Anthropometric Characteristics and Somatotype Profiles of University Athletes in Nigeria: A Cross-Sectional Study

Bankole, Japheth Leko
Department of Anatomy, Faculty of Basic Medical Sciences, Madonna University, Elele Campus, Rivers State, Nigeria
Idowu Elijah Adefisan
Department of Anatomy, Faculty of Basic Medical Sciences,University of Medical Sciences, Ondo, Ondo State, Nigeria.

Published 17-08-2024

Keywords

  • Anthropometry,
  • Somatotype,
  • Collegiate athletes,
  • Body composition,
  • Sport-specific characteristics

How to Cite

Leko, B. J., & Adefisan, I. E. (2024). Anthropometric Characteristics and Somatotype Profiles of University Athletes in Nigeria: A Cross-Sectional Study. International Journal of Kinanthropometry, 4(2), 67–79. https://doi.org/10.34256/ijk2427

Dimensions

Abstract

Introduction: This study aimed to determine and compare the anthropometric characteristics and somatotypes of male athletes participating in volleyball, basketball, and soccer at Madonna University, Nigeria. Methods: A cross-sectional study was conducted with 50 male athletes (15 volleyball, 15 basketball, 20 soccer players) aged 18-25 years. Anthropometric measurements, including height, weight, skinfold thicknesses, bone girths, and circumferences, were obtained. Somatotype was estimated using the Heath-Carter method. One-way ANOVA was used to compare the differences between the sports. Results: Basketball players were taller and heavier than the other athletes. Significant differences were found in height (p=0.033), triceps skinfold thickness (p=0.049), and humerus breadth (p=0.013) among the three sports. Volleyball players exhibited the highest endomorphy (4.03 ± 2.09) and mesomorphy (5.16 ± 1.44) scores, while soccer players showed the lowest endomorphy (2.97 ± 0.32) and highest ectomorphy (1.65 ± 0.71) values. The majority of athletes across all three sports were classified as endomorphic mesomorphs. Conclusion: The study provides insights into sport-specific physical characteristics and body compositions among Nigerian collegiate athletes, which may inform talent identification and training strategies. The findings highlight the need for further research to understand the unique attributes of athletes in these sports within the Nigerian context.

References

  1. Abarghoueinejad, M., Barreira, D., Dias, C., Guimarães, E., Baxter-Jones, A.D., & Maia, J. (2021). Body physique, body composition, physical performance, technical and tactical skills, psychological development, and club characteristics of young male Portuguese soccer players: The INEX Study. International Journal of Environmental Research and Public Health, 18(7): 3560. https://doi.org/10.3390/ijerph18073560
  2. Akagi, R., Tohdoh, Y., & Takahashi, H. (2014). Strength and size ratios between reciprocal muscle groups in the thigh and lower leg of male collegiate soccer players. Clinical Physiology and Functional Imaging, 34(2):121-125. https://doi.org/10.1111/cpf.12073
  3. Akdoğan, E., & Taşçıoğlu, R. (2022). Comparison of body composition of volleyball, handball and football female players. Kinesiologia Slovenica Scientific Journal on Sport, 28(3): 43–53. https://doi.org/10.52165/kinsi.28.3.43-53
  4. Altavilla, G., D'Isanto, T., & Di Tore, P.A. (2018). Anthropometrics characteristics and jumping ability in basketball, Journal of Human Sport and Exercise, 13(Proc2): S385-S392.
  5. Apostolidis, N, Nassis, G.P., Bolatoglou, T, Geladas, N.D. (2003).Physiological and technical characteristics of elite young basketball players. Journal of Sports Medicine and Physical Fitness, 44(2):157–163.
  6. Appel, M., Zentgraf, K., Krüger, K., & Alack, K. (2021). Effects of genetic variation on endurance performance, muscle strength, and injury susceptibility in sports: A systematic review. Frontiers in physiology, 12: 694411. https://doi.org/10.3389/fphys.2021.694411
  7. Bauman, A., Smith, B., Stoker, L., Bellew, B., & Booth, M. (1999). Geographical influences upon physical activity participation: evidence of a ‘coastal effect’. Australian and New Zealand journal of public health, 23(3): 322-324. https://doi.org/10.1111/j.1467-842X.1999.tb01265.x
  8. Bawari, B., Adhikari, R., Easow, J., & Pullinger, S. A. (2023). Somatotype and Body Composition of Indian Male and Female Swimmers, and their Relationship to Countermovement Jump Performance. International Journal of Kinanthropometry, 3(2): 84–95. https://doi.org/10.34256/ijk23210
  9. Bidaurrazaga-Letona, I., Zubero, J., Lekue, J. A., Amado, M., & Gil, S. M. (2016). Anthropometry and somatotype of pre-adolescent soccer players: Comparisons amongst elite, sub-elite and non-elite players with non-players. Collegium Antropologicum, 40(4): 269-277.
  10. Boyce, L., Schoenfeld, M. (2022). Strength training for all body types: The science of lifting and levers. Human Kinetics.
  11. Brener, A., Waksman, Y., Rosenfeld, T., Levy, S., Peleg, I., Raviv, A., Interator, H., Lebenthal, Y. (2021). The heritability of body composition. BMC pediatrics, 21(1): 225. https://doi.org/10.1186/s12887-021-02695-z
  12. Buśko, K., Lewandowska, J., Lipińska, M., Michalski, R., & Pastuszak, A. (2013). Somatotype: variables related to muscle torque and power output in female volleyball players. Acta of bioengineering and biomechanics, 15(2): 119-126.
  13. Cáceres, L., Chena, M., Izquierdo, A., Moreno-Ortega, A. (2019). Effect of contextual factors in body composition of professional soccer players. A retrospective study. Nutricion Hospitalaria, 36(6): 1324-1331.
  14. Cárdenas-Fernández, V., Chinchilla-Minguet, J. L., & Castillo-Rodriguez, A. (2019). Somatotype and body composition in young soccer players according to the playing position and sport success. The Journal of Strength & Conditioning Research, 33(7), 1904-1911. https://doi.org/10.1519/JSC.0000000000002125
  15. Cherif, M., Said, M. A., Bannour, K., Alhumaid, M.M., Chaifa, M.B., Khammassi, M., & Aouidet, A. (2022). Anthropometry, body composition, and athletic performance in specific field tests in Paralympic athletes with different disabilities. Heliyon, 8(3): e09023. https://doi.org/10.1016/j.heliyon.2022.e09023
  16. Clarys, J.P., Alewaeters, K., & Zinzen, E. (2001). The influence of geographic variations on the muscular activity in selected sports movements. Journal of Electromyography and Kinesiology, 11(6): 451-457. https://doi.org/10.1016/S1050-6411(01)00020-7
  17. Clemente-Suarez, V.J. (2015). The importance of intensity in the prescription of health training. [La importancia de la intensidad en la prescripción de entrenamiento para la salud]. Ricyde Revista Internacional De Ciencias Del Deporte, 11(41): 192–195. https://doi.org/10.5232/ricyde2015.041ed
  18. Cullen, S., Fleming, J., Logue, D. M., O’Connor, J., Connor, B., Cleary, J., Watson, J.A., Madigan, S.M. (2020). Anthropometric profiles of elite athletes. Journal of Human Sport and Exercise, 17(1). https://doi.org/10.14198/jhse.2022.171.14
  19. De Melo, I. G., Da Cunha, E. C., Neves, J. a. J. D., Pedrosa, O. P., & Chediak, S. (2012). Estudo do somatótipo de adolescentes de cursos técnico integrado ao ensino médio em um município de rondônia (Brasil). Fiep Bulletin - Online, 82(2).
  20. Debnath, M., Dey, S.K., Bandyopadhyay, A., & Datta, G. (2023). Effect of dietary modification and intense training on body composition and lipid profile of young male footballers. Science & Sports, 38(3): 255-265. https://doi.org/10.1016/j.scispo.2021.08.012
  21. Feriche, B., Schoenfeld, B.J., Bonitch-Gongora, J., de la Fuente, B., Almeida, F., Argüelles, J., Benavente, C., & Padial, P. (2020). Altitude-induced effects on muscular metabolic stress and hypertrophy-related factors after a resistance training session. European Journal of Sport Science, 20(8): 1083-1092. https://doi.org/10.1080/17461391.2019.1691270
  22. Gabbett T.J. (2008). Do skill-based conditioning games offer a specific training stimulus for junior elite volleyball players?. Journal Strength Conditioning, 22(2): 509-517. https://doi.org/10.1519/JSC.0b013e3181634550
  23. Gualdi-Russo, E., & Zaccagni, L. (2001). Somatotype, role and performance in elite volleyball players. Journal of Sports Medicine and physical fitness, 41(2): 256.
  24. Jezdimirović, M., Joksimović, A., Stankovic, R., & Bubanj, S. (2013). Differences in the Vertical Jump in Soccer Players According To Their Position on the Team. Facta Universitatis: Series Physical Education & Sport, 11(3).
  25. Kaplánová, A., Sagát, P., Gonzalez, P.P., Bartík, P., & Zvonař, M. (2020). Somatotype profiles of Slovak and Saudi Arabian male soccer players according to playing positions. Kinesiology, 52(01): 143-150. https://doi.org/10.26582/k.52.1.17
  26. Karatieieva, S.Y., Slobodian, O.M., Bilookyi, O.V., Slobodian, K., & Muzyka, N.Y. (2023). Elaborating a Prediction Model For Thigh Circumference Among Bukovyna Student Athletes Based On Their Type Of Sport. Актуальні Проблеми Сучасної Медицини Вісник Української Медичної Стоматологічної Академії, 23(2.2), 21–25. https://doi.org/10.31718/2077-1096.23.2.2.21
  27. Karol Gryko, Anna Kopiczko, kazimierz Mikolajec, Petr Stasny and Martin Musalek (2018): Anthropometric variables and somatotype of young and professional male basketball players. Sports, 6(9): https://doi.org/10.3390/sports6010009
  28. Kurtoglu, A., Eken, O., Çiftçi, R., Çar, B., Dönmez, E., Kılıçarslan, S., Jamjoom, Nagwan Abdel Samee, Hassan, D.S.M., Mahmoud, N.F. (2024). The role of morphometric characteristics in predicting 20-meter sprint performance through machine learning. Scientific Reports, 14(1), 16593.
  29. Lago-Penas, C., Casais, L., Dellal, A., Rey, E., Domínguez, E. (2011). Anthropometric and physiological characteristics of young soccer players according to their playing positions: relevance for competition success. The Journal of Strength & Conditioning Research, 25(12), 3358-3367.
  30. Lanier, E. (1997). The relationship between body morphology and visuo-spatial-temporal skills. New Mexico State University.
  31. Livingstone, K.M., Tan, M.H., Abbott, G., Duckham, R.L., Croft, L., Ward, J., McEvoy, M., Keske, M.A., Austin, C., Bowe, S.J. (2021). Discovery Genome-Wide Association Study of Body Composition in 4,386 Adults from the UK Biobank’s Pilot Imaging Enhancement Study. Frontiers in Endocrinology, 12, 692677. https://doi.org/10.3389/fendo.2021.692677
  32. Lukaski, H., & Raymond-Pope, C.J. (2021). New frontiers of body composition in sport. International journal of sports medicine, 42(07): 588-601. https://doi.org/10.1055/a-1373-5881
  33. Mala, L., Maly, T., Zahalka, F., Bunc, V., Kaplan, A., Jebavy, R., & Tuma, M. (2015). Body composition of elite female players in five different sports games. Journal of human kinetics, 45(1): 207-215. https://doi.org/10.1515/hukin-2015-0021
  34. Marques, M.C., Marinho, D.A. (2009). Physical parameters and performance values in starters and non-starters volleyball players: A brief research note. Motricidade, 5(3): 7-11. https://doi.org/10.6063/motricidade.5(3).189
  35. Martinez-Ferran, M., Rafei, E., Romero-Morales, C., Pérez-Ruiz, M., Lam-Meléndez, A., Munguia-Izquierdo, D., Pareja-Galeano, H. (2022). Optimizing field body fat percentage assessment in professional soccer players. Applied Sciences, 12(2): 727. https://doi.org/10.3390/app12020727
  36. Nebigh, A., Abed, M.E., Borji, R., Sahli, S., Sellami, S., Tabka, Z., Rebai, H. (2017). Bone turnover markers and lean mass in pubescent boys: comparison between elite soccer players and controls. Pediatric Exercise Science, 29(4): 513-519. https://doi.org/10.1123/pes.2017-0090
  37. Nikolaidis, P.T., Afonso, J., & Busko, K. (2015b). Differences in anthropometry, somatotype, body composition and physiological characteristics of female volleyball players by competition level. Sport Sciences for Health, 11: 29-35. https://doi.org/10.1007/s11332-014-0196-7
  38. Nikolaidis, P.T., Afonso, J., Buśko, K., Ingebrigtsen, J., Chtourou, H., & Martin, J. J. (2015a). Positional differences of physical traits and physiological characteristics in female volleyball players–the role of age. Kinesiology, 47(1): 75-81.
  39. Palao, J. M., Manzanares, P., & Valadés, D. (2014). Anthropometric, physical, and age differences by the player position and the performance level in volleyball. Journal of human kinetics, 44(1): 223-236.
  40. Park, H., & Kim, S.H. (2024). The effect of sport-specific training on body composition and isokinetic muscular strength in handball players. Journal of Korean Society for the Study of Physical Education, 28(6):137–145. https://doi.org/10.15831/JKSSPE.2024.28.6.137
  41. Payne, J., & Montgomery, H. (2004). Genetic variation and physical performance. Nutrigenetics and Nutrigenomics, 93:270-302. https://doi.org/10.1159/000081261
  42. Pelin, C., Kürkçüođlu, A., Özener, B., & Canan Yazýcý, A. (2009). Anthropometric characteristics of young Turkish male athletes. Collegium antropologicum, 33(4): 1057-1063.
  43. Perroni, F., Vetrano, M., Camolese, G., Guidetti, L., & Baldari, C. (2015). Anthropometric and somatotype characteristics of young soccer players: Differences among categories, subcategories, and playing position. The Journal of Strength & Conditioning Research, 29(8): 2097-2104. https://doi.org/10.1519/JSC.0000000000000881
  44. Petri, C., Campa, F., Holway, F., Pengue, L., & Arrones, L.S. (2024). ISAK-based anthropometric standards for elite male and female soccer players. Sports, 12(3): 69. https://doi.org/10.3390/sports12030069
  45. Pietraszewska, J., Burdukiewicz, A., Stachon, A., Andrzejewska, J., & Pietraszewski, B. (2015). Anthropometric characteristics and lower limb power of professional female volleyball players. South African Journal for Research in Sport, Physical Education and Recreation, 37(1): 99-112.
  46. Pocek, S., Milosevic, Z., Lakicevic, N., Pantelić-Babić, K., Imbronjev, M., Thomas, E., Bianco, A., & Drid, P.. (2021). Anthropometric Characteristics and Vertical Jump Abilities by Player Position and Performance Level of Junior Female Volleyball Players. International Journal of Environmental Research and Public Health, 18(6), 8377. https://doi.org/10.3390/ijerph18168377
  47. Podrigalo, L., Ke, S., Cynarski, W. J., Perevoznyk, V., Paievskyi, V., Volodchenko, O., & Kanunova, L. (2023). Comparative analysis of physical development and body composition of kickboxing athletes with different training experience. Slobozhanskyi Herald of Science and Sport, 27(3):145–152. https://doi.org/10.15391/snsv.2023-3.005
  48. Portes, L.A., Canhadas, I.L., Silva, R.L.P., & de Oliveira, N.C. (2015). Anthropometry and fitness of young elite soccer players by field position. Sport Sciences for Health, 11, 321-328. https://doi.org/10.1007/s11332-015-0243-z
  49. Puthucheary, Z., Skipworth, J.R., Rawal, J., Loosemore, M., Van Someren, K., & Montgomery, H.E. (2011). Genetic influences in sport and physical performance. Sports medicine, 41, 845-859. https://doi.org/10.2165/11593200-000000000-00000
  50. Rahmawati, N.T. (2003). Somatotypes of Javanese soccer and volleyball players in Yogyakarta. Berk Ilmu Kedokt, 35, 157-164.
  51. Reilly, T., Bangsbo, J., & Franks, A. (2000). Anthropometric and physiological predispositions for elite soccer. Journal of sports sciences, 18(9): 669-683. https://doi.org/10.1080/02640410050120050
  52. Rienzi, E., Reilly, T., & Malkin, C. (1999). Investigation of anthropometric and work-rate profiles of Rugby Sevens players. Journal of Sports Medicine and Physical Fitness, 39(2): 160-164.
  53. Sánchez-Muñoz, C., Zabala, M., & Williams, K. (2012). Anthropometric variables and its usage to characterise elite youth athletes. In Handbook of anthropometry: Physical measures of human form in health and disease, New York. https://doi.org/10.1007/978-1-4419-1788-1_114
  54. Santos, D.A., Dawson, J.A., Matias, C.N., Rocha, P.M., Minderico, C.S., Allison, D.B., Sardinha, L.B., Silva, A.M. (2014). Reference values for body composition and anthropometric measurements in athletes. PloS one, 9(5): e97846. https://doi.org/10.1371/journal.pone.0097846
  55. Silva, A.M. (2019). Structural and functional body components in athletic health and performance phenotypes. European journal of clinical nutrition, 73(2), 215-224. https://doi.org/10.1038/s41430-018-0321-9
  56. Sodhi, H.S. (1980). Kinanthropometry and performance of top ranking Indian basketball players. British Journal of Sports Medicine, 14: 139-144. https://doi.org/10.1136/bjsm.14.2-3.139
  57. Staśkiewicz-Bartecka, W., Grochowska-Niedworok, E., Zydek, G., Grajek, M., Kiciak, A., Białek-Dratwa, A., Niewiadomska, E., Kowalski, O., Kardas, M. (2023). Anthropometric Profiling and Changes in Segmental Body Composition of Professional Football Players in Relation to Age over the Training Macrocycle. Sports, 11(9):172. https://doi.org/10.3390/sports11090172
  58. Teixeira, J., Carvalho, P., Moreira, C., Carneiro, A., & Santos, R. (2015). Muscle strength assessment of knee flexors and extensors. Comparative study between basketball, football, handball and volleyball athletes. Scientific & Academic Pubishing.
  59. Tsukru, V., & Rhetso, A. (2023). Anthropometric Somatotype of Indian Combat Sports and Track and Field Athletes: A Systematic Review. International Journal of Kinanthropometry, 3(2): 56-68. https://doi.org/10.34256/ijk2327
  60. Tsunawake, N., Tahara, Y., Moji, K., Muraki, S., Minowa, K., & Yukawa, K. (2003). Body composition and physical fitness of female volleyball and basketball players of the Japan inter-high school championship teams. Journal of physiological anthropology and applied human science, 22(4): 195-201. https://doi.org/10.2114/jpa.22.195
  61. Zahıbı, E., & Alavı, S.H. (2015). The comparison of physical fitness in secondary male students in altitude and coastal areas. Turkish Journal of Sport and Exercise, 17(3):10-15. https://doi.org/10.15314/tjse.50273
  62. Zarić, I., Kukić, F., Jovićević, N., Zarić, M., Marković, M., Toskić, L., & Dopsaj, M. (2020). Body height of elite basketball players: Do taller basketball teams rank better at the FIBA World Cup?. International Journal of Environmental Research and Public Health, 17(9): 3141. https://doi.org/10.3390/ijerph17093141