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DÜNYA UZUN KULVAR YÜZME ŞAMPİYONASINDA KURBAĞALAMA VE KELEBEK FİNALİSTLERİNİN ÜÇ YIL BOYUNCA GÖSTERDİKLERİ PERFORMANSLARIN KARŞILAŞTIRILMASI

Yıl 2024, Cilt: 18 Sayı: 3, 379 - 390, 23.12.2024

Öz

Çalışmanın amacı, son üç yılda düzenlenen Dünya Yüzme Şampiyonalarında kurbağalama ve kelebek finalistlerinin performans parametrelerini (yaş, reaksiyon zamanı, bitiş zamanı, FINA puanları, hız, tur zamanları ve tur hızları) karşılaştırmaktır. Çalışmada, 2022, 2023 ve 2024 yıllarında düzenlenen Dünya Uzun Kulvar Yüzme Şampiyonası'nda 50 metre (m), 100 m ve 200 m kelebek ve kurbağalama yarışlarında yer alan finalistler (n=69 kadın, n=77 erkek) analiz edilmiştir. Çalışmada analiz edilen yarışların sonuçları kamuya açık “World Aquatics” web sitesinden elde edilmiştir. MS Excel 16.0 dosyasından elde edilen tüm veriler IBM SPSS Statistics 24.00 analiz programına aktarılmıştır. Üç farklı yılda düzenlenen Dünya Şampiyonalarına göre 50 m, 100 m, 200 m kelebek ve kurbağalama yarışlarındaki finalistlerin yaş, reaksiyon zamanı, bitiş zamanı, puan, hız, tur zamanı ve tur hızı tek yönlü ANOVA ile analiz edilmiştir. Değişkenler arasındaki farklılıkları belirlemek için Bonferroni post hoc testi kullanılmış ve anlamlılık düzeyi p<0,05 olarak belirlenmiştir. Kadın ve erkeklerin 200 m kurbağalama ve kelebek puanlarında, kadınların 200 m kelebek ve erkeklerin 50 m ve 100 m kelebek bitiş zamanlarında anlamlı farklılıklar bulunmuştur. Erkekler 100 m kurbağalama ikinci tur zamanı ve hızında 2022 ve 2024 yılları arasında istatistiksel olarak anlamlı bir fark tespit edilmiştir. Erkeklerin 200 m kelebek ilk tur süresi ve hızında 2022 ve 2024 yılları arasında anlamlı bir fark gözlenmiştir. Kadınların 200 m kelebek ikinci tur süresinde ve hızında yıllar arasında farklılık bulunmuştur. Sonuç olarak, kelebek ve kurbağalama yarışlarında hız, bitiş zamanı, tur zamanı, tur hızı ve puanların son üç yılda Dünya Şampiyonalarında dalgalanmalar gösterdiği, reaksiyon süresinde ise belirgin bir değişiklik olmadığı tespit edilmiştir. Elde edilen bulgular, kelebek ve kurbağalama stillerinde yıllara bağlı olarak değişikliklerin düzenli bir gelişim göstermediğini ve antrenman yöntemlerindeki farkların bu sonuçlara katkı sağlamış olabileceğini göstermektedir.

Kaynakça

  • Seifert L., Carmigniani R. (2023). Coordination and stroking parameters in the four swimming techniques: A narrative review. Sports Biomechanics. 22(12), 1617-1633.
  • Barbosa TM., Barbosa AC., Simbana Escobar D., Mullen GJ., Cossor JM., Hodierne R., Arellano R., Mason BR. (2023). The role of the biomechanics analyst in swimming training and competition analysis. Sports Biomechanics. 22(12), 1734-1751.
  • Pelayo P., Alberty M. (2011). The history of swimming research. İçinde: Seifert L., Chollet D., Mujika I. (Editör). World book of swimming: From science to performance. Nova Science Publishers. New York, 19–26.
  • Ungerechts BE., Keskinen K. (2018). The significance of International Symposia on Biomechanics and Medicine in Swimming – A multidisciplinary approach. İçinde: Takagy H., Oghji Y., Sengoky Y., Gonjo T. (Editör). Xiiith International Symposium on Biomechanics and Medicine In Swimming Proceedings. 17–25, Tsukuba: Japanese Society of Sciences in Swimming and Water Exercise.
  • O’donoghue P. (2010). Research methods for sports performance analysis. Routledge. London, UK.
  • Gonjo T., Olstad BH. (2021). Race analysis in competitive swimming: A narrative review. International Journal of Environmental Research and Public Health. 18(1), 69.
  • Mooney R., Corley G., Godfrey A., Osborough C., Newell J., Quinlan LR., ÓLaighin G. (2016). Analysis of swimming performance: Perceptions and practices of US-based swimming coaches. Journal of Sports Sciences. 34(11), 997-1005.
  • Hellard P., Dekerle J., Avalos M., Caudal N., Knopp M., Hausswirth C. (2008). Kinematic measures and stroke rate variability in elite female 200-m swimmers in the four swimming techniques: Athens 2004 Olympic semi-finalists and French National 2004 Championship semi-finalists. Journal of Sports Sciences. 26, 35-46.
  • Huot‐Marchand F., Nesi X., Sidney M., Alberty M., Pelayo P. (2005). Swimming: Variations of stroking parameters associated with 200 m competitive performance improvement in top‐standard front crawl swimmers. Sports Biomechanics. 4(1), 89-100.
  • Veiga S., Cala A., Mallo J., Navarro E. (2013). A new procedure for race analysis in swimming based on individual distance measurements. Journal of Sports Sciences. 31(2), 159-165.
  • McGibbon KE., Pyne DB., Shephard ME., Thompson KG. (2018). Pacing in swimming: A systematic review. Sports Medicine. 48, 1621-1633.
  • Robertson EY., Pyne DB., Hopkins WG., Anson JM. (2009). Analysis of lap times in international swimming competitions. Journal of Sports Sciences. 27(4), 387-395.
  • Da Silva JK., Enes AA., Sotomaior BB., Barbosa MAR., De Souza RO., Osiecki R. (2020). Analysis of the performance of finalist swimming athletes in Olympic games: Reaction time, partial time, speed, and final time. Journal of Physical Education and Sport. 20(2), 539-545.
  • Crowley E., Ng K., Mujika I., Powell C. (2022). Speeding up or slowing down? Analysis of race results in elite-level swimming from 2011-2019 to predict future Olympic Games performances. Measurement in Physical Education and Exercise Science. 26(2), 130-140.
  • Cuenca-Fernández F., Ruiz-Navarro JJ., González-Ponce A., López-Belmonte O., Gay A., Arellano R. (2021). Progression and variation of competitive 100 and 200m performance at the 2021 European Swimming Championships. Sports Biomechanics. 1-16.
  • López-Belmonte Ó., Gay A., Ruiz-Navarro JJ., Cuenca-Fernández F., González-Ponce Á., Arellano R. (2022). Pacing profiles, variability and progression in 400, 800 and 1500-m freestyle swimming events at the 2021 European Championship. International Journal of Performance Analysis in Sport. 22(1), 90-101.
  • Reischle K. (1993). Biomecánica de la natación. Gymnos.
  • Haljand R., Saagpakk R. (1994). Swimming competition analysis of the European Sprint Swimming Championship. LEN, Stavanger.
  • Stanula A., Maszczyk A., Roczniok R., Pietraszewski P., Ostrowski A., Zając A., Strzała M. (2012). The development and prediction of athletic performance in freestyle swimming. Journal of Human Kinetics. 32, 97-107.
  • Mason BR., Loschner C., Fowlie J. (1995). Competition analysis at the world swimming championships. ISBS-Conference Proceedings Archive. 64-66, Thunder Bay. Canada.
  • Svendsen IS., Tonnesen E., Tjelta LI., Orn S. (2018). Training, performance, and physiological predictors of a successful elite senior career in junior competitive road cyclists. International Journal of Sports Physiology and Performance. 13(10), 1287-1292.
  • Maglischo EW. (2003). Swimming fastest. Human Kinetics.
  • Knechtle B., Bragazzi NL., König S., Nikolaidis PT., Wild S., Rosemann T., Rüst CA. (2016). The age in swimming of champions in world championships (1994–2013) and olympic games (1992–2012): A cross-sectional data analysis. Sports. 4(1), 17.
  • Hay JG. (1988). The status of research on the biomechanics of swimming. Swimming Science V. Human Kinetics. Champaign IL, 3-14.
  • De Souza Castro F., Mota CB. (2010). Energetic and performance in 200 m front crawl under maximal intensity. Revista Brasileira de Ciência e Movimento. 18(2), 67-75.
  • Ruschel C., Araujo LG., Pereira SM., Roesler H. (2007). Kinematical analysis of the swimming start: Block, flight and underwater phases. ISBS-Conference Proceedings Archive. 385-388, Ouro Preto. Brazil.

COMPARISON OF BREASTSTROKE AND BUTTERFLY FINALISTS' PERFORMANCES OVER THREE YEARS IN THE WORLD LONG COURSE SWIMMING CHAMPIONSHIPS

Yıl 2024, Cilt: 18 Sayı: 3, 379 - 390, 23.12.2024

Öz

The study aimed to compare performance parameters (age, reaction time, finishing time, FINA points, speed, lap times, and lap speeds) of breaststroke and butterfly finalists at the World Swimming Championships organized in the last three years. In the study, the finalists (n=69 women, n=77 men) in the 50 meters (m), 100 m and 200 m butterfly and breaststroke events at the World Long Course Swimming Championships held in 2022, 2023 and 2024 were analysed. The results of the races analysed in the study were obtained from the publicly available World Aquatics website. All data derived from the MS Excel 16.0 file were transferred to the IBM SPSS Statistics 24.00 analysis programme. The age, reaction time, finishing time, points, speed, lap time and lap speed of the finalists in 50 m, 100 m, 200 m butterfly and breaststroke events, according to the World Championships held in three different years, were analyzed by one-way ANOVA. The Bonferroni post hoc test was used to determine the differences between the variables, with the significance level set at p < 0.05. Significant differences were found in women's and men's 200 m breaststroke and butterfly points, women's 200 m butterfly, and men's 50 m and 100 m butterfly finishing times. A statistically significant difference was observed between 2022 and 2024 in the second lap time and speed of men's 100 m breaststroke. A significant difference was observed in the 200 m butterfly first lap time and speed of men between 2022 and 2024. A difference was observed in the second lap time of women's 200 m butterfly and speed between the years. Consequently, it was established that the speed, finishing time, lap time, lap speed, points in butterfly and breaststroke events exhibited fluctuations in the World Championships over the past three years, whereas there was no discernible change in reaction time. The findings show that the changes in butterfly and breaststroke styles do not show a regular development over the years and the differences in training methods may have contributed to these results.

Kaynakça

  • Seifert L., Carmigniani R. (2023). Coordination and stroking parameters in the four swimming techniques: A narrative review. Sports Biomechanics. 22(12), 1617-1633.
  • Barbosa TM., Barbosa AC., Simbana Escobar D., Mullen GJ., Cossor JM., Hodierne R., Arellano R., Mason BR. (2023). The role of the biomechanics analyst in swimming training and competition analysis. Sports Biomechanics. 22(12), 1734-1751.
  • Pelayo P., Alberty M. (2011). The history of swimming research. İçinde: Seifert L., Chollet D., Mujika I. (Editör). World book of swimming: From science to performance. Nova Science Publishers. New York, 19–26.
  • Ungerechts BE., Keskinen K. (2018). The significance of International Symposia on Biomechanics and Medicine in Swimming – A multidisciplinary approach. İçinde: Takagy H., Oghji Y., Sengoky Y., Gonjo T. (Editör). Xiiith International Symposium on Biomechanics and Medicine In Swimming Proceedings. 17–25, Tsukuba: Japanese Society of Sciences in Swimming and Water Exercise.
  • O’donoghue P. (2010). Research methods for sports performance analysis. Routledge. London, UK.
  • Gonjo T., Olstad BH. (2021). Race analysis in competitive swimming: A narrative review. International Journal of Environmental Research and Public Health. 18(1), 69.
  • Mooney R., Corley G., Godfrey A., Osborough C., Newell J., Quinlan LR., ÓLaighin G. (2016). Analysis of swimming performance: Perceptions and practices of US-based swimming coaches. Journal of Sports Sciences. 34(11), 997-1005.
  • Hellard P., Dekerle J., Avalos M., Caudal N., Knopp M., Hausswirth C. (2008). Kinematic measures and stroke rate variability in elite female 200-m swimmers in the four swimming techniques: Athens 2004 Olympic semi-finalists and French National 2004 Championship semi-finalists. Journal of Sports Sciences. 26, 35-46.
  • Huot‐Marchand F., Nesi X., Sidney M., Alberty M., Pelayo P. (2005). Swimming: Variations of stroking parameters associated with 200 m competitive performance improvement in top‐standard front crawl swimmers. Sports Biomechanics. 4(1), 89-100.
  • Veiga S., Cala A., Mallo J., Navarro E. (2013). A new procedure for race analysis in swimming based on individual distance measurements. Journal of Sports Sciences. 31(2), 159-165.
  • McGibbon KE., Pyne DB., Shephard ME., Thompson KG. (2018). Pacing in swimming: A systematic review. Sports Medicine. 48, 1621-1633.
  • Robertson EY., Pyne DB., Hopkins WG., Anson JM. (2009). Analysis of lap times in international swimming competitions. Journal of Sports Sciences. 27(4), 387-395.
  • Da Silva JK., Enes AA., Sotomaior BB., Barbosa MAR., De Souza RO., Osiecki R. (2020). Analysis of the performance of finalist swimming athletes in Olympic games: Reaction time, partial time, speed, and final time. Journal of Physical Education and Sport. 20(2), 539-545.
  • Crowley E., Ng K., Mujika I., Powell C. (2022). Speeding up or slowing down? Analysis of race results in elite-level swimming from 2011-2019 to predict future Olympic Games performances. Measurement in Physical Education and Exercise Science. 26(2), 130-140.
  • Cuenca-Fernández F., Ruiz-Navarro JJ., González-Ponce A., López-Belmonte O., Gay A., Arellano R. (2021). Progression and variation of competitive 100 and 200m performance at the 2021 European Swimming Championships. Sports Biomechanics. 1-16.
  • López-Belmonte Ó., Gay A., Ruiz-Navarro JJ., Cuenca-Fernández F., González-Ponce Á., Arellano R. (2022). Pacing profiles, variability and progression in 400, 800 and 1500-m freestyle swimming events at the 2021 European Championship. International Journal of Performance Analysis in Sport. 22(1), 90-101.
  • Reischle K. (1993). Biomecánica de la natación. Gymnos.
  • Haljand R., Saagpakk R. (1994). Swimming competition analysis of the European Sprint Swimming Championship. LEN, Stavanger.
  • Stanula A., Maszczyk A., Roczniok R., Pietraszewski P., Ostrowski A., Zając A., Strzała M. (2012). The development and prediction of athletic performance in freestyle swimming. Journal of Human Kinetics. 32, 97-107.
  • Mason BR., Loschner C., Fowlie J. (1995). Competition analysis at the world swimming championships. ISBS-Conference Proceedings Archive. 64-66, Thunder Bay. Canada.
  • Svendsen IS., Tonnesen E., Tjelta LI., Orn S. (2018). Training, performance, and physiological predictors of a successful elite senior career in junior competitive road cyclists. International Journal of Sports Physiology and Performance. 13(10), 1287-1292.
  • Maglischo EW. (2003). Swimming fastest. Human Kinetics.
  • Knechtle B., Bragazzi NL., König S., Nikolaidis PT., Wild S., Rosemann T., Rüst CA. (2016). The age in swimming of champions in world championships (1994–2013) and olympic games (1992–2012): A cross-sectional data analysis. Sports. 4(1), 17.
  • Hay JG. (1988). The status of research on the biomechanics of swimming. Swimming Science V. Human Kinetics. Champaign IL, 3-14.
  • De Souza Castro F., Mota CB. (2010). Energetic and performance in 200 m front crawl under maximal intensity. Revista Brasileira de Ciência e Movimento. 18(2), 67-75.
  • Ruschel C., Araujo LG., Pereira SM., Roesler H. (2007). Kinematical analysis of the swimming start: Block, flight and underwater phases. ISBS-Conference Proceedings Archive. 385-388, Ouro Preto. Brazil.
Toplam 26 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Spor Hekimliği
Bölüm Araştırma Makaleleri
Yazarlar

Benil Kıstak Altan 0000-0002-5868-6856

Fatih Kesepara 0000-0001-5022-852X

Yayımlanma Tarihi 23 Aralık 2024
Gönderilme Tarihi 8 Temmuz 2024
Kabul Tarihi 5 Aralık 2024
Yayımlandığı Sayı Yıl 2024 Cilt: 18 Sayı: 3

Kaynak Göster

APA Kıstak Altan, B., & Kesepara, F. (2024). COMPARISON OF BREASTSTROKE AND BUTTERFLY FINALISTS’ PERFORMANCES OVER THREE YEARS IN THE WORLD LONG COURSE SWIMMING CHAMPIONSHIPS. Beden Eğitimi Ve Spor Bilimleri Dergisi, 18(3), 379-390.

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