Investigating the Anthropometric Variables and Bio-Motoric Properties in Male and Female Swimmers
Abstract
The
purpose of this study was to investigate the anthropometric features, and some
bio-motoric properties in young male and female swimmers. Furthermore, this
study aimed to investigate the relationship between anthropometric and
bio-motoric variables considering the gender differences. Eighteen male and
seventeen female amateur swimmers (mean age = 13.4 ± 2.9 and 12.7 ± 2.2 years
respectively) volunteered to participate in this study. All swimmers were
member of the same team who had trained at least for 3 days in a week. The
anthropometric features were evaluated by height, weight, skinfold thicknesses
(triceps, biceps, pectoral chest,
midaxillary, abdominal, subscapular, midthigh, suprailium, supraspinale, and
calf skinfold thicknesses), breadth, and girth measurements, and body
fat. The bio-motoric variables were limited with flexibility, squat jump (SJ),
counter movement jump (CMJ), and handgrip strength. The results showed that
there was no significant differences between groups for age, height, weight,
skinfold thicknesses and ∑8 skinfolds (p>0.05). However, there was a
significant difference between groups for body fat (p<0.01), humerus and
femur breadth values (p<0.01), and for waist girth values (p<0.05). There
was significant differences between male and female swimmers for investigated
bio-motoric properties. The results showed that the SJ and CMJ values were
significantly related with height, weight, breadth, and girth measurements
(p<0.01) in male swimmers. On the other hand, no such relationship was found
in female swimmers. In
conclusion, present study indicated that there were
significant differences between genders, with favor results for male swimmers.
The determination of anthropometric properties may help the trainers to predict
and follow the swimmers’ performance.
Keywords
References
- Ayan V, Kavi N (2016). “The study of the somatotypes and the horizontal jump performance characteristics of the female swimmers aged between 8 and 14.” International Journal of Science Culture and Sport (IntJSCS), 4(special issue 1): 23-30.
- Bencke J, Damsgaard R, Saekmose A, Jørgensen P, Jørgensen K, Klausen K (2002). “Anaerobic power and muscle strength characteristics of 11 years old elite and non-elite boys and girls from gymnastics, team handball, tennis and swimming.” Scandinavian Journal of Medicine and Science in Sports, 12(3):171-178.
- Benjanuvatra N, Edmunds K, Blanksby B (2007). "Jumping abilities and swimming grab-start performances in elite and recreational swimmers." International Journal of Aquatic Research and Education, 1(3): 231-241.
- Bosco C, Tsarpela O, Foti C, Cardinale M, Tihanyi J, Bonifazi M, Viru M, Viru, A. (2002). "Mechanical behaviour of leg extensor muscles in male and female sprinters." Biology of Sport, 19(3): 189-202.
- Busko K, Gajewski J (2011). "Muscle strength and power of elite female and male swimmers." Baltic Journal of Health and Physical Activity, 3(1): 13-18
- Cicchella A, Jidong L, Jürimäe T, Zini M, Passariello C, Rizzo L, Stefanelli C (2009). "Anthropometric comparison between young Estonian and Chinese swimmers." Journal of Human Sport and Exercise online, 4(2): 154-160.
- Çelebi Ş (2008). "We investigate body structural and functional properties in 9-13 year children who takes swimming training [Yüzme antrenmanı yaptırılan 9-13 yaş grubu ilköğretim öğrencilerinde vücut yapısal ve fonksiyonel özelliklerinin incelenmesi]" Master Thesis, Health Sciences Institute, Physical Education and Sports Department, Erciyes University, Kayseri.
- Eston R, Reilly T (Eds.) (2009). "Kinanthropometry and exercise physiology laboratory manual: tests, procedures and data." Volume 1: Anthropometry, USA and Canada, Routledge.
Details
Primary Language
English
Subjects
Sports Medicine
Journal Section
Research Article
Publication Date
December 17, 2017
Submission Date
September 25, 2017
Acceptance Date
November 26, 2017
Published in Issue
Year 2017 Volume: 5 Number: 4