The differences effects of lunges vs. squats exercise programs on the swimming speed 50-meters butterfly style: a quasi-experimental study

Meiriani Armen; Syahrastasni Syahrastasni; Hendri Neldi; Ary Suud Cahyo Alben; Ilham Ilham; Vlad Adrian Geantă

doi:10.47197/retos.v61.110529

Authors

Meiriani Armen Universitas Bunghatta
Syahrastasni Syahrastasni Universitas Negeri Padang
Hendri Neldi Universitas Negeri Padang
Ary Suud Cahyo Alben Universitas Bung Hatta
Ilham Ilham Universitas Negeri Padang
Vlad Adrian Geantă Aurel Vlaicu University of Arad https://orcid.org/0000-0002-8488-1698

DOI:

https://doi.org/10.47197/retos.v61.110529

Keywords:

Lunges, Squat training, exercise, swimming butterfly, 50-meters

Abstract

Objective: This study aims to investigate the impact of lunges vs. squats exercise on the swimming speed of the 50-meter butterfly stroke among athletes aged 10-13 in KU III and IV categories. Approach: An experimental method employing a two-group pre-test and post-test design was utilized. The study population consisted of athletes affiliated with the SeaRia Aquatic swimming association. Purposive sampling was employed, selecting male swimmers aged 10-13 who were members of the Searia Aquatic swimming club and willing to participate in training during the study. Twenty athletes met the inclusion criteria. The speed test was conducted using the 50-meter butterfly stroke. Statistical data analysis was performed using t-test with SPSS 25 software, employing a significance level of 0.05. Results: The analysis revealed significant effects: (1) lunge training demonstrated a significant improvement in the swimming speed of the 50-meter butterfly stroke among athletes aged 10-13 at the SeaRia Aquatic swimming association (t-count = 6.046, t-table = 2.23, P < 0.05); (2) similarly, squat training led to a significant enhancement in the swimming speed of the 50-meter butterfly stroke among the same age group at the SeaRia Aquatic swimming association (t-count = 6.086, t-table = 2.23, P < 0.05). Collectively, both lunges and squats positively influenced swimming speed in the 50-meter butterfly stroke among athletes aged 10-13 affiliated with the Searia Aquatic swimming association. Conclusion: This study underscores the beneficial effects of incorporating lunges vs. squats into training regimens for young athletes aiming to improve their swimming performance, particularly in the butterfly stroke. This study found that squats are more effective than lunges in improving performance in the butterfly swimming stroke. These findings offer valuable insights for coaches, trainers, and athletes interested in enhancing their competitive edge in swimming, particularly in butterfly style.

References

Adams, K., O’Shea, J. P., O’Shea, K. L., & Climstein, M. (1992). The Effect of 6 weks of Squat , Plyo and Squat Plyo on Power Performance.pdf. In Journal of Applied Sport Science Research (Vol. 6, Issue 1, pp. 36–41).

Ahmad Fauzi, R., Suherman, A., Safari, I., & Saptani, E. (2020). Simple Exercises at Home During Social Distancing to Avoid Covid-19. Journal of Physical Education, Health, 7(2), 31–37.

Aisyah, diah siti, & Herywansyah. (2021). Perbedaan Pengaruh Latihan Kaki dengan Menggunakan Pelampung dan Stang Terhadap Prestasi Renang Gaya Crawl Jarak 50 Meter. Jurnal Kepelatihan Olahraga SMART SPORT, 2(8), 9–16.

Brackley, V., Barris, S., Tor, E., & Farrow, D. (2020). Coaches’ perspective towards skill acquisition in swimming: What practice approaches are typically applied in training? Journal of Sports Sciences, 00(00), 2532–2542. https://doi.org/10.1080/02640414.2020.1792703

BUDIWANTO, S. (2012). METODOLOGI LATIHAN OLAHRAGA.

Cross, A. R. (1996). Safety Training for Swim Coaches.

Gregory D. Myer1, 2, 3, 4, Adam M. Kushner1, Jensen L. Brent5, Brad J. Schoenfeld6, J., Hugentobler, Rhodri S. Lloyd, Al Vermeil, Donald A. Chu, Jason Harbin, A., & McGill, S. M. (2014). The back squat: A proposed assessment of functional deficits and technical factors that limit performance (Vol. 36, Issue 6). https://doi.org/10.1519/SSC.0000000000000103.The

Guyton, A. C. (2008). Textbook of Medical Physiology.

Ilham, Agus, A., Tomoliyus, Sugiyanto, F. X., Tirtawirya, D., Lumintuarso, R., Berhimpong, M. W., Alsyifa, R. A., Kurniawan, R., Effendi, R., Ayubi, N., Alben, A. S. C., Perdana, G. S., Rifki, M. S., Ndayisenga, J., Sibomana, A., & Jean-Berchman, B. (2024). Comparative Analysis of Adaptations Progress in VO2max , Leg Power , and Agility among Male and Female Sports Science Students Análisis Comparativo del Progreso de las Adaptaciones en VO2max , Potencia de Piernas y Agilidad entre Estudiantes Masculinos y. Retos, 57(7), 245–257.

Ilham, Sari, A. P., Bafirman, Rifki, M. S., Alnedral, Welis, W., Umar, Kurniawan, R., Putra, R. A., Prasetyo, T., Car, B., Pavlovic, R., Makadada, F. A., Perdana, G. S., Lolowang, D. M., Piri, N., Baan, A. B., & Jimenez, J. V. G. (2024). The effect of plyometric training (hurddle jumps), body weight training (lunges) and speed on increasing leg muscle explosive power of futsal players: a factorial experimental design. Paper Knowledge . Toward a Media History of Documents, 59(9), 497–508.

Imbang, P. P. (2014). Pengaruh Latihan Lunges Dan Squatterhadap Peningkatan Kecepatan Berenang 50 Meter Gaya Dada Ku Senior Perkumpulan Renang Ratu Bilqis Kabupaten Gunungkidul. Jurnal Keperawatan, 2(2), 1–6.

Kao, S. (2018). The Relationship Between Strength and Power Measures with Sprint Freestyle Performance in Division 1 Collegiate Swimmers. Angewandte Chemie International Edition, 6(11), 951–952., August, 2013–2015.

Makadada, F. A., Hadjarati, H., Berhimpong, M. W., Piri, N., Baan, A. B., Mangolo, E. W., Perdana, G. S., Ndayisenga, J., & Ilham. (2024). The effects of game-based passive, static stretching, and trunk flexibility on the execution of forward roll in floor exercise: A factorial experimental design. Journal of Physical Education and Sport, 24(4), 872–885. https://doi.org/10.7752/jpes.2024.04100

Marc R, A. (2019). Acute Heart Rate Responses to Resistance Exercise at Different Cadences. International Journal of Sports and Exercise Medicine, 5(9), 1–8. https://doi.org/10.23937/2469-5718/1510143

Marchetti, P. H., Guiselini, M. A., Da Silva, J. J., Tucker, R., Behm, D. G., & Brown, L. E. (2018). Balance and Lower Limb Muscle Activation between in-Line and Traditional Lunge Exercises. Journal of Human Kinetics, 62(1), 15–22. https://doi.org/10.1515/hukin-2017-0174

Moura, O. M., Marinho, D. A., Forte, P., Faíl, L. B., & Neiva, H. P. (2021). School-based swimming lessons enhance specific skills and motor coordination in children: the comparison between two interventions. Motricidade, 17(4), 367–374. https://doi.org/10.6063/motricidade.24557

Nummela, A., Hynynen, E., Kaikkonen, P., & Rusko, H. (2016). High-intensity endurance training increases nocturnal heart rate variability in sedentary participants. Biology of Sport, 33(1), 7–13. https://doi.org/10.5604/20831862.1180171

Plotkin, D., Coleman, M., Van Every, D., Maldonado, J., Oberlin, D., Israetel, M., Feather, J., Alto, A., Vigotsky, A. D., & Schoenfeld, B. J. (2022). Progressive overload without progressing load? The effects of load or repetition progression on muscular adaptations. PeerJ, 10, 1–19. https://doi.org/10.7717/peerj.14142

Pyne, D. B., & Sharp, R. L. (2014). Physical and energy requirements of competitive swimming events. International Journal of Sport Nutrition and Exercise Metabolism, 24(4), 351–359. https://doi.org/10.1123/ijsnem.2014-0047

Rifki, M. S., Ilham, Ndayisenga, J., & Zakaria, J. Bin. (2023). The effect of combined continuous run, circuit training, and high-intensity interval training on lung function, asthma control, and VO2max in asthma patients: A quasi-experimental study. Journal of Physical Education and Sport, 23(12), 3264–3270. https://doi.org/10.7752/jpes.2023.12373

Rodríguez González, L., Melguizo-Ibáñez, E., Martín-Moya, R., & González-Valero, G. (2022). Study of strength training on swimming performance. A systematic review. Science and Sports, xxxx. https://doi.org/10.1016/j.scispo.2022.09.002

Saeterbakken, A. H., Chaudhari, A., van den Tillaar, R., & Andersen, V. (2019). The effects of performing integrated compared to isolated core exercises. PLoS ONE, 14(2). https://doi.org/10.1371/journal.pone.0212216

Seifert, L., Toussaint, H. M., Alberty, M., Schnitzler, C., & Chollet, D. (2010). Arm coordination, power, and swim efficiency in national and regional front crawl swimmers. Human Movement Science, 29(3), 426–439. https://doi.org/10.1016/j.humov.2009.11.003

Sridadi, Tomoliyus, Septiasari, E. A., Parijan, Yuliarto, H., & Ilham. (2021). Effect of technical training using a ball on the dribbling speed for football players aged 10-12 years. International Journal of Human Movement and Sports Sciences, 9(4), 824–831. https://doi.org/10.13189/saj.2021.090429

Stosic, J. (2020). Transition phase – a new phase from start/turn to free swimming in competitive swimmers.

Strzała, M., Stanula, A., Krȩzałek, P., Ostrowski, A., Kaca, M., & Głąb, G. (2017). Butterfly Sprint Swimming Technique, Analysis of Somatic and Spatial-Temporal Coordination Variables. Journal of Human Kinetics, 60(1), 51–62. https://doi.org/10.1515/hukin-2017-0089

Tirtawirya, D., Sudarko, R. A., Tomoliyus, & Ilham. (2024). Kick Flexibility Test Model in Taekwondo Martial Arts: BFS Flexibility Test. Ido Movement for Culture, 24(3), 73–80. https://doi.org/10.14589/ido.24.3.8

Turner, A. (2009). Training For Power : Principles And Practice. Profesional Strength and Conditioning, 14, 20–32.

van Duijn, T., Ng, J. L., Burnay, C., Anderson, N., Uehara, L., Cocker, K., & Button, C. (2021). The Influence of Equipment and Environment on Children and Young Adults Learning Aquatic Skills. Frontiers in Psychology, 12(October). https://doi.org/10.3389/fpsyg.2021.733489

Yendrizal, Kiram, Y., Yenes, R., Komaini, A., Ihsan, N., & Mario, D. T. (2023). Effect of weight training and motor skills on muscle strength: A factorial experimental design. Journal of Physical Education and Sport, 23(6), 1416–1424. https://doi.org/10.7752/jpes.2023.06173

The differences effects of lunges vs. squats exercise programs on the swimming speed 50-meters butterfly style: a quasi-experimental study

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

Most read articles by the same author(s)

Language

Information

Make a Submission