Central European Journal of Sport Sciences and Medicine

ISSN: 2300-9705     eISSN: 2353-2807    OAI    DOI: 10.18276/cej.2022.1-02
CC BY-SA   Open Access   DOAJ  DOAJ

Lista wydań / Vol. 37, No. 1/2022
Position-specific Physical Performance of Professional Players during Full-Season Matches in a Greek Superleague Elite Team

Autorzy: Michail Mitrotasios ORCID
National and Kapodistrian University of Athens, School of Physical Education & Sport Science, Athens, Greece

Ioannis Ispyrlidis
Democritus University of Thrace, School of Physical Education & Sport Science, Komotini, Greece

Nikolaos Mantzouranis ORCID
Democritus University of Thrace, School of Physical Education & Sport Science, Komotini, Greece

Emmanuel Vassiliades
IdEF STAPS, Sorbonne Paris North University, Athens, Greece

Vasilis Armatas ORCID
National and Kapodistrian University of Athens, School of Physical Education & Sport Science, Athens, Greece
Słowa kluczowe: Soccer Speed Match status Championship
Data publikacji całości:2022
Liczba stron:9 (13-21)
Cited-by (Crossref) ?:

Abstrakt

The aim of the present study was to examine how various playing positions and opponent team ranking affect the covered distances and the acceleration and decelerations profile of a team during 2018-19 Greek SuperLeague. StatSport GPS system recorded in match-play real-time both the players’ covered distances (m) and the number of acceleration/deceleration runs (n) in zones from 3 m/s2 to 10 m/s2. The descriptive statistics showed that the players’ mean covered distances were 10289 m per match. The MANOVA revealed significant differences of the players’ covered distances in all intensity zones in relation to their playing positions (F(12, 513.567)=41.862; p=0.000) and the opponent team ranking (F(3,189)=3.687; p=0.013). Furthermore, no significant interactions were observed between the playing positions and the opponent team ranking (F(12, 500.339)=1.149; p=0.318). Moreover, no significant differences were recorded regarding the opponent team ranking with the amount of accelerations (F(1,189)=0.501; p=0.480) and decelerations (F(1,189)=1.342; p=0.248). Summarizing, the current study showed the high-demanding competitive performance of midfielders, full backs and forwards regardless the standing of the opponent teams. Hence, the team’s training must include special stimuli of aerobic and high-intensity workouts according to the players’ playing positions in the match.
Pobierz plik

Plik artykułu

Bibliografia

1.Bradley, P.S., Noakes, T.D. (2013). Match running performance fluctuations in elite soccer: indicative of fatigue, pacing or situational influences? Journal of Sports Science, 31 (15), 1627–1638.
2.Brito, J., Hertzog, M., Nassis, P.G. (2016). Do match-related contextual variables influence training load in highly trained soccer players? The Journal of Strength & Conditioning Research, 30 (2), 393–399.
3.Carling, C., Bradley, P., McCall, A., Dupont, G. (2016). Match-to-match variability in high-speed running activity in a professional soccer team. Journal of Sports Sciences, 34 (24), 2215–2223.
4.Casamichana, D., Castellano, J., Castagna, C. (2012). Comparing the physical demands of friendly matches and small-sided games in semi-professional soccer players. The Journal of Strength & Conditioning Research, 26 (3), 837–843.
5.Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd ed.). Hillsdale, N.J.: L. Erlbaum Associates.
6.Dellal, A., Wong Del P., Moalla, W., Chamari, K. (2010). Physical and technical activity of soccer players in the French first League with special reference to their playing position. International Sport Medicine Journal, 11 (2), 278–290.
7.Di Salvo, V., Baron ,R., Tschan, H., Calderon Montero, F.J., Bachl, N., Pigozzi, F. (2007). Performance characteristics according to playing position in Elite soccer. Sports Medicine, 28 (3), 222–227.
8.Djaoui, L., Chamari, K., Owen, L.A., Dellal, A. (2017). Maximal sprinting speed of elite soccer players during training and matches. The Journal of Strength & Conditioning Research, 31 (6), 1509-–1517.
9.Elyakim, E., Morgulev, E., Lidor, R., Meckel, Y., Arnon, M., Ben-Sira, D. (2020). Comparative analysis of game parameters between Italian league and Israeli league football matches. International Journal of Performance Analysis in Sport, 20 (2), 165–179.
10.Gabbett, T. (2016). The training-injury prevention paradox: Should be training smarter and harder? British Journal of Sports Medicine, 50 (5), 273–280.
11.Goto, H. (2018). The Effect of small size court on physical and technical performance in training youth soccer players. Football Science, 15, 15–18.
12.Ingebrigtsen, J., Dalen, T., Hjelde, G.H., Drust, B., Wisloff, U. (2015). Acceleration and sprint profiles of a professional elite football team in match play. European Journal of Sport Science, 15 (2),101–110.
13.Ispirlidis, I. (2021). Effects of two different small-sided games protocols on physiological parameters of professional soccer players. Journal of Physical Education & Sport, 16 (2), S154–S161.
14.Ispyrlidis, I., Gourgoulis, V., Mantzouranis, N., Gioftsidou, A., Athanailidis, I. (2020). Match and training loads of professional soccer players in relation to their tactical position. Journal of Physical Education & Sport, 2 0(3), 2269–2276.
15.Little, T., Williams, A.G. (2007). Measures of exercise intensity during soccer trainings drills with professional soccer players. The Journal of Strength & Conditioning Research, 21 (2), 367–371.
16.Mitrotasios, M., Ispyrlidis, I., Mantzouranis, N., Vassiliades, E., Armatas, V. (2021). Season physical performance of professional soccer players. Match-play evaluation of a Greek Super League team. Journal of Physical Education & Sport, 21 (2), 743–747.
17.Payet, F., Roulssi, M, Chfara, M., Colson, S., Wong, Del P., Owen, A.L., Diaz-Cidoncha Garcia, J., Chamari, K., Dellal, A. (2016). Physical activity and high-intensity running during sided games vs competitive mach-play in elite soccer players: a comparative study. Journal of Novel Physiotherapies, 6 (6), 1–6.
18.Rampinini, E., Impellizzeri, F.M., Castagna, C., Abt, G., Chamari, K., Sassi, A., Marcora, S.M. (2007). Factors influencing physiological responses to small-sided soccer games. Journal of Sports Science, 25 (6), 659–666.
19.Redwood-Brown, J.A., O’Donoghue, G.P., Nevill, M.A., Saward, C., Dyer, N., Sunderland, C. (2018). Effect of situational variables on the physical activity profiles of elite soccer players in different score line states. Scandinavian Journal of Medicine & Science in Sports, 28, 2515–2528.
20.Russell, M., Sparkes, W., Northeast, J., Cook, J.C., Love, D.T., Bracken, R.M., Kilduff, L.P. (2016). Changes in acceleration and deceleration capacity throughout professional soccer match-play. The Journal of Strength & Conditioning Research, 30 (10), 2839–2844.
21.Smpokos, E., Mourikis, C., Linardakis, M. (2018a). Differences in motor activities of Greek professional football players who played most of the season (2016/17). Journal of Physical Education & Sport, 18 (1), 490–496.
22.Smpokos, E., Mourikis, C., Linardakis, M. (2018b). Seasonal physical performance of a professional team’s football players in a national league and European matches. Journal of Human Sport & Exercise, 13 (4), 720–730.
23.Tibaudi, A. (2011). I camdi di direzione.Analisi e metodologia di allenamento dei movimenti specifici del calciatore. Torgiano PG: Calzetti & Mariucci Editori.
24.Vigh-Larsen, F.J., Daglas, U., Andersen, B.T. (2018). Position-specific acceleration and deceleration profiles in elite youth and senior soccer players. The Journal of Strength & Conditioning Research, 32 (4), 1114–1122.