Abstract
(1) Background: Uncertainty in extreme sports performance environments, such as climbing, provides considerable psycho-emotional and physiological demands, notably due to the many different environments in which climbing can be performed. This variety of environments, conditions of practice and engagement would challenge the acquisition of perceptual-motor skills; (2) Methods: To better understand how perceptual-motor skills are controlled and acquired in climbing, we proposed a narrative review anchored in the ecological dynamics theoretical framework and showed how this theoretical framework would support a nonlinear pedagogy to skill acquisition and to design safe learning and training situations that are representative of extreme performance contexts; (3) Results: We explained three theoretical pillars and we provide examples for design intervention following nonlinear pedagogy, notably (i) to set a constraint-led approach (in particular task constraint), (ii) to implement conditions of practice (constant vs. variable, imposed vs. self-controlled), (iii) to promote adaptive and creative behavioral variability during practice; (4) Conclusions: The challenge for the extreme sport practitioner is how to set up conditions of practice for efficient exploration in a manner that manages the dangers of performing in uncertain environments. Representing uncertainty within the relative safety of indoor settings may be one approach for preparing climbers for performance in extreme environments.
Highlights
Uncertainty in extreme sports environments, such as climbing, provides considerable psycho-emotional and physiological demands, notably due to the many different environments in which climbing can be performed
We present the framework of the ecological dynamics and how this theoretical framework would support a nonlinear pedagogy to skill acquisition
We conceptualized how, within the framework of the ecological dynamic, environments, conditions of practice and engagement would challenge the acquisition of perceptual-motor skills in extreme sports, such as climbing
Summary
Uncertainty in extreme sports environments, such as climbing, provides considerable psycho-emotional and physiological demands, notably due to the many different environments in which climbing can be performed. Climbing can be performed indoor and outdoor, for differing heights, altitudes, surfaces (rock, snow, ice or mixed), tools as support (e.g., ice axes, crampons), protection and engagement (with or without bolts, solo, top-rope or on-sight) This variety of environments, conditions of practice and engagement would challenge the acquisition of perceptual-motor skills. Ecological dynamics is a multi-disciplinary framework that adopts concepts and tools of dynamical system theory, ecological psychology and complex system in neurobiology to investigate and model the relationships that emerge in extreme sports between athletes and their environment In this relation, the performed behavior emerges through the continuous and active exploration of the environmental properties according to the individual intentions, body properties, perceptions and action capabilities. Self-controlled), (iii) to promote adaptive and creative behavioral variability during practice
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