Conceptualising Rugby League Performance Within an Ecological Dynamics Framework: Providing Direction for Player Preparation and Development
Tóm tắt
Across team sports, it is critically important to appropriately define, evaluate and then aptly describe individual and team performance. This is of particular significance when we consider that performance models govern the direction of player preparation (short term) and development (long term) frameworks. Within the context of rugby league, this has traditionally been undertaken through hierarchical and linear processes. Such approaches have resulted in research and performance analysis techniques which aim to support these operational outcomes. Yet, these methods may deliver limited application on how or why match-play unfolds and therefore might be sub-optimal in providing insights to truly support coaches. In this paper, we propose the conceptualisation of rugby league performance through the lens of ecological dynamics, which may offer a different view to this traditional approach. We propose that this approach eliminates the silos of disciplinary information (e.g. technical, physical and medical) that may currently exist, allowing for a holistic approach to performance, preparation and development. Specifically, we consider that through the implementation of this ecological approach, all performance coaches (technical, physical and medical) may (co-)design learning environments that more collaboratively develop players for rugby league match-play. As a result, we put forward a new rugby league performance model from which preparation and development programs can be anchored toward. We conclude the paper by offering practical examples where these concepts are contextualised within the landscape familiar to practitioners working within rugby league.
Tài liệu tham khảo
Gabbett T, King T, Jenkins D. Applied physiology of rugby league. Sports Med. 2008;38(2):119–38.
Johnston RD, Gabbett TJ, Jenkins DG. Applied sport science of rugby league. Sports Med. 2014;44(8):1087–100.
Brewer J, Davis J. Applied physiology of rugby league. Sports Med. 1995;20(3):129–35.
Gabbett TJ. Science of rugby league football: a review. J Sports Sci. 2005;23(9):961–76.
Gardner A, et al. A systematic review of concussion in rugby league. Br J Sports Med. 2015;49(8):495–8.
Glassbrook DJ, et al. The demands of professional rugby league match-play: a meta-analysis. Sports Med Open. 2019;5(1):24.
Hoskins W, et al. Injury in rugby league. J Sci Med Sport. 2006;9(1–2):46–56.
King DA, et al. Match and training injuries in rugby league: a review of published studies. Sports Med. 2010;40(2):163–78.
Kirkwood G, et al. Concussion in youth rugby union and rugby league: a systematic review. Br J Sports Med. 2015;49(8):506–10.
McMaster DT, et al. The development, retention and decay rates of strength and power in elite rugby union, rugby league and American football: a systematic review. Sports Med. 2013;43(5):367–84.
Otte FW, et al. Specialist coaching integrated into a department of methodology in team sports organisations. Sports Medicine - Open. 2020;6(1):55.
Gerrard B. Is the Moneyball approach transferable to complex invasion team sports. Int J Sports Finance. 2007;2:214–30.
Hughes MD, Bartlett RM. The use of performance indicators in performance analysis. J Sports Sci. 2002;20(10):739–54.
Kempton T, Sirotic AC, Coutts AJ. A comparison of physical and technical performance profiles between successful and less-successful professional rugby league teams. Int J Sports Physiol Perform. 2017;12(4):520–6.
Woods CT, Sinclair W, Robertson S. Explaining match outcome and ladder position in the National Rugby League using team performance indicators. J Sci Med Sport. 2017;20(12):1107–11.
Gabbett TJ, Jenkins DG, Abernethy B. Correlates of tackling ability in high-performance rugby league players. J Strength Cond Res. 2011;25(1):72–9.
Gabbett T, Ryan P. Tackling technique, injury risk, and playing performance in high-performance collision sport athletes. J Sports Sci Coach. 2009;4:521–33.
Woods CT, et al. Theory to practice: performance preparation models in contemporary high-level sport guided by an ecological dynamics framework. Sports Med Open. 2020;6(1):36.
Springham M, et al. Developing strength and conditioning coaches for professional football. Coach Prof Footb. 2018;50:9–16.
Woods CT, et al. Game-play characteristics differ between the European Super League and the National Rugby League: Implications for coaching and talent recruitment. Int J Sports Sci Coach. 2018;13(6):1171–6.
Kempton T, Kennedy N, Coutts AJ. The expected value of possession in professional rugby league match-play. J Sports Sci. 2016;34(7):645–50.
Collins T. Rugby’s great split: class, culture and the origins of rugby league football. 2nd ed. London: Routledge; 2006.
Collins T. Rugby league in twentieth century Britain: a social and cultural history. 1st ed. London: Routledge; 2006.
Gabbett TJ. Effects of physical, technical, and tactical factors on final ladder position in semiprofessional rugby league. Int J Sports Physiol Perform. 2014;9(4):680–8.
Woods CT, et al. A comparison of game-play characteristics between elite youth and senior Australian National Rugby League competitions. J Sci Med Sport. 2018;21(6):626–30.
Sanctuary CE. The blues way: development to origin. 2018. New South Wales Rugby League.
Wedding C, et al. Analysis of styles of play according to season and end of season rank in the National Rugby League. J Sci Med Sport. 2021;24(2):206–10.
Parmar N, et al. Using principal component analysis to develop performance indicators in professional rugby league. Int J Perform Anal Sport. 2018;18:1–12.
Eaves S, Broad G. A comparative analysis of professional rugby league football playing patterns between Australia and the United Kingdom. Int J Perform Anal Sport. 2007;7(3):54–66.
Gabbett TJ, Hulin BT. Activity and recovery cycles and skill involvements of successful and unsuccessful elite rugby league teams: a longitudinal analysis of evolutionary changes in National Rugby League match-play. J Sports Sci. 2018;36(2):180–90.
Whitehead S, et al. The use of technical-tactical and physical performance indicators to classify between levels of match-play in elite rugby league. Science and Medicine in Football, 2020.
Wedding C, et al. Examining the evolution and classification of player position using performance indicators in the National Rugby League during the 2015–2019 seasons. J Sci Med Sport. 2020;23(9):891–6.
Duthie GM, et al. Relationship between physical performance testing results and peak running intensity during professional rugby league match play. J Strength Cond Res. 2017.
Gabbett TJ. The development and application of an injury prediction model for noncontact, soft-tissue injuries in elite collision sport athletes. J Strength Cond Res. 2010;24(10):2593–603.
Geeson-Brown T, et al. Body composition differences by age and playing standard in male rugby union and rugby league: a systematic review and meta-analysis. J Sports Sci. 2020;38(19):2161–76.
Gabbett TJ, Jenkins DG, Abernethy B. Relationships between physiological, anthropometric, and skill qualities and playing performance in professional rugby league players. J Sports Sci. 2011;29(15):1655–64.
Waldron M, et al. The relationship between physical abilities, ball-carrying and tackling among elite youth rugby league players. J Sports Sci. 2014;32(6):542–9.
Gabbett TJ. Physiological and anthropometric correlates of tackling ability in rugby league players. J Strength Cond Res. 2009;23(2):540–8.
Gabbett TJ, Jenkins DG, Abernethy B. Physiological and anthropometric correlates of tackling ability in junior elite and subelite rugby league players. J Strength Cond Res. 2010;24(11):2989–95.
Speranza MJ, et al. Muscular strength and power correlates of tackling ability in semiprofessional rugby league players. J Strength Cond Res. 2015;29(8):2071–8.
Speranza MJ, et al. Relationship between a standardized tackling proficiency test and match-play tackle performance in semiprofessional rugby league players. Int J Sports Physiol Perform. 2015;10(6):754–60.
Speranza MJ, et al. Effect of strength and power training on tackling ability in semiprofessional rugby league players. J Strength Cond Res. 2016;30(2):336–43.
Gabbett TJ. Influence of fatigue on tackling ability in rugby league players: role of muscular strength, endurance, and aerobic qualities. PLoS ONE. 2016;11(10):e0163161.
Gabbett TJ, Jenkins DG, Abernethy B. Relative importance of physiological, anthropometric, and skill qualities to team selection in professional rugby league. J Sports Sci. 2011;29(13):1453–61.
Kempton T, et al. Match-related fatigue reduces physical and technical performance during elite rugby league match-play: a case study. J Sports Sci. 2013;31(16):1770–80.
Abernethy B, Wood JM. Do generalized visual training programmes for sport really work? An experimental investigation. J Sports Sci. 2001;19(3):203–22.
Gabbett T, Wake M, Abernethy B. Use of dual-task methodology for skill assessment and development: examples from rugby league. J Sports Sci. 2011;29(1):7–18.
Gabbett TJ, Abernethy B. Dual-task assessment of a sporting skill: influence of task complexity and relationship with competitive performances. J Sports Sci. 2012;30(16):1735–45.
Connor JD, Crowther RG, Sinclair WH. Effect of different evasion maneuvers on anticipation and visual behavior in elite rugby league players. Mot Control. 2018;22(1):18–27.
Johnston RD. Influence of physical characteristics and match outcome on technical errors during rugby league match play. Int J Sports Physiol Perform. 2019;14(8):1043–9.
McGarry T. Applied and theoretical perspectives of performance analysis in sport: scientific issues and challenges. Int J Perform Anal Sport. 2009;9(1):128–40.
Araujo D, et al. Emergence of sport skills under constraints. In: Williams AM, Hodges NJ, editors., et al., Skill acquisition in sport: research, theory and practice. London: Routledge; 2004. p. 409–33.
Bartlett R, et al. Analysing team coordination patterns from player movement trajectories in soccer: methodological considerations. Int J Perform Anal Sport. 2012;12:398–424.
McGarry T, Perl J, Lames M, et al. Team sports as dynamical systems. In: Davids K, et al., editors. Complex systems in sport. London: Routledge; 2014. p. 208–26.
Araujo D, Davids K. Team synergies in sport: theory and measures. Front Psychol. 2016;7:1449.
Woods CT, et al. Non-metric multidimensional performance indicator scaling reveals seasonal and team dissimilarity within the National Rugby League. J Sci Med Sport. 2018;21(4):410–5.
Davids K, Araújo D, Shuttleworth R. Applications of dynamical systems theory to football. In Science and football V. 2005. London: Routledge.
Silva P, et al. Shared knowledge or shared affordances? Insights from an ecological dynamics approach to team coordination in sports. Sports Med. 2013;43(9):765–72.
Davids K, Araujo D. The concept of ‘“Organismic Asymmetry”’ in sport science. J Sci Med Sport. 2010;13:633–40.
Gibson JJ. The ecological approach to visual perception. Boston: Houghton Mifflin; 1979.
Woods CT, et al. Wayfinding: how ecological perspectives of navigating dynamic environments can enrich our understanding of the learner and the learning process in sport. Sports Med Open. 2020;6(51):1–11.
Vilar L, et al. The role of ecological dynamics in analysing performance in team sports. Sports Med. 2012;42(1):1–10.
Davids K, Renshaw I, Glazier P. Movement models from sports reveal fundamental insights into coordination processes. Exerc Sport Sci Rev. 2005;33(1):36–42.
Fajen BR, Riley MA, Turvey MT. Information, affordances, and the control of action in sport. Int J Sport Psychol. 2008;40(1):79–107.
Sanctuary CE, Thombs B, Smith RA. Towards a theory of the interactive factors implicated in successful individual performance in cricket. Int J Sports Sci Coach. 2010;5(2):321–38.
Jacobs D, Michaels C. Direct learning. Ecol Psychol. 2007;19:321–49.
Passos P, et al. Perceiving affordances in rugby union. J Sports Sci. 2012;30(11):1175–82.
Davids K, et al. Expert performance in sport: An ecological dynamics perspective. Handbook of sport expertise, 2015: p. 273–303.
Turvey MT. Action and perception at the level of synergies. Hum Mov Sci. 2007;26(4):657–97.
McCormack S, Jones B, Till K. Training practices of academy rugby league and their alignment to physical qualities deemed important for current and future performance. Int J Sports Sci Coach. 2020;15(4):512–25.
Davids K. Learning design for nonlinear dynamical movement systems. Open Sport Sci J. 2005;5(13):9–16.
Krüger A. Training theory and why roger bannister was the first four-minute miler. Sport in History. 2006;26(2):305–24.
Woods CT, et al. Sport practitioners as sport ecology designers: how ecological dynamics has progressively changed perceptions of skill “acquisition” in the sporting habitat. Front Psychol. 2020;11:654.
Woods CT, et al. Representative co-design: Utilising a source of experiential knowledge for athlete development and performance preparation. Psychol Sport Exerc. 2021;52:101804.
O’Sullivan M, et al. Conceptualizing physical literacy within an ecological dynamics framework. Quest (National Association for Kinesiology in Higher Education). 2020;72(4):448–62.
Rudd JR, et al. Physical literacy—a journey of individual enrichment: an ecological dynamics rationale for enhancing performance and physical activity in all. Front Psychol. 2020;11:1904–1904.
Giblin S, Collins D, Button C. Physical literacy: importance, assessment and future directions. Sports Med. 2014;44(9):1177–84.
Whitehead M. The concept of physical literacy. Eur J Phys Educ. 2001;6:127–38.