46 research outputs found
The A, B, Cs of physical activity, play and motor learning
A substantial amount of international research has documented childrenâs need for explorative, experiential and challenging physical play. Through versatile and all-round varieties of play forms and play environments children will develop basic movement skills and learn how to master their body in different and challenging situations. Childrenâs play is motivated through curiosity and fantasy of exploring the environment and this allows them to master their own bodies and learn to move in a variety of different ways.
This symposium will consider how the abilities of: agility, balance and coordination (âthe A,B,Csâ) are stimulated and developed through different and open-ended affordances of play within four different European countries. The purpose of this is to share how the same early movement abilities (A,B,Cs), are developed according to context, culture and environment. The four countries have been chosen as their natural or adapted environments are varied, but they are all used to enhance and help the children to explore, engage in movement that develop their A,B,Cs.
Different kind of A,B,Câs will be demonstrated: Finland through focusing on the use of snow and ice. Belgium through focusing on the use of water and aquatic activities, using the specific CEReKi approach. Norway through focusing on the use of the woods and forest environments and England through the use of beach, sand and indoor environments. The use of tools and equipment to help support the childrenâs development will be examined as well as the role of the teacher to help aid the early movement skills within each different natural or adapted environment. Photography and illustrations will demonstrate how the A,B,Câs are developed differently within each country.
Paper one - Finnish perspective
The purpose of this presentation is to concretize affordances of Finnish nature during winter â ice and snow. Ice is fascinating slippery surface. It challenge childrenâs balance and agility constantly, when they are moving or playing on the ice. Children need to activate all their neuro-muscular systems to coordinate their body limbs to keep their balance. Controlling their bodies in different postures while standing or moving helps motivate their play. Therefore, moving on the ice can be seen as playing with own body and trying to keep the balance.
Beautiful white snow is free mattress for children: children are attracted to jump, run, throw, dive, cave, lay, roll, spin and use their creativity and desire to make whatever they imagine to try. These physical activities are excellent stimulation for the movement. Moving in the snow slows down childrenâs movements and they need to use more strength than without snow.
Nordic children are lucky to have attractive winter affordances, ice and snow to tempt them physically active play. Challenging surfaces and materials demand concentration, which is prerequisite for development of physical abilities and motor coordination. The seasonal variation with changing affordances may be one reason causing good motor competence of Nordic children.
Paper two - Belgium's perspective
The aquatic environment is generally for children a source of pleasure and fulfilment. However, water presents physical characteristics for which the humans are not fundamentally constituted. The ability to move in the water is governed by different rules that the child must appropriates in a progressive way. For example the child has to move from the vertical position to the horizontal position in water. Propulsion uses more the upper limbs than the lower limbs. Water resistance changes the speed of segmental movements and breath must be controlled. The aquatic environment should be discovered in a suitable, progressive and fun way. This is what is proposed with the CEReKi original water familiarization method developed in Belgium.
The purpose of this presentation is to illustrate how an original arrangement can stimulate the agility, balance and coordination (ABCâs) of the child in the water through active play. Specially adapted equipment is introduced into the pool to provide a stimulating environment, allowing children to evolve according to their desire and level. This presentation will show how a synthetic fibre net, bars, floats, a metal cage or slides can be used to develop children's aquatic ABCâs in an adapted and affording environment.
Paper three - Norwegian perspective
Children learn movements and gain bodily experiences by exploring different environments. Through bodily experiences, children explore details and quality of movements such as balance, coordination, speed, agility, force and endurance Children develop perceptual-motor skills through natural spontaneous interaction with the environment. The materiality of the environment affords challenges and experiences that promote motor learning and the children respond by exploring, discovering and face the challenges by mastering perceptual motor skills in context with the environment.
This presentation will demonstrate how childrenâs physical play is stimulated and developed through different and open-ended affordances of play
âHow to encourage explorative and problem-solving playâ
âHow do landscapes promote motor learning and mastering of bodily competence?â
Approaches:
* Childrenâs play and learning through experience will be demonstrated through a video of a natural play space
* Open-ended affordances of landscapes will be presented
Literature and case studies showing the contextual environment- child relationship in learning fundamental motor skills will be discussed. Multifunctional and challenging environments seem to have promotive effect on childrenâs physical and explorative play and should therefore be encouraged as a pedagogical approach in motor learning.
Paper four - English perspective.
Nowhere within the UK is further than 70 miles (113 kilometres) from the coast, and England is made up of 2728 miles (4,422 km) of coastline. The coastline has a variety of natural textures from flat sandy dunes to steep white cliffs such as those found at Dover. The beach and coastline offers English children an almost Jurassic exploration, as it is the place that is full of beauty, history and fossils, with many schools having weekly or daily âbeach schoolâ in which the children, learn, explore and play on the beach environment.
The photographs and illustrations provided in the paper will show how the abilities of agility, balance and coordination are developed through a variety of ways using the sand and beach environments. For example the fine and coarse sand are ideal for sensory touch development with children from very young age. Both the actual outdoor environments of the beach and rock pools as well as sand pits, sand boxes and water boxes within indoor settings are used to develop physical curiosity, through hiding objects that the children have to use fine motor skills to dig out, to use pincers to help develop their grasping, reaching and coordination skills
An evaluation of the reliability of the pictorial scale of perceived water competence and its relationship with actual water competence
In its recent development, the Pictorial Scale of Perceived Water Competence (PSPWC) showed good face and construct validity. However, additional reliability and validity research is needed, including test-retest reliability and a demonstration of the relationship between PSPWEC test scores and actual water competence. Toward that aim, we administered the PSPWC to 124 children, aged 5â8 years. We repeated this test administration after one week for a subset of 55 children to determine its test-retest reliability, and the remaining 69 children also performed the fully aligned Actual Aquatic Skills Test (AAST) in an indoor swimming pool to provide data for our investigation of the relationship between PSPWC scores and actual water competence. We found good test-retest reliability, both at the global level (ICC = 0.81, n = 55) and at the level of individual skills (Weighted kappa coefficients from 0.58 to 0.90), with no significant differences between these two test scores. We also found a moderate positive relationship between PSPWC and AAST total scores (r = .64, n = 69), with no significant difference between total scores of actual and perceived water competencies. Children overestimated their competence in three specific skills: the back star, swimming on the front, and diving in deep water. While these results underline specific situations in which childrenâs higher self-perceptions of their water competence are a risk factor for their water safety, these data confirm that the PSPWC is reliable for measuring childrenâs perceived competencies in aquatic education and drowning prevention, and there is further support for its validity through a moderate correlation with actual water competencies
Face and content validity of the pictorial scale of perceived water competence in young children
An international group of experts have developed a pictorial tool to measure perceived water competence for children aged from 5 to 8 years old: the Pictorial Scale of Perceived Water Competence (PSPWC). The aim of the present study was to verify the validity of this tool. In the first part of the study, 120 children were interviewed to investigate face validity of the PSPWC to ensure that all pictorial items were understandable. In the second part of the study, 13 scientific and/or pedagogical international experts were invited to assess the tool's content validity via an online survey. Face validity results revealed that children were able to understand and sequence correctly the aquatic situations in 92% of the cases. The average Content Validity Index (CVI) of the PSPWC ranged from 0.88 to 0.95, showing acceptable content validity. Feedback from experts and children resulted in a major improvement of the "exit water" situation and minor improvements concerning some other items. Experts confirmed that the PSPWC was globally appropriate for different countries and cultures, except for the situation "water entry by slide" which was not considered usual practice in some countries. The PSPWC opens up to new fields of research; useful both for the prevention of drowning and for the support of children's aquatic education
Pictorial scale of perceived water competence (PSPWC) testing manual
The Early Years Special Interest Group have completed a technical publication, âPictorial Scale of Perceived Water Competence (PSPWC) Testing Manualâ. This publication is the first to specifically focus and develop an assessment tool appropriate for young children aged 4 â 8 years old. It aims to address the following specific needs 1) to be accessible to this young age range, 2) to be suitable for children of different swimming levels, 3) cover all the aquatic fundamentals â water entry, breath control, buoyancy, balance, propulsion, immersion, water exit, gliding and vision.
The idea to develop the PSPWC started during the Early Years Special Interest Group meeting at Laramie 2016 AIESEP, which then developed into a larger group of experts in order to develop and present the assessment tool. A four year process of critical analysis, preliminary face-validity, face-validity and content validity were completed in the development of each version of the PSPWC until the final testing manual was completed. Within the testing manual all aquatic skills and test items are represented through visual methodologies of drawings by a professional illustrator. In order to engage young childrenâs interests and to keep their attention to facilitate their understanding and to obtain more meaningful responses.
The testing manual includes 3 level progressions for each situation, skill or test item, level 1 = ânot able to do the skillâ; level 2 = âskill in progressâ and level 3 = âable to do the skill. The 3 level progression was developed as the expert group considered it more appropriate to have a process orientated scale showing a childâs developmental progression. The PSPWC can be applied for use in children (measurement of their own perceived water competence), in parents (measurements of their perception of childrenâs water competence) and/or in teachers (measurement of their perception of pupilsâ / studentsâ water competence.
The testing manual is accessible to all through open access publication
Physical play - How do we inspire and motivate young children to be physically active through play? An international analysis of twelve countriesâ national early years curriculum policies and practices for physical activity and physical play
Lifelong movement and physical activity (PA) patterns develop during early childhood. Therefore, educators (teachers and practitioners) in early childhood education and care (ECEC) should provide opportunities to support childrenâs play, PA, and movement development. The World Health Organization (2019) offers new recommendations for PA, for children under five years. The guidelines do not specify the ways ECEC staff can support PA through play. Therefore, this paper investigates, how physical play (PP) is enacted globally. An international policy and practice analysis of twelve countries, (Australia [Victoria], Belgium [Flanders], Canada [Alberta], China, Finland, Ireland, Italy, Portugal, Spain, Sweden, UK [England] and USA) was completed by analyzing the ECEC curricula and their implementation in different cultural contexts. A content analysis was undertaken by AIESEP Early Years SIG experts revealing that PP was not clearly defined. When defined, it was described as PA, and important for childrenâs holistic development. The majority of curricula did not state the length/time for PP. Three main strategies for implementing PP were found: a) pedagogical framework; b) active learning methods; and c) motor development. This international analysis highlights the global need for better ECEC staff support in acknowledging and implementing PP to aid childrenâs overall development, PA and wellbeing