ANTHROPOMETRIC CHARACTERISTICS AND PHYSICAL FITNESS OF URBAN AND RURAL 8-10 YEARS OLD SCHOOL GIRLS OF BAHAWALPUR, PAKISTAN

Authors

  • Muhammad Zia ul Haq Department of Physical Education & Sports Science, the Islamia University of Bahawalpur, Pakistan.
  • Amna Iqbal Department of Statistics, Sir Sadiq University College for Women, Bahawalpur, Pakistan.
  • Asma Afzal Department of Physical Education & Sports Science, the Islamia University of Bahawalpur, Pakistan.
  • Hammad Ahmad Department of Physical Education & Sports Science, the Islamia University of Bahawalpur, Pakistan.
  • Sonia Abbas Department of Physical Education & Sports Science, the Islamia University of Bahawalpur, Pakistan.
  • Muqadus Yaqoob Department of Physical Education & Sports Science, the Islamia University of Bahawalpur, Pakistan.

DOI:

https://doi.org/10.15621/ijphy/2019/v6i2/181912

Keywords:

physical fitness, anthropometry, rural-urban, school girls, muscular strength, body marking

Abstract

Background: The assessment of anthropometric characteristics and physical fitness assist the researcher in comparing the growth and health status of urban and rural school girls. Purpose of this research was to examine anthropometric characteristics and physical fitness of urban and rural school girls of district Bahawalpur, Pakistan.

Methods: The participants were government primary schoolgirls (urban = 200), and (rural = 200), within the age of 8-10 years. The selected anthropometric and physical fitness variables were stature, body mass, skinfolds, girths, breadths, lengths, speed, standing broad jump, agility, ball throw, handgrip strength, endurance, and flexibility. A student t-test was applied to assess the difference between urban and rural school girls in their anthropometric and physical fitness measures.

Results: Results showed the urban school girl was significantly superior in body mass, iliac-crest skinfold(P< .04), abdominal skinfold(P< .04), waist girth (P< .04), hip girth (P< .01), thigh girth(P< .01), arm length, and hand length. In contrast, the rural school girls were significantly higher in speed(P< .02), agility(P< .02), ball throw (P< .02), flexibility( P< .03), run and walk (P< .04) than the urban school girls.

Conclusion: It is concluded the urban school girls were higher in skin folds and girths, indicate high body fats than rural school girls. As a result, urban school girls were lower in fitness capacity than rural because higher body fat reduces fitness performance. It is suggested the parents and school administration focus to provide such activities to improve physical fitness and reduce body fats of urban school girls. The future study focusses on investigating the effects of food intake on the anthropometric characteristics, and physical fitness of urban and rural school children.

References

Utzinger J, Keiser J. Urbanization and tropical health—then and now. Annals of Tropical Medicine & Parasitology. 2006. 100;(5-6): 517-533.

Bielicki T. Physical growth as a measure of economic well-being of populations: the twentieth century. 1986; In Falkner F, Tanner JM, editors. Human growth. A.

Aziz S, Ain WN, Majeed R, Khan MA, Qayum I, Ahmed I, Hosain K. Growth centile charts (anthropometric measurement) of Pakistani pediatric population. JPMA-Journal of the Pakistan Medical Association. 2012; 62(4): 367.

Joens-Matre RR, Welk GJ, Calabros MA, Nicklay B, Hensley L. Rural-Urban differences in youth physical activity, physical fitness, and overweight prevalence. A Social Ecological Analysis of Physical Activity Promotion for Overweight and Normal Weight Youth. 2006; 36.

Albarwani D, Phil S, Al-Hashmi K, Al-Abri M, Jaju D, Hassan MO. Effects of overweight and leisure-time activities on aerobic fitness in urban and rural adolescents. Metabolic syndrome and related disorders. 2009; 7(4): 369-374.

Hitchcock NE, Maller RA, Gilmour AI. Body size of young Australians aged five to 16 years. The Medical Journal of Australia. 1986; 145(8): 368-372.

Wilczewski A, Sklad M, Krawczyk B, Saczuk J, Majle B. Physical development and fitness of children from urban and rural areas as determined by EUROFIT test battery. Biology of Sport. 1996; 13: 113-126.

Reyes MP, Tan SK, Malina RM. Urban–rural contrasts in the growth status of school children in Oaxaca, Mexico. Annals of human biology. 2003; 30(6): 693-713.

Johnson MS, Figueroa-Colon R, Herd SL, Fields DA, Sun M, Hunter GR, Goran MI. Aerobic fitness, not energy expenditure, influences subsequent increase in adiposity in black and white children. Pediatrics. 2000; 106(4): e50-e50.

Malina, RM, Bouchard C, Bar-Or O. Growth, maturation, and physical activity. 2004; Human kinetics.

Taylor, HL, Buskirk E, Henschel A. Maximal oxygen intake as an objective measure of cardio-respiratory performance. Journal of applied physiology. 1955; 8(1):73-80.

Kamal, SA, Firdous S, Alam SJ. An investigation of growth profiles of the Pakistani children. Intertantional Journal Biol Biotechnol. 2004; 1: 707-17.

Mushtaq MU, Gull S, Mushtaq K, Abdullah HM, Khurshid U, Shahid U, Akram J. Height, weight and BMI percentiles and nutritional status relative to the international growth references among Pakistani school-aged children. BMC pediatrics. 2012; 12(1): 31.

Henneberg M, Louw GJ. Cross‐sectional survey of growth of urban and rural “cape coloured” schoolchildren: anthropometry and functional tests. American Journal of Human Biology: The Official Journal of the Human Biology Association. 1998; 10(1):73-85.

Heyward VH. Evaluación y prescripción del ejercicio. 2006; Editorial Paidotribo.

United Nation Social Development. Population Division. World Urbanization Prospects. 2002; The 2001 Revision (Vol. 216). United Nations Publications.

T simeas PD, Tsiokanos AL, Koutedakis Y, Tsigilis N, Kellis S. Does living in urban or rural settings affect aspects of physical fitness in children? An allometric approach. British journal of sports medicine. 2005; 39(9): 671-674.

Marfell-Jones M, Stewart A, De Ridder H. ISAK accreditation handbook. Upper Hutt, New Zealand: International Society for the Advancement of Kinanthropometry. 2012.

Norton K, Olds T. Anthropometrica: a textbook of body measurements for sports and health courses. 1996; University of New South Wales Press, Sydney, Australia.

Ujevic T, Sporis G, Milanovic Z, Pantelic S, Neljak B. Differences between health-related physical fitness profiles of Croatian children in urban and rural areas. Collegium antropologicum. 2013; 37(1): 75-80.

Arroyo M, Freire M, Ansotegui L, Rocandio AM. Intra observer error associated with anthropometric measurements made by dietitians. Nutricion hospitalaria. 2010; 25(6).

He Q, Horlick M, Thornton J, Wang J, Pierson Jr RN, Heshka S, Gallagher D. Sex and race differences in fat distribution among Asian, African-American, and Caucasian prepubertal children. The Journal of Clinical Endocrinology & Metabolism. 2002; 87(5): 2164-2170.

Pongou R, Salomon JA, Ezzati M. Health impacts of macroeconomic crises and policies: determinants of variation in childhood malnutrition trends in Cameroon. International journal of epidemiology. 2006; 35(3): 648-656.

Dollman J, Norton K, Tucker G. Anthropometry, fitness and physical activity of urban and rural South Australian children. Pediatric Exercise Science. 2002; 14(3): 297-312.

Published

08-04-2019
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How to Cite

Haq, M. Z. ul ., Iqbal, A. ., Afzal, A. ., Ahmad , H. ., Abbas, S. ., & Yaqoob , M. . (2019). ANTHROPOMETRIC CHARACTERISTICS AND PHYSICAL FITNESS OF URBAN AND RURAL 8-10 YEARS OLD SCHOOL GIRLS OF BAHAWALPUR, PAKISTAN. International Journal of Physiotherapy, 6(2), 46–51. https://doi.org/10.15621/ijphy/2019/v6i2/181912

Issue

Vol 6, Issue 2, 2019

Section

Original Articles

Copyright © Author(s) retain the copyright of this article.

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