Biology of Sport
eISSN: 2083-1862
ISSN: 0860-021X
Biology of Sport
Current Issue Manuscripts accepted About the journal Editorial board Abstracting and indexing Archive Ethical standards and procedures Contact Instructions for authors Journal's Reviewers Special Information
Editorial System
Submit your Manuscript
SCImago Journal & Country Rank
Search
Editorial Policies
Sarajevo Declaration on Integrity and Visibility of Scholarly Publications

Open access

without publication fees
Share:
Send email
Share:
Original paper

Physical and technical performance in and after the worst-case scenario in matches of the Chinese Super League of soccer

Zuoming Fang
1
,
Zhaoyang Wang
2
,
Xueliang Li
3
,
Miguel-Angel Gómez
4
,
Hongyou Liu
2

  1. Department of Physical Education, Guangdong University of Education, Guangzhou, China
  2. School of Physical Education & Sports Science, South China Normal University, Guangzhou, China
  3. Department of Physical Education, Central South University, Changsha, China
  4. Faculty of Physical Activity and Sport Sciences, Technical University of Madrid, Madrid, Spain
Biol Sport. 2025;42(2):95–103
DOI: https://doi.org/10.5114/biolsport.2025.142642
Online publish date: 2024/09/06
Article file
- 9_04080_Article.pdf  [0.67 MB]
Get citation
 
PlumX metrics:
 
1. Tomas Stolen KC, Carlo Castagna,Ulrik Wisløff. Physiology of Soccer An Update. Sports Med. 2005; 35(6):501–536.
2. Bangsbo J, Mohr M, Krustrup P. Physical and metabolic demands of training and match-play in the elite football player. J Sports Sci. 2006; 24(7):665–674.
3. Rampinini E, Coutts AJ, Castagna C, et al. Variation in top level soccer match performance. Int J Sports Med. 2007; 28(12):1018–1024.
4. Novak AR, Impellizzeri FM, Trivedi A, et al. Analysis of the worst-case scenarios in an elite football team: Towards a better understanding and application. J Sports Sci. 2021:1–10.
5. Rico-González M, Oliveira R, Palucci Vieira LH, et al. Players’ performance during worst-case scenarios in professional soccer matches: a systematic review. Biol Sport. 2022; 39(3):695–713.
6. Riboli A, Semeria M, Coratella G, et al. Effect of formation, ball in play and ball possession on peak demands in elite soccer. Biol Sport. 2021; 38(2):195–205.
7. Reardon C, Tobin DP, Tierney P, et al. The worst case scenario: Locomotor and collision demands of the longest periods of gameplay in professional rugby union. PLOS ONE. 2017; 12(5):e0177072.
8. M. Oliva-Lozano J, Riboli A, Fortes V, et al. Monitoring physical match performance relative to peak locomotor demands: implications for training professional soccer players. Biol Sport. 2023; 40(2):253–260.
9. Weaving D, Young D, Riboli A, et al. The Maximal Intensity Period: Rationalising its Use in Team Sports Practice. Sports Med-Open. 2022; 8(1):128.
10. Dios-Álvarez Vd, Castellano J, Padrón-Cabo A, et al. Do small-sided games prepare players for the worst-case scenarios of match play in elite young soccer players? Biol Sport. 2024; 41(1):95–106.
11. Di Mascio M, Bradley PS. Evaluation of the Most Intense High-Intensity Running Period in English FA Premier League Soccer Matches. J Strength Cond Res. 2013; 27(4):909–915.
12. Bradley PSN, T. D. Match running performance fluctuations in elite soccer: indicative of fatigue, pacing or situational influences? J Sports Sci. 2013; 31(15):1627–1638.
13. Fransson D, Krustrup P, Mohr M. Running intensity fluctuations indicate temporary performance decrement in top-class football. Sci Med Footb. 2016; 1(1):10–17.
14. Schimpchen J, Gopaladesikan S, Meyer T. The intermittent nature of player physical output in professional football matches: An analysis of sequences of peak intensity and associated fatigue responses. Eur J Sport Sci. 2020:1–10.
15. Fereday K, Hills SP, Russell M, et al. A comparison of rolling averages versus discrete time epochs for assessing the worst-case scenario locomotor demands of professional soccer match-play. J Sci Med Sport. 2020; 23(8):764–769.
16. Linke D, Link D, Weber H, et al. Decline in Match Running Performance in Football is affected by an Increase in Game Interruptions. J Sports Sci Med. 2018; 17(4):662–667.
17. Bradley PS AJ. Are Current Physical Match Performance Metrics in Elite Soccer Fit for Purpose or is the Adoption of an Integrated Approach Needed? Int J Sport Physiol. 2018.
18. Paul DJ, Bradley PS, Nassis GP. Factors Affecting Match Running Performance of Elite Soccer Players: Shedding Some Light on the Complexity. Int J Sport Physiol. 2015; 10(4):516–519.
19. Delaney JA, Thornton HR, Pryor JF, et al. Peak Running Intensity of International Rugby: Implications for Training Prescription. Int J Sports Physiol Perform. 2017; 12(8):1039–1045.
20. Carling C, Dupont G. Are declines in physical performance associated with a reduction in skill-related performance during professional soccer match-play? J Sports Sci. 2011; 29(1):63–71.
21. Ju W, Doran D, Hawkins R, et al. Contextualised peak periods of play in English Premier League matches. Biol Sport. 2022; 39(4):973–983.
22. Zhou C, Gómez M-Á, Lorenzo A. The evolution of physical and technical performance parameters in the Chinese Soccer Super League. Biol Sport. 2020; 37(2):139–145.
23. Black GM, Gabbett TJ. Match Intensity and Pacing Strategies in Rugby League: An Examination of Whole-Game and Interchanged Players, and Winning and Losing Teams. J Strength Cond Res. 2014; 28(6):1507–1516.
24. Zubillaga A GG, Mendo AH, Blanco-Villaseor A. Match analysis of 2005–2006 Champions League final with Amisco System. J Sport Sci Med. 2007; 6:10–20.
25. Castellano J, Alvarez-Pastor D, Bradley PS. Evaluation of research using computerised tracking systems (Amisco and Prozone) to analyse physical performance in elite soccer: a systematic review. Sports Med. 2014; 44(5):701–712.
26. Linke D, Link D, Lames M. Validation of electronic performance and tracking systems EPTS under field conditions. PLOS ONE. 2018; 13(7):e0199519.
27. Oliva-Lozano JM, Fortes V, Muyor JM. The first, second, and third most demanding passages of play in professional soccer: a longitudinal study. Biol Sport. 2021; 38(2):165–174.
28. Chmura P, Liu HY, Andrzejewski M, et al. Is there meaningful influence from situational and environmental factors on the physical and technical activity of elite football players? Evidence from the data of 5 consecutive seasons of the German Bundesliga. Plos One. 2021; 16(3).
29. Hopkins WG, Marshall SW, Batterham AM, et al. Progressive statistics for studies in sports medicine and exercise science. Med Sci Sports Exerc. 2009; 41(1):3–13.
30. Dalen T, Loras H, Hjelde GH, et al. Accelerations-a new approach to quantify physical performance decline in male elite soccer? Eur J Sport Sci. 2019:1–9.
31. Bangsbo J. The physiology of soccer: with special reference to intense intermittent exercise. J Acta Physiol Scand. 1994; 15(619):1–156.
32. Ekblom .B. Handbook of Sports Medicine and Science, Football (Soccer). 1, editor. USA: Wiley; 1994.
33. Krustrup P, Mohr M, Steensberg A, et al. Muscle and Blood Metabolites during a Soccer Game. Med Sci Sports Exerc. 2006; 38(6):1165–1174.
34. Delaney JA, Scott TJ, Thornton HR, et al. Establishing Duration-Specific Running Intensities From Match-Play Analysis in Rugby League. Int J Sport Physiol. 2015; 10 6:725–731.
35. Reilly T. Motion analysis and physiological demands. Science and soccer: Routledge; 2003. p. 67–80.
36. Carling C. Analysis of physical activity profiles when running with the ball in a professional soccer team. J Sport Sci. 2010; 28(3):319–326.
37. Akenhead R, Hayes PR, Thompson KG, et al. Diminutions of acceleration and deceleration output during professional football match play. J Sci Med Sport. 2013; 16(6):556–561.
38. Lambert EV, St Clair Gibson A, Noakes TD. Complex systems model of fatigue: integrative homoeostatic control of peripheral physiological systems during exercise in humans. Br J Sports Med. 2005; 39(1):52–62.
39. Edwards AM, Noakes TD. Dehydration: cause of fatigue or sign of pacing in elite soccer? Sports Med. 2009; 39(1):1–13.
40. Williams AM, Ward P, Bell-Walker J, et al. Perceptual-cognitive expertise, practice history profiles and recall performance in soccer. Br J Psychol. 2011; 103(3):393–411.
41. Yousefian F, Zafar A, Fransson D, et al. Characterizing the most demanding passages of kinematic and mechanical activity in elite football: a multifactorial approach. Biol Sport. 2024:41–50.
42. Bradley PS, Carling C, Archer D, et al. The effect of playing formation on high-intensity running and technical profiles in English FA Premier League soccer matches. J Sports Sci. 2011; 29(8):821–830.
Copyright: Institute of Sport. This is an Open Access article distributed under the terms of the Creative Commons CC BY License (https://creativecommons.org/licenses/by/4.0/). This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
  
Termedia
About us Contact
Copyright notice Privacy policy Advertising policy Contact us
Quick links
Journals Books eBooks Events
© 2024 Termedia Sp. z o.o.
Developed by Bentus.