (1) ( 2013), Article e001801, DOI: 10.1136/bmjopen-2012-001801
[[42]]
F. Wang, W. Xing, S. Zhou. Establishment of energy expenditure assessment model for middle- aged people' s fitness walking and running. J Beijing Sport Univ, 42 (5) ( 2019), pp. 150-156, DOI: 10.19582/j.cnki.11-3785/g8.2019.05.016
[[43]]
H. Xie. A Study on the Optimal Wearing Location of a Tri-axialaccelerometer at Different Speeds.Master’s Thesis. Southwest University ( 2019). Accessed April 15, 2022.
[[44]]
D. Nie, Q. Liu, D. Mao, J. Ni. Energy expenditure and physical activity efficiency of college students during different physical activities. Chin J Sports Med, 31 (3) ( 2012), pp. 193-197, DOI: 10.16038/j.1000-6710.2012.03.011
[[45]]
P. Guan, N. Ding, Q. Tang. Application of three dimensional acceleration counts in energy consumption estimation of asynchronous velocity. Shandong Sports Sci Technol, 35 (1) ( 2013), pp. 72-75, DOI: 10.14105/j.cnki.1009-9840.2013.01.011
[[46]]
B. Sun, Y. Liu, H. Li. Research on relationship between energy consumption and velocity about treadmill walking and running. Chin Sport Sci, 32 (9) ( 2012), pp. 17-22, DOI: 10.16469/jcss.2012.09.004
[[47]]
W. Lv, X. Chen. A comparative study on the energy consumption of female college students' Miao's Drum playing and fast walking. Sports Res Ed, 33 (3) ( 2018), pp. 89-92, DOI: 10.16207/j.cnki.2095-235x.2018.03.020
[[48]]
P. Guan, N. Ding, Q. Tang. A preliminary study on the relationship between three dimensional acceleration Count and energy consumption in walking and jogging. J Nanjing Inst Phys Educ (Natl Sci), 10 (6) ( 2011), pp. 7-10, DOI: 10.15877/j.cnki.nsin.2011.06.001
[[49]]
J. Xu, C. Ma, Y. Qian. An experimental research on the index of air metabolism testing the energy consumption in walking. Liaoning Sport Sci Technol, 32 (3) ( 2010), pp. 35-37, DOI: 10.13940/j.cnki.Intykj.2010.03.017
[[50]]
Z. Guo, S. Tan.Effect of 12-week advanced weight loss exercise on cardiopulmonary function in obese young men. Tianjin J Phys Educ, 36 (4) ( 2021), pp. 490-496, DOI: 10.13297/j.cnki.issn1005-0000.2021.04.018
[[51]]
S.S. Hui, J. Woo, T. Kwok. Evaluation of energy expenditure and cardiovascular health effects from Tai Chi and walking exercise. Article. Hong Kong Med J., 15 (Suppl 2) ( 2009), pp. 4-7
[[52]]
X. Chen, K. Li. The characteristics and metabolic equivalents during walking and running among Chinese adults: a pilot study. J Nutr, 32 (5) ( 2010), pp. 433-437, DOI: 10.13325/j.cnki.acta.nutr.sin.2010.05.029
[[53]]
L. Zhou, Y. He, L. Zhang.Study on the effect of walking frequency on energy consumption and exercise intensity of middle-aged people. Sport Science Presented at: 11th National Sports Science Congress; Nanjing ( 2019). Accessed April 15, 2022.
[[54]]
D. Wu, K. Xu, Z. Tu. Study of energy expenditure during climbing zijin mountain at different speeds. J Nanjing Inst Phys Educ (Natl Sci), 11 (6) ( 2012), pp. 31-33. https://doi.org/1671-5950(2012)106-0031-03
[[55]]
Q. Sun, B. Sun. Analysis and research on energy expenditure of different speed climbing Purple Mountain in Naniing city as an example. J Nanjing Sport Inst (Nat Sci)., 13 (3) ( 2014), pp. 25-29, DOI: 10.15877/j.cnki.nsin.2014.03.019
[[56]]
Y.Z. Yu, S.M. Lu. The acceptable load while marching at a speed of 5 km h-1 for young Chinese males. Ergonomics, 33 (7) ( 1990), pp. 885-890, DOI: 10.1080/00140139008925296
[[57]]
J. Ma, W. Li, H. Wei, D. Tian. Changes in energy consumption of soldiers marching 1 km with 25 kg load at different speeds. Chin J Appl Physiol, 31 (3) ( 2015), pp. 275-277, DOI: 10.13459/j.cnki.cjap.2015.03.022
[[58]]
H. Guo, J. Sun, Y. Zhang. Comparison of cardiopulmonary exercise test and 6 minutes up and down stairs test in 74 healthy young volunteers. Shandong Med, 56 (23) ( 2016), pp. 52-54, DOI: 10.3969/j.issn.1002-266X.2016.23.017
[[59]]
L. Yuan, Y. Song, X. Liu. Measurement of energy consumption in the different weight crowd climbing stairs process. Chin Sport Sci Technol, 48 (3) ( 2012), pp. 104-107. https://doi.org/1002-9826(2012)03-0104-04
[[60]]
L. Qiu. The Study of the Characteristics of Energy Expenditure of Climbing Stairs with Load in Young Men. Master’s Thesis. Beijing Sport University ( 2018). Accessed April 15, 2022.
[[61]]
Z. Huang, H. Dai, Y. Shen. Study on the feasibility of using climbing stairs as fitness exercises in the hazy weather. J Guangzhou Sport Univ, 35 (4) ( 2015), pp. 31-34, DOI: 10.13830/j.cnki.cn44-1129/g8.2015.04.010
[[62]]
C. Chang, K. Lin, C. Ho, C. Huang. Accuracy of the energy expenditure during uphill exercise measured by the Waist-worn ActiGraph. J Exerc Sci Fit, 17 (2) ( 2019), pp. 62-66, DOI: 10.1016/j.jesf.2019.01.003
[[63]]
A.S. Yue, J. Woo, K.W. Ip, C.M. Sum, T. Kwok, S.S. Hui. Effect of age and gender on energy expenditure in common activities of daily living in a Chinese population. Disabil Rehabil, 29 (2) ( 2007), pp. 91-96, DOI: 10.1080/09638280600662232
[[64]]
B. Li, X. Wang, W. Yang. Energy supply characteristics of 500 m,1 000 m and 1 500 m simulated games for young speed skaters. J Chengdu Sport Univ, 47 (5) ( 2021), pp. 18-23, DOI: 10.15942/j.jcsu.2021.05.004
[[65]]
H.J. Goh, P. Govindharajulu, S.G. Camps, S.Y. Tan, C.J. Henry. Gross and relative energy cost of domestic household activities in Asian men. Eur J Clin Nutr, 70 (12) ( 2016), pp. 1414-1419, DOI: 10.1038/ejcn.2016.134
[[66]]
L. Jin, Q. Xue, R. Li, Y. Tian. Comparative study on energy consumption characteristics of 9th Set of Baduanjin broadcast Gymnastics. Chin J Sports Med, 34 (6) ( 2015), pp. 588-591, DOI: 10.16038/j.1000-6710.2015.06.013
[[67]]
X. Zhao. On energy metabolism of the ninth set of radio gymnastics. J Anhui Sports Sci, 35 (4) ( 2014), pp. 58-61, DOI: 10.3969/j.issn.1008-7761.2014.04.018
[[68]]
L. Jin, Q. Xue, R. Li, Y. Tian. Research on energy consumption during the 9th edition of broadcasting gymnastics exercise. Chin Sport Sci Technol, 50 (4) ( 2014), pp. 69-76, DOI: 10.16470/j.csst.2014.04.001
[[69]]
T. Chen. An experimental study on the participation of female college students in mass aerobics :Take south China normal university as an example. J Cap Univ Phys Educ Sports, 30 (6) ( 2018), pp. 557-576, DOI: 10.14036/j.cnki.cn11-4513.2018.06.016
[[70]]
Z. Ye. Effects of Whole Body Vibration on Energy Metabolism in Different Weight Bearing Squats.Master’s Thesis. Beijing Sport University ( 2019). Accessed April 15, 2022. 9zsw3UeEb39H8OD5kgAaakAzYRp3K89bE3kUTJD1YnYptc8rqmrtS4TsiL8lud52
[[71]]
C. Li, S. Shi. Calculation of energy consumption of two strength load resistance training of healthy young men. Chin J Sports Med, 38 (5) ( 2019), pp. 364-371, DOI: 10.16038/j.1000-6710.2019.05.005
[[72]]
Y. Shao, X. Xu, J. Ge. Study on energy metabolism of rowers. Acta Acad Med Shanghai, 14 (6) ( 1987), pp. 465-470
[[73]]
S. Lyu, J. Zhang, J. Nie, C. Li.Comparative study of physiologic characteristics between the newly compiled Bafa Wubu of tai chi and 24 form simplified tai chi. BMC Sports Sci Med Reh, 12 (1) ( 2020), pp. 1-7, DOI: 10.1186/s13102-020-00192-x
[[74]]
F. Zhang, Z. Wang. Effects of resistance training with whole body vibration on physiological response and energy expenditure. J Beijing Sport Univ, 40 (7) ( 2017), pp. 49-55, DOI: 10.19582/j.cnki.11-3785/g8.2017.07.009
[[75]]
L. Fan, X. Chen, G. An. Variation of oxygen uptake with time under different exercise intensity. Mil Med, 42 (5) ( 2018), pp. 353-355, DOI: 10.7644/j.issn.1674-9960.2018.05.008
[[76]]
J. Wang, L. Cai, X. Chen. Study on heart rate as the optimum index for evaluating physical labor intensity. Chin J Occ Dis Lab Health, 35 (3) ( 2017), pp. 196-198, DOI: 10.3760/cma.j.issn.1001-9391.2017.03.009
[[77]]
J. Shi, Z. Xie, Y. Xia. Division and control method of aerobic training load for elite male speed skaters. J Jilin Sport Univ, 37 (3) ( 2021), pp. 98-103, DOI: 10.13720/j.cnki.22-1286.2021.03.014
[[78]]
S. Wang. Effects of energy consumption of bicycle exercise with different intensity on ordinary male college students. J Anhui Sports Sci, 34 (4) ( 2013), pp. 49-51, DOI: 10.3969/j.issn.1003-1359.2013.05.021
[[79]]
D. Zhou, C. Zhou. Evaluation on energy consumption and fitness exercises effect of different exercise modes under aerobic exercise intensity. J Anhui Normal Univ (Nat Sci), 44 (2) ( 2021), pp. 197-204, DOI: 10.14182/J.cnki.1001-2443.2021.02.014
[[80]]
Y. Zhao.Research on Prediction Model of Energy Consumption of Bicycle Exercise for College Students Based on ActiGraph GT3X. Master’s Thesis. Nanjing Normal University ( 2018). Accessed April 15, 2022.
[[81]]
X. Zhu, L. Jin. The effect of 3-month fitness intervention on body components and the peak energy consumption of obese adults. Chin Sch Phys Educ, 4 (11) ( 2017), pp. 84-91. https://doi.org/1004-7662(2017)11-0084-08
[[82]]
D. Qiao, H. Lv,Gong Yun. Effect of cycling at different intensities on college students' fitness function. J Shenyang Sport Univ, 32 (6) ( 2013), pp. 82-84. https://doi.org/1004-0560(2013)06-0082-03
[[83]]
Y. Zhang, T. Wang. Energy expenditure and substrate metabolism between cycling and running at different intensities. Chin Sport Sci Technol, 45 (1) ( 2009), pp. 111-114, DOI: 10.16470/j.csst.2009.01.001
[[84]]
J. Wei. Acute Physiological Responses to Low-Intensity Cycling with Different Levels of Blood Flow Restriction.Master’s Thesis. Shanghai Sport University ( 2020). Accessed April 15, 2022.
[[85]]
P.-T. Wu, W.-L. Wu, I.H. Chu. Energy expenditure and intensity in healthy young adults during exergaming. Am J Health Behav, 39 (4) ( 2015), pp. 557-561, DOI: 10.5993/AJHB.39.4.12
[[86]]
Y. Liu. The Research about Metabolic Characteristics of Male College Students' Battle Rope Training.Master’s Thesis. Zhejiang normal University ( 2019). Accessed April 15, 2022.
[[87]]
Y. Zhou, X. He, X. Mao. Study on energy consumption and total energy metabolism of civilaviation pilots. Chin J Aer Med, 6 (4) ( 1995), pp. 218-221
[[88]]
D. Yi, L. Peng, Z. He, Y. Chen. Experimental research on energy and substrate expenditure characteristics of female college students in different forms of sports. Chin Sport Sci Technol, 51 (4) ( 2015), pp. 63-68, DOI: 10.16470/j.csst.201504009
[[89]]
H. Li. The Sequential Effect of Different Exercise on Energy Expenditure and Apelin in Young Men. Master’s Thesis. China Institute of Sport Science ( 2018). Accessed April 15, 2022.
[[90]]
J. Tao, J. Xu. Energy metabolism characteristic of intermittent running in college students. J Zhengzhou Univ (Med Sci), 49 (3) ( 2014), pp. 403-406, DOI: 10.13705/j.issn.1671-6825.2014.03.032
[[91]]
W. Gao, D. Gu, J. Lin, L. Wang. Design and validity of simplified test protocol of maximal accumulated oxygen deficit. Chin Sport Sci, 33 (2) ( 2013), pp. 69-79, DOI: 10.16469/j.css2013.02.011
[[92]]
J. Yang, O. Muradov, Y. Chen, X. Li. Reliability of predicting maximal accumulated oxygen deficit using only a single supramaximal exhaustive test. Chin J Sports Med, 40 (9) ( 2021), pp. 702-708, DOI: 10.16038/j.1000-6710.2021.09.005
[[93]]
H. Yang.Study on Energy Consumption Characteristics of Canoeists in Site Running and Treadmill Running. Master’s Thesis. Wuhan Sport University ( 2019). Accessed April 15, 2022.
[[94]]
K. Wang.A Comparative Study on Energy Consumption of Female Tennis Majors in Running and Swinging. Master’s Thesis. Wuhan Sport University ( 2019). Accessed April 15, 2022.
[[95]]
C. Jiang, S. Qiu, H. Wang, X. Mou. Comparison of treadmill and field test for energy consumption during running and walking. Chin Sport Sci, 31 (7) ( 2011), pp. 30-36, DOI: 10.16469/j.css.2011.07.006
[[96]]
G. Wang, Y. Xi, Y. Wu, H. Wen. Running economy test for Chinese young men aged 18∼23 years. Chin J Sports Med, 31 (10) ( 2012), pp. 887-891, DOI: 10.16038/j.1000-6710.2012.10.013
[[97]]
Y. Zhang. Research on energy expenditure and substrate metabolism of prolonged and interval running at moderate intensities. Chin Sport Sci Technol, 46 (6) ( 2010), pp. 115-120, DOI: 10.16470/j.csst.2010.06.002
[[98]]
X. Chen.Study on the Characteristics of Energy Metabolism in Quiet State and Moderate Intensity Exercise State with Trainer and Untrained. Master’s Thesis. Zhejiang Normal University ( 2020). Accessed April 15, 2022. IFgTwfk4F9FqhJ39VUj_HLTPI1YkUMGvoIPF2DrNJsUGmt5SINqOhvzvm1UVsXF4
[[99]]
A.Q. Yu, Q. Wang, W. Feng. Study on energy consumption characteristics of different intensities in low temperature environment. Chin J Sports Med, 37 (1) ( 2018), pp. 57-61, DOI: 10.16038/j.1000-6710.2018.01.011
[[100]]
Z. Reng. Kinetic factors that affect running economy. J Phys Educ, 17 (10) ( 2010), pp. 95-98, DOI: 10.16237/j.cnki.cn44-1404/g8.2010.10.009
[[101]]
S. Li, J. Xue, P. Hong, C. Song.Comparison of energy expenditure and substrate metabolism during overground and motorized treadmill running in Chinese middle-aged women. Sci Rep, 10 (1) ( 2020), p. 1815, DOI: 10.1038/s41598-020-58791-0
[[102]]
J. Liu, Y. Li, X. Yang. K4b∼2 cardiopulmonary function tester was used to measure the energy consumption of daily physical activity. Sci Technol Eng, 10 (5) ( 2010), pp. 1215-1218. https://doi.org/1671-1815(2010)5-1215-04
[[103]]
Z. Ren, C. Liu. A study of the retest reliability of running economy. J Phys Educ, 20 (1) ( 2013), pp. 135-138, DOI: 10.16237/j.cnki.cn44-1404/g8.2013.01.029
[[104]]
Z. Leng, L. Yu, G. Wang, Y. Wang. Comparative research on evaluating the aerobic endurance and its training effect by running economy (RE) and maximal oxygen uptake. J Shandong Inst Phys Educ Sports, 24 (1) ( 2008), pp. 47-49, DOI: 10.14104/j.cnki.1006-2076.2008.01.006
[[105]]
X. Wang.Energy Expenditure of Running with Change of Direction in Different Running Modes at 6km/h, 5m and 180°. Master’s Thesis. Shanghai Sport University ( 2021). Accessed April 15, 2022.
[[106]]
T. Fu, Y. Yang, P. Wu, G. Liu. The exploration of aerobic power and energy expenditure of Chinese rugby players. Chin J Appl Physiol, 35 (3) ( 2019), pp. 215-219, DOI: 10.12047/j.cjap.5760.2019.046
[[107]]
Y. Li, T. Li. Determination and analysis of table tennis movement energy consumption of nationwide fitness campaign. J Weinan Norm Univ, 29 (3) ( 2014), pp. 62-64, DOI: 10.15924/j.cnki.1009-5128.2014.03.012
[[108]]
Y. Li, B. Li, X. Wang, Y. Wang. Application of energy cost in evaluating energy expenditure in multi-ball practice with table tennis players. Chin J Appl Physiol, 35 (4) ( 2019), pp. 331-336, DOI: 10.12047/j.cjap.5778.2019.070
[[109]]
J. Xu. A comparative study of energy consumption of women with different weights in Ping Pong playing and floor-wiping. J Zhengzhou Norm Educ, 4 (6) ( 2015), pp. 66-68. https://doi.org/2095-3488(2015)06-0066-03
[[110]]
C. Yuan, E. Chen, J. Fan. Oxygen uptake and heart rate response of different stroke skills during tennis games. J Hebei Inst Phys Educ, 30 (4) ( 2016), pp. 83-88. https://doi.org/1008-3596(2016)04-0083-06
[[111]]
C. Yuan, Q. Chen. Research on monitoring energy consumption of tennis based on ActiGraph GT3X. J Hebei Sport Univ, 31 (4) ( 2017), pp. 83-91. https://doi.org/1008-3596(2017)04-0083-09
[[112]]
Y. Zhang, S. Li, M. Wang. Effects of Chinese adults' body mass indexes, body fat percentages, and fat free masses on energy consumption during badminton. J Sports Med Phys Fit, 58 (7-8) ( 2018), pp. 1178-1180, DOI: 10.23736/S0022-4707.17.08310-4
[[113]]
Y. Guan, Y. Wang. Analysis of energy consumption characteristics of football players in different positions during matches. Sport, 5 (89) ( 2014), pp. 26-27, DOI: 10.3969/j.issn.1674-151x.2014.09.013
[[114]]
X. Gu, D. Zhang, L. Du, D. Yin. The characteristics and effect of leisure dancing activity on the bone stress-taking the old office female group in Sichuan Basin as an example. Sport Sci Technol, 36 (3) ( 2015), pp. 33-35, DOI: 10.14038/j.cnki.tykj.2015.03.013
[[115]]
Z. Ho, Chien. The energy expenditure of several types of industrial and agricultural workers. Acta Acad Med Zhongshan, 1 (4) ( 1980), pp. 372-378, DOI: 10.13471/j.cnki.j.sun.yat-sen.univ(med.sci).1980.0070
[[116]]
Z. He. The energy expenditure of three Kinds of industrial and agricultural labourers. Acta Acad Med Zhongshan, 1 (4) ( 1980), pp. 372-377, DOI: 10.13471/j.cnki.j.sun.yat-sen.univ(med.sci).1980.0070
[[117]]
S. Bi. Study on the Characteristics of Exercise Energy Consumption of Firefighter under the Condition of Military Physical Evaluation and Load Bearing.Master’s Thesis. Chengdu Sport University ( 2018). Accessed April 15, 2022.
[[118]]
F. Sun, J. Dai. Characteristics of energy metabolism in part of traditional fitness project - focus on traditional Kungfu and fitness Yangko. Shandong Sports Sci Technol, 41 (6) ( 2019), pp. 50-55, DOI: 10.14105/j.cnki.1009-9840.2019.06.009
[[119]]
Y. Li, J. Lin. Younger age groups in different fitness exercise energy expenditure analysis. Fujian Sports Sci Techn, 34 (1) ( 2015), pp. 32-34. https://doi.org/1004-8790(2015)01-0032-03
[[120]]
Y. You, X. Song, M. Zhang, A. Wen.The effect of 32 Taiji Sword on heart and lung function of young men. J Xichang Coll · Soc Sci Edit., 27 (2) ( 2013), pp. 111-113. https://doi.org/1673-1891(2013)02-0111-03
[[121]]
L. Zhou, J. Wang, F. Wu. Gas metabolism response of high, middle and low posture Taijiquan. Chin J Sports Med, 26 (2) ( 2007), pp. 211-213, DOI: 10.16038/j.1000-6710.2007.02.020
[[122]]
H. Yang, D. Yu, Y. Zhao. Gaseous metabolism and energy expenditure of middle-and elder- aged persons in the process of Taijiquan exercise. Chin J Sports Med, 31 (2) ( 2012), pp. 106-108, DOI: 10.16038/j.1000-6710.2012.02.002
[[123]]
F. Du. Study on the Characteristics of Energy Metabolism of Taijiquan Pushing Hands under the New Rules.Master’s Thesis. Beijing Sport University ( 2019). Accessed April 15, 2022. RPTV74JPslR-Qy4cW4trTocGvTeXKiBZAGpFA4JpuA8y0cbTCPIlnV7VZpPupk55
[[124]]
D. Zhou, C. Zhou. Energy consumption and fitness effect evaluation of different exercise modes under aerobic exercise intensity. J Anhui Normal Univ (Nat Sci), 44 (2) ( 2021), pp. 197-203, DOI: 10.14182/J.cnki.1001-2443.2021.02.014
[[125]]
S. Hui, J. Woo, T. Kwok. Evaluation of energy expenditure and cardiovascular health effects from Tai Chi and walking exercise. Hong Kong Med J, 15 (2) ( 2009), pp. 4-7
[[126]]
M. Yang. Exercise intensity and energy expenditure of tai Chi soft ball in elderly women. Chin J Gerontol, 34 (24) ( 2014), pp. 7075-7076, DOI: 10.3969/j.issn.10059202.2014.24.109
[[127]]
L. Cai. The experimental study on energy consumption during the practice of Wuqinxi. Mart Arts Res, 2 (11) ( 2017), pp. 103-106, DOI: 10.13293/j.cnki.wskx.006917
[[128]]
D. Wang, L. Xu, J. Wang, J. Wang. Study on gaseous metabolism and energy expenditure of cycling at different speed. Sport Sci Res, 36 (5) ( 2015), pp. 64-70. https://doi.org/1006-1207(2015)05-0064-07

Accesses

Citations

Detail
Sections
Recommended

/