[1. BELLAR, D., A. HATCHETT, LW JUDGE, ME BREAUX, & L. MARCUS, 2015. „The relationship of aerobic capacity, anaerobic peak power and experience to performance in CrossFit exercise”. Biology of Sport.32(4):315-20.10.5604/20831862.1174771467216326681834]Search in Google Scholar
[2. BROOKS, G. A., 2018. „The Science and Translation of Lactate Shuttle Theory”. Cell Metabolism.27(4):757-85.10.1016/j.cmet.2018.03.00829617642]Search in Google Scholar
[3. BUTCHER, SCOTTY J., TYLER J. NEYEDLY, KARLA J. HORVEY & CHAD R. BENKO., 2015. „Do Physiological Measures Predict Selected CrossFit(®) Benchmark Performance?” Open Access Journal of Sports Medicine. 6:241–47.10.2147/OAJSM.S88265452774226261428]Search in Google Scholar
[4. CAREY, DANIEL G., & MARK T. RICHARDSON., 2003. „Can Aerobic and Anaerobic Power Be Measured in a 60-Second Maximal Test?” Journal of Sports Science & Medicine.2(4):151–57.]Search in Google Scholar
[5. CARTER, HELEN, JEANNE DEKERLE, GARY BRICKLEY, & CRAIG A. WILLIAMS., 2005. „Physiological Responses to 90 s All Out Isokinetic Sprint Cycling in Boys and Men”. Journal of Sports Science & Medicine.4(4):437-45.]Search in Google Scholar
[6. DEXHEIMER, JOSHUA D., E. TODD SCHROEDER, BRANDON J. SAWYER, ROBERT W. PETTITT, ARNEL L. AGUINALDO, & WILLIAM A. TORRENCE., 2019. „Physiological Performance Measures as Indicators of CrossFit® Performance”. Sports (Basel, Switzerland).7(4).10.3390/sports7040093652437731013585]Search in Google Scholar
[7. FEITO, Y., M. J. GIARDINA, S. BUTCHER, & G. T. MANGINE., 2018. „Repeated anaerobic tests predict performance among a group of advanced CrossFit-trained athletes”. Applied Physiology, Nutrition, and Metabolism.44(7):727-35.10.1139/apnm-2018-050930500263]Search in Google Scholar
[8. GHORBANI, S., H. MOHEBBI, S. SAFARIMOSAVI, & M. GHASEMIKARAM., 2015. „The Effect of Different Recovery Methods on Blood Lactate Removal in Wrestlers”. The Journal of Sports Medicine and Physical Fitness.55(4):273-79.]Search in Google Scholar
[9. GREEN, S., & B. DAWSON., 1993. „Measurement of Anaerobic Capacities in Humans. Definitions, Limitations and Unsolved Problems”. Sports Medicine (Auckland, N.Z.).15(5):312-27.10.2165/00007256-199315050-000038321945]Search in Google Scholar
[10. LAU, S., K. BERG, R. W. LATIN, & J. NOBLE., 2001. „Comparison of Active and Passive Recovery of Blood Lactate and Subsequent Performance of Repeated Work Bouts in Ice Hockey Players”. Journal of Strength and Conditioning Research.15(3):367-71.10.1519/00124278-200108000-00019]Search in Google Scholar
[11. MARTIN, NANCY A., ROBERT F. ZOELLER, ROBERT J. ROBERTSON, & SCOTT M. LEPHART, 1998. „The Comparative Effects of Sports Massage, Active Recovery, and Rest in Promoting Blood Lactate Clearance After Supramaximal Leg Exercise”. Journal of Athletic Training.33(1):30-35.]Search in Google Scholar
[12. MARTÍNEZ-GÓMEZ, R., P. L. VALENZUELA, D. BARRANCO-GIL, S. MORAL-GONZÁLEZ, A. GARCÍA-GONZÁLEZ, & A. LUCIA, 2019. „Full-Squat as a Determinant of Performance in CrossFit”. International Journal of Sports Medicine.40(09):592-96.10.1055/a-0960-971731291652]Search in Google Scholar
[13. MAUD, P. J., & B. B. SHULTZ. 1989. „Norms for the Wingate Anaerobic Test with Comparison to Another Similar Test”. Research Quarterly for Exercise and Sport.60(2):144-51.10.1080/02701367.1989.106074292489835]Search in Google Scholar
[14. MEDBØ, J. I., & I. TABATA., 1989. „Relative Importance of Aerobic and Anaerobic Energy Release during Short-Lasting Exhausting Bicycle Exercise”. Journal of Applied Physiology (Bethesda, Md.: 1985).67(5):1881-86.10.1152/jappl.1989.67.5.18812600022]Search in Google Scholar
[15. MEDBØ, JON, & I. TABATA., 1993. „Anaerobic energy release in working muscle during 30 s to 3 min of exhausting bicycling”. Journal of applied physiology (Bethesda, Md.: 1985).75:1654-60.10.1152/jappl.1993.75.4.16548282617]Search in Google Scholar
[16. MILADI, IMED, A. TEMFEMO, S. H. MANDENGUÉ, & S. AHMAIDI., 2011. „Effect of Recovery Mode on Exercise Time to Exhaustion, Cardiorespiratory Responses, and Blood Lactate After Prior, Intermittent Supramaximal Exercise”: Journal of Strength and Conditioning Research.25(1):205-10.10.1519/JSC.0b013e3181af515220093976]Search in Google Scholar
[17. MURAWSKA-CIALOWICZ, E., J. WOJNA, & J. ZUWALA-JAGIELLO., 2015. „Crossfit Training Changes Brain-Derived Neurotrophic Factor and Irisin Levels at Rest, after Wingate and Progressive Tests, and Improves Aerobic Capacity and Body Composition of Young Physically Active Men and Women”. Journal of Physiology and Pharmacology: An Official Journal of the Polish Physiological Society.66(6):811-21.]Search in Google Scholar
[18. NEBELSICK-GULLETT, L. J., T. J. HOUSH, G. O. JOHNSON, & S. M. BAUGE, 1988. „A comparison between methods of measuring anaerobic work capacity”. Ergonomics.31(10):1413-19.10.1080/001401388089667853208733]Search in Google Scholar
[19. NOORDHOF, DIONNE A., PHILIP F. SKIBA, & JOS J. DE KONING., 2013. „Determining Anaerobic Capacity in Sporting Activities”. International Journal of Sports Physiology and Performance.8(5):475-82.10.1123/ijspp.8.5.47524026759]Search in Google Scholar
[20. OZKAYA, O., M. COLAKOGLU, O. KUZUCU, & A. DELEXTRAT., 2013. „An Elliptical Trainer May Render the Wingate All-out Test More Anaerobic”. Journal of strength and conditioning research / National Strength & Conditioning Association. 28.10.1519/JSC.0b013e3182a20f7723924890]Search in Google Scholar
[21. ÖZTÜRK, M., M. OZER, & E. GÖKÇE., 1998. „Evaluation of blood lactate in young men after wingate anaerobic power test”. Eastern Journal of Medicine.3:13-16.]Search in Google Scholar
[22. SANDS, W. A., J. R. MCNEAL, M. T. OCHI, T. L. URBANEK, M. JEMNI, & M. H. STONE, 2004. „Comparison of the Wingate and Bosco Anaerobic Tests”. Journal of Strength and Conditioning Research.18(4):810-15.10.1519/00124278-200411000-00022]Search in Google Scholar
[23. SERAFINI, P. R., Y. FEITO, & G. T. MANGINE. 2018., „Self-Reported Measures of Strength and Sport-Specific Skills Distinguish Ranking in an International Online Fitness Competition”. Journal of Strength and Conditioning Research.32(12):3474-84.10.1519/JSC.000000000000184328195976]Search in Google Scholar
[24. SCHLEGEL, P., L. REŽNÝ, & D. FIALOVÁ. 2020., „Pilot study: Performance-ranking relationship analysis in Czech crossfiters”. Journal of Human Sport and Exercise.16.]Search in Google Scholar
[25. SPIERER, D., R. GOLDSMITH, DA BARAN, K. HRYNIEWICZ, & S. KATZ., 2004. „Effects of Active vs. Passive Recovery on Work Performed During Serial Supramaximal Exercise Tests”. International journal of sports medicine.25:109-14.10.1055/s-2004-81995414986193]Search in Google Scholar
[26. THARP, G. D., R.T K. NEWHOUSE, L. UFFELMAN, W. G. THORLAND, & G. O. JOHNSON, 1985. „Comparison of Sprint and Run Times with Performance on the Wingate Anaerobic Test”. Research Quarterly for Exercise and Sport.56(1):73-76.10.1080/02701367.1985.10608434]Search in Google Scholar
[27. VANDEWALLE, H., G. PÉRÈS, & H. MONOD. 1987., „Standard Anaerobic Exercise Tests”: Sports Medicine.4(4):268-89.]Search in Google Scholar