References
- Allen S.V., Hopkins W.G., Age of Peak Competitive Performance of Elite Athletes: A Systematic Review, Sports Med., 2015, 45 (10), 1431–1441.
- Bompa Tudor O., Buzzichelli C., Periodization-6th Edition: Theory and Methodology of Training, Sixth Edition, Human Kinetics, 2018.
- Bompa T.O., Zając A., Waśkiewicz Z., Chmura J., Skill preparation in team sports games (in Polish: Przygotowanie sprawnościowe w zespołowych grach sportowych), AWF Katowice, 2013.
- Crowley E., Harrison A.J., Lyons M., Dry-land resistance training practices of elite swimming strength and conditioning coaches, J. Strength Cond. Res., 2018, 32 (9), 2592–2600.
- Dal Pupo J., Gheller R.G., Dias J.A., Rodacki A.L.F., Moro A.R.P., Santos S.G., Reliability and validity of the 30-s continuous jump test for anaerobic fitness evaluation, J. Sci. Med. Sport, 2014, 17 (6), 650–655.
- Gajewski J., Michalski R., Buśko K., Mazur-Różycka J., Staniak Z., Countermovement depth – A variable which clarifies the relationship between the maximum power output and height of a vertical jump, Acta Bioeng. Biomech., 2018, 20 (1), 127–134.
- García-Ramos A., Padial P., De La Fuente B., Argüelles-Cienfuegos J., Bonitch-Góngora J., Feriche B., Relationship between Vertical Jump Height and Swimming Start Performance before and after an Altitude Training Camp, J. Strength Cond. Res., 2016, 30 (6), 1638–1645.
- Garrido N., Marinho D.A., Barbosa T.M., Costa A.M., Silva A.J., Pérez Turpin J.A. et al., Relationships between dry land strength, power variables and short sprint performance in young competitive swimmers, J. Hum. Sport Exerc., 2010, 5 (2), 240–249.
- Glatthorn J.F., Gouge S., Nussbaumer S., Stauffacher S., Impellizzeri F.M., Maffiuletti N.A., Validity and reliability of optojump photoelectric cells for estimating vertical jump height, J. Strength Cond. Res., 2011, 25 (2), 556–560.
- Górski M., Starczewski M., Pastuszak A., Mazur-Rózycka J., Gajewski J., Buśko K., Changes of strength and maximum power of lower extremities in adolescent handball players during a two-year training cycle, J. Hum. Kinet., 2018, 63 (1), 95–103.
- Grycmann P., Understanding and teaching the game (in Polish: Rozumienie i nauczanie gry), AWF Katowice, 2021.
- Keiner M., Wirth K., Fuhrmann S., Kunz M., Hartmann H., Haff G.G., The Influence of Upper- and Lower-Body Maximum Strength on Swim Block Start, Turn, and Overall Swim Performance in Sprint Swimming, J. Strength Cond. Res., 2021, 35 (10), 2839–2845.
- Keiner M., Yaghobi D., Sander A., Wirth K., Hartmann H., The influence of maximal strength performance of upper and lower extremities and trunk muscles on different sprint swim performances in adolescent swimmers, Sci. Sport, 2015, 30 (7), e147–e154.
- Kozinc Ž., Žitnik J., Smajla D., Šarabon N., The difference between squat jump and countermovement jump in 770 male and female participants from different sports, Eur. J. Sport Sci., 2021, 22 (7), 985–993.
- Loturco I., Barbosa A.C., Nocentini R.K., Pereira L.A., Kobal R., Kitamura K. et al., A Correlational Analysis of Tethered Swimming, Swim Sprint Performance and Dry-land Power Assessments, Int. J. Sports Med., 2016, 37 (3). 211–218.
- Marques M.C., Yáñez-García J.M., Marinho D.A., González-Badillo J.J., Rodríguez-Rosell D., In-Season Strength Training in Elite Junior Swimmers: The Role of the Low-Volume, High-Velocity Training on Swimming Performance, J. Hum. Kinet., 2020, 74, 71–84.
- Morouço P., Neiva H., González-Badillo J.J., Garrido N., Marinho D.A., Marques M.C., Associations Between Dry Land Strength and Power Measurements with Swimming Performance in Elite Athletes: A Pilot Study, J. Hum. Kinet., 2011, 29A, 105–112.
- Morouço P.G., Marinho D.A., Izquierdo M., Neiva H., Marques M.C., Relative Contribution of Arms and Legs in 30 s Fully Tethered Front Crawl Swimming, Biomed. Res. Int., 2015, 2015 (563206), 1–6.
- Olbrecht J., O-50 Use of a mathematical model to monitor metabolic training adaptations in swimming: preliminary results of a long term follow-up of more than 900 swimmers of different performance level, Br. J. Sports Med., 2016, 50 (Suppl. 1), A29.1–A29.
- Olstad B.H., Gonjo T., Njøs N., Abächerli K., Eriksrud O., Reliability of Load-Velocity Profiling in Front Crawl Swimming, Front. Physiol., 2020, 11 (574306), 1–17.
- Osiński W., Anthropomotorics (in Polish: Antropomotoryka), AWF Poznań, 2003.
- Pérez-Olea J.I., Valenzuela P.L., Aponte C., Izquierdo M., Relationship between dryland strength and swimming performance: Pull-up mechanics as a predictor of swimming speed, J. Strength Cond. Res., 2018, 32 (6), 1637 –1642.
- Piepiora P., Piepiora Z., Personality determinants of success in men’s sports in the light of the big five, Int. J. Environ. Res. Public Health, 2021, 18 (10), 1–16.
- Riewald S., Strength and Conditioning for Performance Enhancement, In: Science of Swimming Faster, Riewald S., Rodeo S., Human Kinetics, 2015, 401–448.
- Stager J.M., Stickford J., Grand K., Energy Systems and Physiology, In: Science of Swimming Faster, Riewald S., Rodeo S., Human Kincetics, 2020, 147–171.
- Strzała M., Krezałek P., Kaca M., Głab G., Ostrowski A., Stanula A. et al., Swimming speed of the breaststroke kick, J. Hum. Kinet., 2012, 35, 133–139.
- Tóth T., Michalíková M., Bednarčíková L., Živčák J., Kneppo P., Somatotypes in sport, Acta Mech. Autom., 2014, 8 (1), 27–32.
- Vanderka M., Longová K., Olasz D., Krčmár M., Walker S.. Improved maximum strength, vertical jump and sprint performance after 8 weeks of jump squat training with individualized loads, J. Sport Sci. Med., 2016, 15 (3), 492–500.
- Vantorre J., Chollet D., Seifert L., Biomechanical analysis of the swim-start: A review, J. Sport. Sci. Med., 2014, 13 (2), 223–231.