Marino Krespi1, Goran Sporis2, Stevo Popovic3

1University of Split, Faculty of Kinesiology, Split, Croatia
2University of Zagreb, Faculty of Kinesiology, Zagreb, Croatia
3University of Montenegro, Faculty for Sport and Physical Education, Niksic, Montenegro

Exponential versus linear tapering in junior elite soccer players: effects on physical match performance according to playing positions

Monten. J. Sports Sci. Med. 2019, 8(1), 17-22 | DOI: 10.26773/mjssm.190303


The purpose of the present study was to investigate the effects of exponential and linear tapering protocols on the distance covered according to playing positions among junior elite soccer players. One-hundred and fifty-eight junior elite soccer players (mean age: 17.07±0.79 years; mean height: 177.85±6.64 cm; mean weight: 71.27±7.96 kg; mean body-mass index: 22.50±1.66 kg/m²) were randomly selected into two groups: (1) exponential and (2) linear tapering group. Training sessions were conducted three times a week for eight weeks. After four and eight weeks of the tapering period, participants were measured in the distance covered according to four basic playing positions on the field: (1) goalkeepers, (2) defenders, (3) midfielders, and (4) forwards. The results showed that the largest effects between the pre- and post-measurement had defenders in the exponential and goalkeepers in the linear group, goalkeepers in the distance covered by slow and medium running in both groups, forwards in fast running and sprinting in the exponential group, and midfielders in the linear group. In conclusion, our results suggest that the exponential tapering protocol brought somewhat larger effects, especially in fast running and sprinting in forwards and slow and medium running in goalkeepers. Future studies need to implement both the exponential and the linear tapering protocols in order to enhance performance but favouring the exponential to produce larger effects.


tapering, soccer, juniors, situational efficiency, effects

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Bloomfield, J., Polman, R., & O’Donoghue, P. (2007). Physical demands of different positions in FA Premier League soccer. Journal of Sports Science & Medicine, 6(1), 63.

Bosquet, L., Montpetit, J., Arvisais, D., & Mujika, I. (2007). Effects of tapering on performance: a meta-analysis. Medicine and Science in Sports and Exercise, 39(8), 1358.

Buchheit, M., Allen, A., Poon, T. K., Modonutti, M., Gregson, W., & Di Salvo, V. (2014). Integrating different tracking systems in football: multiple camera semi-automatic system, local position measurement and GPS technologies. Journal of sports sciences, 32(20), 1844-1857.

Costill, D. L., King, D. S., Thomas, R., & Hargreaves, M. (1985). Effects of reduced training on muscular power in swimmers. The Physician and Sportsmedicine, 13(2), 94-101.

Coutts, A., Chamari, K., Rampinini, E., & Impellizzeri, F. (2008). Monitoring training in football: measuring and periodising training. From training to performance in soccer. Paris, France: De Boeck Universite, 242-263.

Dellal, A., Chamari, K., Wong, d. P., Ahmaidi, S., Keller, D., Barros, R., . . . Carling, C. (2011). Comparison of physical and technical performance in European soccer match-play: FA Premier League and La Liga. European Journal of Sport Science, 11(1), 51-59.

Dellal, A., Keller, D., Carling, C., Chaouachi, A., Wong, d. P., & Chamari, K. (2010). Physiologic effects of directional changes in intermittent exercise in soccer players. The Journal of Strength & Conditioning Research, 24(12), 3219-3226.

Di Salvo, V., Baron, R., Tschan, H., Montero, F. C., Bachl, N., & Pigozzi, F. (2007). Performance characteristics according to playing position in elite soccer. International Journal of Sports Medicine, 28(03), 222-227.

Di Salvo, V., Gregson, W., Atkinson, G., Tordoff, P., & Drust, B. (2009). Analysis of high intensity activity in Premier League soccer. International Journal of Sports Medicine, 30(03), 205-212.

Elloumi, M., Makni, E., Moalla, W., Bouaziz, T., Tabka, Z., Lac, G., & Chamari, K. (2012). Monitoring Training Load and Fatigue in Rugby Sevens Players. Asian Journal of Sports Medicine, 3(3), 175-184.

Fessi, M. S., Zarrouk, N., Di Salvo, V., Filetti, C., Barker, A. R., & Moalla, W. (2016). Effects of tapering on physical match activities in professional soccer players. Journal of sports sciences, 34(24), 2189-2194.

Fortes, L. d. S., Vianna, J. M., Silva, D. M. d. S., Gouvêa, M. A. d., & Cyrino, E. S. (2016). Effects of tapering on maximum aerobic power in indoor soccer players. Revista Brasileira de Cineantropometria & Desempenho Humano, 18(3), 341-352.

Foster, C. (1998). Monitoring training in athletes with reference to overtraining syndrome. Medicine and Science in Sports and Exercise, 30, 1164-1168.

García-Pallarés, J., Sanchez-Medina, L., Pérez, C. E., Izquierdo-Gabarren, M., & Izquierdo, M. (2010). Physiological effects of tapering and detraining in world-class kayakers. Medicine & Science in Sports & Exercise, 42(6), 1209-1214.

Gil, S. M., Gil, J., Ruiz, F., Irazusta, A., & Irazusta, J. (2007). Physiological and anthropometric characteristics of young soccer players according to their playing position: relevance for the selection process. Journal of Strength and Conditioning Research, 21(2), 438.

Mujika, I., Goya, A., Ruiz, E., Grijalba, A., Santisteban, J., & Padilla, S. (2002). Physiological and performance responses to a 6-day taper in middle-distance runners: influence of training frequency. International Journal of Sports Medicine, 23(05), 367-373.

Mujika, I., & Padilla, S. (2003). Scientific bases for precompetition tapering strategies. Medicine and Science in Sports and Exercise, 35(7), 1182-1187.

Neary, J. P., Martin, T. P., & Quinney, H. A. (2003). Effects of taper on endurance cycling capacity and single muscle fiber properties. Medicine and Science in Sports and Exercise, 35(11), 1875-1881.

Rampinini, E., Coutts, A. J., Castagna, C., Sassi, R., & Impellizzeri, F. (2007). Variation in top level soccer match performance. International Journal of Sports Medicine, 28(12), 1018-1024.

Reilly, T. (2003). Motion analysis and physiological demands. Science and soccer, 2, 59-72.

Reilly, T., Bangsbo, J., & Franks, A. (2000). Anthropometric and physiological predispositions for elite soccer. Journal of sports sciences, 18(9), 669-683.

Sanchez, A. M., Galbès, O., Fabre-Guery, F., Thomas, L., Douillard, A., Py, G., . . . Candau, R. B. (2013). Modelling training response in elite female gymnasts and optimal strategies of overload training and taper. Journal of sports sciences, 31(14), 1510-1519.

Sarmento, H., Marcelino, R., Anguera, M. T., CampaniÇo, J., Matos, N., & LeitÃo, J. C. (2014). Match analysis in football: a systematic review. Journal of sports sciences, 32(20), 1831-1843.

Silva, C. G., & Araújo, C. G. S. (2015). Sex-specific equations to estimate maximum oxygen uptake in cycle ergometry. Arquivos Brasileiros de Cardiologia, 105(4), 381-389.

Slattery, K. M., Wallace, L. K., Bentley, D. J., & Coutts, A. J. (2012). Effect of training load on simulated team sport match performance. Applied Physiology, Nutrition, and Metabolism, 37(2), 315-322.

Trappe, S., Costill, D., & Thomas, R. (2001). Effect of swim taper on whole muscle and single muscle fiber contractile properties. Medicine and Science in Sports and Exercise, 33(1), 48-56.

Tumilty, D. (1993). Physiological characteristics of elite soccer players. Sports Medicine, 16(2), 80-96.

Wong, P., Mujika, I., Castagna, C., Chamari, K., Lau, W. C., & Wisloff, U. (2008). Characteristics of World Cup soccer players. Soccer Journal-Binghamton-National Soccer Coaches Association of America, 53(1), 57.