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Abstract
Sport stacking is an activity taught in many physical education programs. The activity, although very popular, has been studied minimally, and the energy expenditure for sport stacking is unknown. Therefore, the purposes of this study were to determine the energy expenditure of sport stacking in elementary school children and to compare that value to the energy expenditures of other activities often included in physical education curricula. Twenty-five children (mean age = 11 ± 1.6 years, 17 boys, 8 girls) had their expired gases analyzed via a metabolic cart for a 5-minute standing period to establish a baseline reading and for a 5-minute period while they were sport stacking. Energy expenditure was calculated as metabolic equivalents (METs). Repeated measures ANOVA was used to compare the mean METs between standing and stacking and between sex. Mean standing and stacking energy expenditures were significantly different. No significant differences were noted for mean energy expenditure by sex. The mean energy expenditure for sport stacking in elementary school children was 3.1 METs. The MET value for sport stacking is similar to other activities involved in typical physical education courses (e.g., bowling, dance, volleyball, weight lifting).
Physical educators incorporate a variety of activities into their curricula each year to enhance their students' physical development (Kelly & Melograno, 2004). One popular, yet sometimes controversial, activity that is being included in the physical education curriculum is sport stacking (Baumgarten, 2004; Murray & Udermann, 2004; Udermann & Murray, 2006). Sport stacking (previously referred to as cup stacking) originated some 20 years ago and has evolved into a worldwide sport, complete with its own governing body: The World Sport Stacking Association (http://www.worldsportstackingassociation.org).
Sport stacking has been purported to "result in many direct and indirect benefits" (Hart, Smith, & DeChant-Bruennig, 2006, p. 154). However, the benefits that have been shown to occur through empirical studies are hand-eye coordination (Udermann, Murray, Mayer, & Sagendorf, 2004), reaction time (Udermann et al., 2004; Gibbons, E., Hendrick, J.L., & Bauer, J., 2007; Liggins, Coleman, Solis, & Li, 2007), bilateral coordination (Rhea, Ludwig, & Mokha, 2006), and dualhemispheric brain activity (Hart & Bixby, 2005).
The improvement in hand-eye coordination seems to be related to the time involved in sport stacking. Udermann et al. (2004) found that significant improvements...