This paper is a critical commentary on the article “Adaptation Processes Affecting Performance in Elite Sport” (Schinke, Battochio, Lidor, Tenenbaum, Dube, & Lane, 2012). We review relevant literature and highlight theoretical and conceptual concerns regarding Schinke et al.’s model, particularly regarding their characterization of adaptation as a process versus an outcome, and the role of appraisals, emotions, emotional regulation, coping, and Fiske’s (2004) core motives within their model of adaptation. Adaptation or adjustment among elite athletes is a valuable area of research in sport psychology; however, Schinke et al.’s model oversimplifies the adaptation process and has limited utility among sport psychology researchers and practitioners.
Katherine A. Tamminen and Peter R.E. Crocker
Robert J. Schinke, Randy C. Battochio, Timothy V. Dube, Ronnie Lidor, Gershon Tenenbaum and Andrew M. Lane
Sport researchers have considered the processes that elite athletes undergo to achieve positive psychological adaptation during significant chronic stressors throughout sport careers and also, acute stressors within important competitions. This review contains a description of competitive and organizational stressors that can hamper an elite athlete’s pursuit of adaptation within the aforementioned circumstances, followed by an identification of the responses that together can foster the desired outcome of adaptation. The authors propose that there are four parts that contribute to an elite athlete’s positive psychological adaptation, presented as parts of a process: (a) the appraisal of stressors, (b) coping strategies, (c) self-regulation strategies, and (d) a consolidated adaptation response. Subsequently, athlete adaptation is considered through examples taken from anecdotal literature and formal research studies pertaining to elite athlete adaptation. Implications are discussed for sport psychologists, mental training consultants, sport scientists, coaches, and athletes.
Kevin A. Ball, Russell J. Best and Tim V. Wrigley
Research into the relationship between body sway, aim-point fluctuation, and performance in pistol shooting has been inconclusive. The present study reex-amined this relationship on an interindividual basis, as done in previous studies, and via intraindividual analysis, not previously examined. Five elite pistol shooters performed 20 shots similar to competition conditions. For each shot, body-sway parameters and aim-point fluctuation parameters were quantified for the time period 1 s to shot. An AMTI LG6-4 force plate was used to measure body-sway parameters, while a SCATT shooting analysis system was used to measure aim-point fluctuation and shooting performance. Multiple regression analysis indicated that body sway was related to performance for one shooter, aim-point fluctuation was related to performance for three shooters, and body sway was related to aim-point fluctuation for four shooters. These relationships were specific to the individual, with the strength of association and parameters of importance being different for different shooters. However, interindividual analysis indicated that only aim-point fluctuation was related to performance. It was concluded that body sway, aim-point fluctuation, and performance are important in elite level pistol shooting, and performance errors at the elite level are individual-specific. Individual analysis should be a priority when examining elite level sports performance.
Brendan Burkett, Rebecca Mellifont and Bruce Mason
This study compared the components of the 15-m swimming start for 20 international male Olympic and Paralympic swimmers. The time, distance, and velocity components for freestyle swimming were measured. There were significantly (p < .05) different absolute and relative swim start measures among the swimming groups. Using stepwise regression three variables significantly influenced the start to 15-m time: (i) underwater velocity, (ii) free swim velocity, and (iii) whether the swimmer had cerebral palsy. This new knowledge provides useful information for swimmers and coaches on which components to prioritize, along with the practical applications of improving the streamline position to increase underwater velocity and to ensure that the transition from underwater to surface breakout occurs at the optimal time for maximum free swim velocity.
Robert J. Schinke, Gershon Tenenbaum, Ronnie Lidor and Andrew M. Lane
Within this opportunity to dialogue in commentary exchange about a previously conceived adaptation model, published in the Journal of Clinical Sport Psychology, we revisit the utility of our model (Schinke et al., 2012a) and consider Tamminen and Crocker’s (2014) critique of our earlier writing. We also elaborate on emotion and emotion regulation through explaining hedonistic and instrumental motives to regulate emotions. We draw on research from general and sport psychology to examine emotion regulation (Gross, 2010). We argue that when investigating emotion, or any topic in psychology, the process of drawing from knowledge in a different area of the discipline can be useful, especially if the existing knowledge base in that area is already well developed. In particular, we draw on research using an evolutionary perspective (Nesse & Ellsworth, 2009). Accounting for these issues, we clarify the adaptation framework, expand it, and arguably offer a model that has greater utility for use with athletes in relation to training and competition cycles and progressions throughout their career. We also clarify for the readership places of misinterpretation by the commentary authors, and perhaps, why these have resulted.
Jeannine Ohlert, Thea Rau and Marc Allroggen
of situations are not acceptable. Simply put, these experiences might often not seem to be “severe enough” to tell anyone or to search for support or help. In the context of elite sport in particular, where the tolerance of transgressions of other kinds is necessary to reach top performance
Rachael C. Stone, Shane N. Sweet, Marie-Josée Perrier, Tara MacDonald, Kathleen A. Martin Ginis and Amy E. Latimer-Cheung
in making their athlete status apparent (e.g., wearing team clothing, working participation into conversation, highlighting participation on résumés)—similar to overtly describing an adult as an elite sport participant in this study in an effort to mitigate the disability stereotypes they face from
Caroline Giroux, Giuseppe Rabita, Didier Chollet and Gaël Guilhem
Performance during human movements is highly related to force and velocity muscle capacities. Those capacities are highly developed in elite athletes practicing power-oriented sports. However, it is still unclear whether the balance between their force and velocity-generating capacities constitutes an optimal profile. In this study, we aimed to determine the effect of elite sport background on the force–velocity relationship in the squat jump, and evaluate the level of optimization of these profiles. Ninetyfive elite athletes in cycling, fencing, taekwondo, and athletic sprinting, and 15 control participants performed squat jumps in 7 loading conditions (range: 0%–60% of the maximal load they were able to lift). Theoretical maximal power (Pm), force (F 0), and velocity (v 0) were determined from the individual force–velocity relationships. Optimal profiles were assessed by calculating the optimal force (F 0th) and velocity (v 0th). Athletic sprinters and cyclists produced greater force than the other groups (P < .05). F 0 was significantly lower than F 0th, and v 0 was significantly higher than v 0th for female fencers and control participants, and for male athletics sprinters, fencers, and taekwondo practitioners (P < .05). Our study shows that the chronic practice of an activity leads to differently balanced force–velocity profiles. Moreover, the differences between measured and optimal force–velocity profiles raise potential sources of performance improvement in elite athletes.
Michael Hutchison, Paul Comper, Lynda Mainwaring and Doug Richards
The baseline / postconcussion neuropsychological (NP) assessment model has been shown to be of clinical value and currently contributes significant information in sport concussion evaluation. Computerized NP batteries are now widely used in elite sport environments and are rapidly becoming more commonly utilized at the community level. With the growth of computerized NP testing, it is important to identify and understand unique characteristics with respect to baseline NP performance. The Automated Neuropsychological Assessment Metrics (ANAM) is a library of computerized NP tests designed to detect speed and accuracy of attention, memory, and thinking ability. This article describes baseline ANAM test scores in a sample of Canadian university athletes and explores the following two factors: (a) performance differences between male and female student-athletes using ANAM tests and (b) the relationship between self-reported history of concussion and baseline NP performance.
Matt Greig, Hannah Emmerson and John McCreadie
analysis, and the widespread use of this technology in elite sport have typically been associated with performance metrics. 14 – 16 However, the opportunity to collect multiplanar acceleration data at a relatively high frequency, but with far greater ecological validity than laboratory-based paradigms