ORCID Profile
0000-0003-3869-7600
Current Organisations
University of Technology Sydney
,
Swiss Lifesaving Federation / Schweizerische Lebensrettungsgesellschaft (SLRG)
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Publisher: Routledge
Date: 04-11-2019
Publisher: Frontiers Media SA
Date: 28-09-2022
DOI: 10.3389/FPSYG.2022.982480
Abstract: Drowning has been the cause of over 2.5 million preventable deaths in the past decade. Despite the fact that the majority of drownings occur in open water, assessment of water safety competency typically occurs in swimming pools. The assessment of water safety competency in open water environments brings with it a few difficulties, but also promises tremendous benefits. The aim of this position paper is to discuss the benefits and caveats of conducting assessments in open water environments as opposed to closed and controlled environments, and to provide recommendations for evidence-based practice. The first theoretical section discusses the effects of the environment and key variables (such as temperature and water movement) on various factors of assessment. These discussions are linked to the two perspectives of representative learning design (based on ecological dynamics) and information processing theory. The second section presents two pilot studies of relevance and provides practical implications for assessment of water safety competency. It seems that a combination of pool-based practice and open water education may be ideal in assessing aquatic skills competency. Assessment in open water presents clear benefits regarding validity, but often poses seemingly unsurmountable barriers, which providers may have reservations about in the absence of clear evidence. Hence this article provides a robust discussion about competency assessment and signals the practical importance of faithfully reproducing the environment in which skilled behavior is most relevant.
Publisher: SAGE Publications
Date: 02-04-2019
Abstract: The capacity for storing and manipulating information (a function of working memory) is not fully developed until adulthood, so children are not always able to process explicit instructions when learning a new skill. A teaching method that may solve this problem is analogy learning, which compares the to-be-learned skill with a well-known concept by way of a single metaphorical instruction. In adults, analogy learning has been shown to lead to lower load on working memory by reducing the need for conscious processing however, the effects are unclear in children. If analogy instructions work similarly in children, the propensity to consciously control movements may affect how well children learn by analogy. It is in the interest of coaches and teachers to determine whether analogy instructions can be used to reduce conscious processing in children, and whether propensity for conscious control of movements (movement specific reinvestment) predicts benefits from analogy learning. Thirteen-year-old golf novices (n = 44) were pre-tested and post-tested after practicing a golf-chipping task using explicit rules. One week later, an analogy for learning the golf chip was introduced, and an identical set of post-tests was repeated. Propensity for conscious control/reinvestment predicted improvement in accuracy after the analogy was introduced. Children's motor learning by analogy may be affected by their propensity for conscious control of movements, which suggests that coaches should adapt instructions to in idual differences between learners.
Publisher: Elsevier BV
Date: 06-2022
Publisher: Frontiers Media SA
Date: 08-10-2021
DOI: 10.3389/FPSYG.2021.733489
Abstract: Learning aquatic skills is an important component of developing physical literacy in children. Aquatic skills such as floating, swimming and safe entry/exit promote engagement in different water environments and may help preserve lives in an emergency. This scoping review was conducted to evaluate the influence of task constraints (i.e., equipment) and environmental constraints (i.e., physical and social) on how children learn foundational aquatic skills. In developed countries, children are typically taught in swimming pools under direct supervision. It is also not uncommon to see children and infants learning to swim with assistive equipment (e.g., buoyancy aids). However, perhaps surprisingly, the evidence on how and where children learn aquatic skills does not uniformly promote such practices. For ex le, the use of flotation devices has not been proven to aid skill learning. Some researchers have advocated that children should learn aquatic skills whilst wearing outdoor clothing. One benefit of children wearing clothing is an increased capacity to practice in colder water (such as the ocean, rivers, or lakes). Overall, whilst practitioners often use equipment for various reasons it seems that not all equipment is equally useful in promoting the acquisition of aquatic skills. In less developed countries, with limited access to swimming pools and fewer resources for private instruction, a range of different open water aquatic environments and practices, such as swimming in temporarily flooded areas, have been reported. Such strategies are in urgent demand of further research given that drowning rates in less developed countries around the world exceed those in developed nations. It can be argued that learning in pools does not afford the opportunities to develop the whole range of adaptive skills that may be required in different open water environments such as navigating currents and waves, floating whilst clothed, or making life-saving decisions. Consequently, a shift toward teaching in open water environments has occurred in several countries. This review provides an evidence-base upon which practitioners can design more effective aquatic education programs for children.
Publisher: Frontiers Media SA
Date: 20-08-2021
DOI: 10.3389/FPHYS.2021.719788
Abstract: In an immersion incident, a person may be required to tread water for extended periods of time in order to survive. Treading water, or maintaining a stable head position above the water surface, can be achieved in several different ways. Determining which treading water techniques are economic (energetically and cognitively) is an important first step in approaching evidence-based water safety instruction. The present study investigated the cognitive and metabolic demands associated with four main techniques for treading water in experienced water treaders. Skilled water treaders ( n =21) performed four common treading techniques for 3min each: “running” in the water, “flutter kick” with hands sculling, “upright breaststroke,” and “egg-beater.” Self-reported rate of perceived exertion (RPE) and task load index (TLX) score, as well as objective measures of probe reaction time (PRT i.e., response to auditory cues while treading), oxygen consumption and heart rate were assessed. The “egg-beater” technique and the “upright breaststroke” technique were linked to significantly lower cognitive and energetic demands compared to the other techniques (VO 2 : p & .001 – “Running” M =29.02, SD =7.40/“Flutter kick” M =29.37, SD =8.56, “Breaststroke” M =23.47, SD =7.28, and “Eggbeater” M =23.18, SD =6.31). This study lays the groundwork for future research that may establish the ideal movement behavior in drowning situations and investigate movement instruction to less experienced treaders.
Publisher: American Psychological Association (APA)
Date: 02-2019
DOI: 10.1037/SPY0000142
Publisher: Elsevier BV
Date: 03-2020
Publisher: Elsevier
Date: 2017
DOI: 10.1016/BS.PBR.2017.06.013
Abstract: This study explored the relationship between working memory (WM) capacity, corticocortical communication (EEG coherence), and propensity for conscious control of movement during the performance of a complex far-aiming task. We were specifically interested in the role of these variables in predicting motor performance by novices. Forty-eight participants completed (a) an assessment of WM capacity (an adapted Rotation Span task), (b) a questionnaire that assessed the propensity to consciously control movement (the Movement Specific Reinvestment Scale), and (c) a hockey push-pass task. The hockey push-pass task was performed in a single task (movement only) condition and a combined task (movement plus decision) condition. Electroencephalography (EEG) was used to examine brain activity during the single task. WM capacity best predicted single task performance. WM capacity in combination with T8-Fz coherence (between the visuospatial and motor regions of the brain) best predicted combined task performance. We discuss the implied roles of visuospatial information processing capacity, neural coactivation, and propensity for conscious processing during performance of complex motor tasks.
Location: Switzerland
No related grants have been discovered for Tina van Duijn.