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Vol. 6 No. 1 (2026): Volume 6, Issue 1, Year 2026

Articles

Anthropometric Somatotype Profile of the Siddi Tribe: Exploring Athletic Potential in an Afro-Indian Population

  • Yumnam Momo Singh,
  • Sadanand Basavaraj Sugandhi
Yumnam Momo Singh
Department of Sports Anthropometry, SAI NSNIS Patiala 147001, India.
Sadanand Basavaraj Sugandhi
Department of Anthropology, Karnatak University, Dharwad 580003, Karnataka, India.
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DOI: https://doi.org/10.34256/ijk2614

Published 06-04-2026

Keywords

  • Anthropometry,
  • Somatotype,
  • Siddi tribe,
  • Afro-Indian population,
  • Athletic potential

How to Cite

Singh, Y. M., & Basavaraj Sugandhi, S. (2026). Anthropometric Somatotype Profile of the Siddi Tribe: Exploring Athletic Potential in an Afro-Indian Population. International Journal of Kinanthropometry, 6(1), 34–41. https://doi.org/10.34256/ijk2614

Copyright (c) 2026 Yumnam Momo Singh, Sadanand Basavaraj Sugandhi

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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Abstract

Introduction: Anthropometric characteristics, such as body size, shape, proportionality, and somatotype, are important factors in athletic performance and play a vital role in identifying talent. Indigenous and tribal groups have unique genetic and physical traits, yet they are often underrepresented in sports science research. The Siddi tribe of India, with African ancestry, presents a unique opportunity to study anthropometric traits associated with athletic potential. The present study aimed to examine the anthropometric somatotype profile of Siddi males and to explore its implications for athletic potential by comparing it with published somatotype data from Indian elite athletes across selected sports disciplines. Methods: A cross-sectional study was conducted on 143 Siddi males aged 18–23 years from Karnataka, India. Anthropometric measurements were obtained following the International Society for the Advancement of Kinanthropometry (ISAK) protocol, and somatotype was determined using the Heath–Carter anthropometric method. Statistical analysis was performed using SPSS version 20.0, and results were reported as mean, standard deviation, and range. Percentage differences and Cohen’s d were calculated for descriptive comparison with published elite Indian athlete data. Results: The mean somatotype of the Siddi males was 2.46±1.09 – 4.57±1.10 – 3.30±1.26, indicating a predominance of ectomorphic mesomorph. Comparative analysis showed trivial-to-small differences with athletes in athletics, hockey, boxing, and sprinting (d = 0.06–0.52), while moderate-to-large differences were observed with jumpers (d = 0.75–0.89) and football players (d up to 1.01). Somatotype attitudinal distance (SAD) values indicated the closest similarity with boxers (0.48), sprinters (0.55), and athletics participants (0.61), and greater divergence with football players (1.53). Conclusion: Siddi males exhibit an ectomorphic mesomorph somatotype and greater morphological similarity to sprinters and boxers than to football players. These findings suggest a potential advantage for speed and power-oriented sports and provide initial data to aid evidence-based talent identification in this Afro-Indian population.

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References

  1. Ackland, T.R., Elliott, B., Bloomfield, J. (2009). Applied anatomy and biomechanics in sport. Human Kinetics.
  2. Ackland, T.R., Lohman, T.G., Sundgot-Borgen, J., Maughan, R.J., Meyer, N.L., Stewart, A.D., Muller, W. (2012). Current status of body composition assessment in sport. Sports Medicine, 42(3), 227–249. https://doi.org/10.2165/11597140-000000000-00000
  3. Bhasin, M.K., Walter, H. (2002). Genetics of Castes and Tribes of India: Serum Protein Polymorphisms–KM and GM Systems. International Journal of Human Genetics, 2(2), 119-138.
  4. Brughelli, M., Cronin, J., Levin, G., & Chaouachi, A. (2011). Understanding change of direction ability in sport. Sports Medicine, 41(6), 463–486. https://doi.org/10.2165/11588760-000000000-00000
  5. Carter, J.E.L. (2002). The Heath–Carter anthropometric somatotype—Instruction manual. San Diego State University.
  6. Carter, J.E.L., Heath, B.H. (1990). Somatotyping: Development and applications. Cambridge University Press. https://doi.org/10.1017/CBO9780511564831
  7. Chaabène, H., Negra, Y., Capranica, L., Bouguezzi, R., Hachana, Y., Rouahi, M.A., Mkaouer, B. (2017). Validity and reliability of a new test of planned agility in elite taekwondo athletes. Journal of Strength and Conditioning Research, 31(9), 2542–2547. https://doi.org/10.1519/jsc.0000000000002325
  8. Choudhary, S., Singh, S., Singh, I., Varte, L.R., Sahani, R., Rawat, S. (2019). Somatotypes of Indian Athletes of Different Sports. Online Journal of Health and Allied Sciences, 18(2). https://www.ojhas.org/issue70/2019-2-6.html
  9. Esparza-Ros, F., Vaquero-Cristóbal, R., Marfell-Jones, M. (2019). International standards for anthropometric assessment. International Society for the Advancement of Kinanthropometry (ISAK).
  10. Kamath, S., Adhikari, R., Bawari, B., Easow, J., Kale, U., Wong, F.Y., Pullinger, S. A. (2024). Investigating Anthropometric characteristics and Somatotypes in Elite Indian Track & Field Athletes. International Journal of Kinanthropometry, 4(2), 33-43. https://doi.org/10.34256/ijk2424
  11. Knechtle, B., Rosemann, T., Knechtle, P., Lepers, R. (2010). Predictor variables for a 100-km race time in male ultra-marathoners. Perceptual and motor skills, 111(3), 681-693. https://doi.org/10.2466/05.25.PMS.111.6.681-693
  12. Markovic, G., Jaric, S. (2007). Is vertical jump height a body size–independent measure of muscle power. Journal of Sports Sciences, 25(12), 1355–1363. https://doi.org/10.1080/02640410601021713
  13. Nandikolmath, D., Samanchi, R., Rana, B., & Hallikeri, A. (2024). Using R Programming for Somatoploting. International Journal of Kinanthropometry, 4(1), 50–61. https://doi.org/10.34256/ijk2417
  14. Norton, K., Olds, T. (1996). Anthropometrica: A textbook of body measurement for sports and health courses. UNSW Press.
  15. 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
  16. Shah, A.M., Tamang, R., Moorjani, P., Rani, D.S., Govindaraj, P., Kulkarni, G., Bhattacharya, T., Mustak, M.S., Bhaskar, L.V.K.S., Reddy, A.G., Gadhvi, D. (2011). Indian Siddis: African descendants with Indian admixture. American Journal of Human Genetics, 89(1), 154–161. https://doi.org/10.1016/j.ajhg.2011.05.030
  17. Shelke, A., Bawari, B., Adhikari, R., Kamath, S., Nahak, R. K., Warrington, C. R., & Pullinger, S. A. (2024). Anthropometric characteristics and Somatotypes in Elite Pro Kabaddi League Players. International Journal of Kinanthropometry, 4(2), 57-66. https://doi.org/10.34256/ijk2426
  18. Singh, Y.M., Chaurasia, A., Kang, S.S. (2023). Anthropometric characteristics and somatotype of elite Indian boxers. International Journal of Kinanthropometry, 3(1), 124-130. https://doi.org/10.34256/ijk23114
  19. Slater, G.J., Rice, A.J., Mujika, I., Hahn, A G., Sharp, K., Jenkins, D.G. (2006). Physique traits of lightweight rowers and their relationship to competitive success. British Journal of Sports Medicine, 39(10), 736–741. https://doi.org/10.1136/bjsm.2004.015990
  20. Stewart, A., Marfell-Jones, M., Olds, T., de Ridder, H. (2011). International standards for anthropometric assessment. International Society for the Advancement of Kinanthropometry.
  21. Vaeyens, R., Lenoir, M., Williams, A.M., Philippaerts, R.M. (2008). Talent identification and development programmes in sport: Current models and future directions. Sports Medicine, 38(9), 703–714. https://doi.org/10.2165/00007256-200838090-00001
  22. Williams, A.M., Reilly, T. (2000). Talent identification and development in soccer. Journal of Sports Sciences, 18(9), 657–667. https://doi.org/10.1080/02640410050120041