Endurance in sprint running is determined by the runner's ability to maintain maximum high speed at a distance and resist its decline due to fatigue that occurs during running. At present, recommendations for the development of sprint endurance are mainly intended for athletes using various means and methods of sports training. The development of this quality in athletes with the use of nutritional improvement technology has mainly general recommendations. Thanks to the nitrate contained in beets, the body absorbs more oxygen and fatigue less during exercise, contributing to the aerobic process. The main task of our work was: to determine the indicators of endurance in sprint running (repeated running of 100 m segments 5-6 times with the determination of the average), and to substantiate the methodology for the development of this quality in athletes using the technology of taking probiotics. The experimental data made it possible to reveal the effectiveness of the applied methodology for the development of endurance in sprint running. Moreover, the greatest effect was achieved using the method of circular training, with the inclusion of the means of speed-strength training in combination with running, as well as repeated running of short and long segments (30-200 m), alternating in one lesson, with a gradual decrease in the rest intervals. The experimental group that took beet juice showed a higher endurance increase in an average of 0.5 seconds than the control group, which allows us to draw a conclusion about the importance of taking nitrate in beets and its positive effect on the endurance of sprinters.

1. Ovechkin S.A. The interval method in the preparation of the runners of the Voronezh State Agrarian University national team. Theory and practice of innovative technologies in the agro-industrial complex: materials of the scientific and educational-methodical conference of the faculty, researchers and graduate students of the Voronezh State Agrarian University. 2016. pp. 162–163. (in Russian).

2. Povalyaeva T.V., Ovechkin S.A. Cross-country running at the university. Fundamentals of education. Innovative methods and technologies of physical culture and health and sports mass work in higher educational institutions of the Ministry of Agriculture of Russia. 2018. pp. 117–121. (in Russian).

3. Scheglevatykh A.N. The importance of plyometric box in preparation for the WFSK RLD and exercise options. Theory and practice of innovative technologies in the agro-industrial complex: materials of the scientific and educational-methodical conference of scientific and pedagogical workers and graduate students of the VSAU. 2018. pp. 211–213. (in Russian).

4. Lyophilized red beet juice (Succus Betae vulgaris L). Sports wiki - wikipedia for scientific bodybuilding. Available at: http://sportwiki.to/свекольный сок (in Russian).

5. Stevens C.J., Mauger A.R., Hassm?n P., Taylor L. Endurance performance is influenced by perceptions of pain and temperature: theory, applications and safety considerations. Sports medicine. 2018. vol. 48. no. 3. pp. 525-537. doi: 10.1007/s40279-017-0852-6

6. Barnard N.D., Goldman D.M., Loomis J.F., Kahleova H., Levin S.M. et al. Plant-based diets for cardiovascular safety and performance in endurance sports. Nutrients. 2019. vol. 11. no. 1. pp. 130. doi: 10.3390/nu11010130

7. Paradis-Desch?nes P., Lapointe J., Joanisse D.R., Billaut F. Similar Recovery of Maximal Cycling Performance after Ischemic Preconditioning, Neuromuscular Electrical Stimulation or Active Recovery in Endurance Athletes. Journal of Sports Science & Medicine. 2020. vol. 19. no. 4. pp. 761.

8. Babich O., Dyshlyuk L., Noskova S., Sukhikh S. et al. In vivo study of the potential of the carbohydrate-mineral complex from pine nut shells as an ingredient of functional food products. Bioactive Carbohydrates and Dietary Fibre. 2019. vol. 18. pp. 100185. doi: 10.1016/j.bcdf.2019.100185

9. Valenta R., Dorofeeva Yu.A. Sport nutrition: the role of macronutrients and minerals in endurance exercises. Foods and Raw materials. 2018. vol. 6. no. 2. doi: 10.21603/2308-4057-2018-2-403-412

10. Kim S.B., Burr G.W., Kim W., Nam S.W. Phase-change memory cycling endurance. MRS Bulletin. 2019. vol. 44. no. 9. pp. 710-714. doi: 10.1557/mrs.2019.205

11. Sawicki T., Topolska J., Romaszko E., Wiczkowski W. Profile and content of betalains in plasma and urine of volunteers after long-term exposure to fermented red beet juice. Journal of agricultural and food chemistry. 2018. vol. 66. no. 16. pp. 4155-4163. doi: 10.1021/acs.jafc.8b00925

12. Ahmed J.K., Salih H.A.M., Hadi A.G. Anthocyanins in red beet juice act as scavengers for heavy metals ions such as lead and cadmium. International journal of science and technology. 2013. vol. 2. no. 3. pp. 269-274.

13. Slavov A., Karagyozov V., Denev P., Kratchanova M. et al. Antioxidant activity of red beet juices obtained after microwave and thermal pretreatments. Czech Journal of Food Sciences. 2013. vol. 31. no. 2. pp. 139-147.

14. Gallardo E.J., Coggan A.R. What is in your beet juice? Nitrate and nitrite content of beet juice products marketed to athletes. International journal of sport nutrition and exercise metabolism. 2019. vol. 29. no. 4. pp. 345-349. doi: 10.1123/ijsnem.2018-0223

15. Genders A.J., Martin S.D., McGee S.L., Bishop D.J. A physiological drop in pH decreases mitochondrial respiration, and HDAC and Akt signaling, in L6 myocytes. American Journal of Physiology-Cell Physiology. 2019. vol. 316. no. 3. pp. C404-C414. doi: 10.1152/ajpcell.00214.2018

16. Coggan A.R., Broadstreet S.R., Mikhalkova D., Bole I. et al. Dietary nitrate?induced increases in human muscle power: high versus low responders. Physiological reports. 2018. vol. 6. no. 2. pp. e13575. doi: 10.14814/phy2.13575

17. Rothschild J.A., Bishop D.J. Effects of dietary supplements on adaptations to endurance training. Sports Medicine. 2020. vol. 50. no. 1. pp. 25-53. doi: 10.1007/s40279-019-01185-8

18. Van De Walle G.P., Vukovich M.D. The effect of nitrate supplementation on exercise tolerance and performance: A systematic review and meta-analysis. The Journal of Strength & Conditioning Research. 2018. vol. 32. no. 6. pp. 1796-1808. doi: 10.1519/JSC.0000000000002046

19. Pawlak-Chaouch M., Boissi?re J., Munyaneza D., Gamelin F.X. et al. Beetroot juice does not enhance supramaximal intermittent exercise performance in elite endurance athletes. Journal of the American College of Nutrition. 2019. vol. 38. no. 8. pp. 729-738. doi: 10.1080/07315724.2019.1601601

20. Husmann F., Bruhn S., Mittlmeier T., Zschorlich V. et al. Dietary nitrate supplementation improves exercise tolerance by reducing muscle fatigue and perceptual responses. Frontiers in physiology. 2019. vol. 10. pp. 404. doi: 10.3389/fphys.2019.00404