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Abstract
Annual age grouping of children according to their birth year is a common practice of the educational systems of many countries. This variation in birth dates among children grouped in the same generation is known as relative age and its implications on different developmental outcomes are referred to as relative age effects (RAEs). The previous body of research of RAEs in youth populations has focused on sporting samples; however, studies examining RAEs in physical education are scarce. The current study investigates the influence of the RAEs on motor abilities in a sample of adolescent pupils. The results indicate significant differences in motor abilities between relatively older and relatively younger participants of both sexes. Since RAE is an under-researched area in physical education, the results may have substantial implications for PE assessment given the fact that many PE teachers still carry out typical norm-referenced assessments. Possible recommendations for future research are discussed.
References
Section:
|
Barnsley, RH, Thompson, AH, Barnsley, PE (1985) Hockey success and birthdate: The RAE. Canadian Association for Health, Physical Education, and Recreation 51(1): 23–28. Google Scholar | |
|
Baxter-Jones, ADG (1995) Growth and development of young athletes: Should competition levels be age-related? Sports Medicine 20(2): 59–64. Google Scholar | Crossref | Medline | |
|
Baxter-Jones, A, Helms, P, Baines-Preece, J. (1994) Growth and development of male athletes: Implications for identification of talent. Journal of Sports Sciences 12(2): 156. Google Scholar | |
|
Baxter-Jones, A, Helms, P, Maffuli, N. (1995) Growth and development of male gymnasts, swimmers, soccer and tennis players: a longitudinal study. Annals of Human Biology 22(5): 381–394. Google Scholar | Crossref | Medline | ISI | |
|
Bell, JF, Massey, A, Dexter, T (1997) Birthdate and ratings of sporting achievement: Analysis of physical education GCSE results. Physical Education and Sport Pedagogy 2(2): 160–166. Google Scholar | |
|
Cobley, S, Abraham, C, Baker, J (2008) Relative age effects on physical education attainment and school sport participation. Physical Education and Sport Pedagogy 13(3): 267–276. Google Scholar | Crossref | |
|
Cobley, S, Baker, J, Wattie, N. (2009) Annual age-grouping and athlete development: A meta analytical review of relative age effects in sport. Sports Medicine 39(3): 235–256. Google Scholar | Crossref | Medline | |
|
Cohen, J (1992) A power primer. Psychological Bulletin 112(1): 155–159. Google Scholar | Crossref | Medline | ISI | |
|
Eurofit (1993) Eurofit Tests of Physical Fitness. 2nd ed. Strasbourg: Council of Europe, Committee for the Development of Sport. Google Scholar | |
|
Gledhill, J, Ford, T, Goodman, R (2002) Does season of birth matter? The relationship between age within the school year (season of birth) and educational difficulties among a representative general population sample of children and adolescents (aged 5–15) in Great Britain. Research in Education 68(1): 41–47. Google Scholar | SAGE Journals | |
|
Lefevre, J, Beunen, G, Steens, G. (1990) Motor performance during adolescence and age thirty as related to age at peak height velocity. Annals of Human Biology 17(5): 423–435. Google Scholar | Crossref | Medline | ISI | |
|
McPhillips, M, Jordan-Black, JA (2009) The effect of month of birth on the attainments of elementary and secondary school students. The British Journal of Educational Psychology 79(3): 419–438. Google Scholar | Crossref | Medline | |
|
Malina, RM (1994) Physical growth and biological maturation of young athletes. Exercise and Sport Sciences Reviews 22(1): 389–434. Google Scholar | Crossref | Medline | |
|
Malina, RM, Bouchard, C, Bar-Or, O (2004) Maturity-associated variation in growth and performance. In: Malina, RM, Bouchard, C, Bar-Or, O (eds) Growth, Maturation, and Physical Activity. Champaign, IL: Human Kinetics, pp.337–368. Google Scholar | |
|
Malina, RM, Ribeiro, B, Aroso, J. (2007) Characteristics of youth soccer players aged 13-15 years classified by skill level. British Journal of Sports Medicine 41(5): 290–295. Google Scholar | Crossref | Medline | |
|
Musch, J, Grondin, S (2001) Unequal competition as an impediment to personal development: A review of the relative age effect in sport. Developmental Review 21(2): 147–167. Google Scholar | Crossref | ISI | |
|
Roberts, SJ, Boddy, LM, Fairclough, SJ. (2012) The influence of relative age effects on the cardiorespiratory fitness levels of children age 9 to 10 and 11 to 12 years of age. Pediatric Exercise Science 24(1): 72–83. Google Scholar | Crossref | Medline | |
|
Sprietsma, M (2010) Effect of relative age in the first grade of elementary school on long-term scholastic results: International comparative evidence using PISA 2003. Education Economics 18(1): 1–32. Google Scholar | Crossref | |
|
The Official Gazette of the Republic of Serbia (2011) 74. Available at: http://www.pravno-informacioni-sistem.rs/SlGlasnikPortal/arhslgl/SGARHSTARO/numberOverview?numberId=10220 (accessed 22 May 2013). Google Scholar | |
|
Vučković, I, Kukrić, A, Petrović, B. (2013) Relative age effects and young basketball players’ selection. Physical Culture 67(2): 113–119. Google Scholar | |
|
Wattie, N, Cobley, S, Baker, J (2008) Toward a unified understanding of relative age effects. Journal of Sports Sciences 26(13): 1403–1409. Google Scholar | Crossref | Medline | |
|
Wattie, N, Tietjens, M, Schorer, J. (2014) Does relative age influence motor test performance of fourth grade pupils? European Physical Education Review 20(3): 398–406. Google Scholar | SAGE Journals | |
|
West, SG, Finch, JF, Curran, PJ (1995) Structural equation models with nonnormal variables: Problems and remedies. In: Hoyle, RH (ed) Structural Equation Modeling: Concepts, Issues and Applications. Newbery Park, CA: SAGE Publications, pp.56–75. Google Scholar |
