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Int J Sports Med 2021; 42(07): 638-644
DOI: 10.1055/a-1303-4255
DOI: 10.1055/a-1303-4255
Behavioural Sciences
Participation and Performance in the Oldest Ultramarathon–Comrades Marathon 1921–2019
Abstract
Participation and performance trends have been analyzed for different ultramarathons for limited time periods. This study examined trends in participation and performance in the oldest ultramarathon in the world, the ‘Comrades Marathon’ (South Africa), during a century (1921−2019). Data from www.ultra-marathon.org on 100 000 unique finishers were analysed using different general linear models. Women represented 4.2% of the total sample (n=4152), and the first women ran this race in 1978. Before the year 1965, the number of participants in the race ranged between 5 and 35 athletes, then started to grow exponentially until mid 90’s. An increase in finishers in the 70 s mainly due to an increase in male athletes in age groups 30−39, 40−49 and 50−59 years was observed (p<0.001). A stable running speed for overall women and men but an improvement in performance for the annual top five women and men were shown (p<0.001). Male runners were faster than female runners for all age groups (p<0.001). While overall performance was not improved across years, the annual top five women and men were able to improve their performance over years.
Publication History
Received: 21 May 2020
Accepted: 26 October 2020
Article published online:
01 December 2020
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References
- 1 Shipway R, Kirkup N, Saayman M. et al. The economic impact of the Comrades Marathon. International Journal of Event and Festival Management 2012; 3: 220-235
- 2 Folscher LL, Grant CC, Fletcher L. et al. Ultra-marathon athletes at risk for the female athlete triad. Sports Med Open 2015; 1: 29
- 3 Dancaster CP, Whereat SJ. Fluid and electrolyte balance during the comrades marathon. S Afr Med J 1971; 45: 147-150
- 4 Mann TN, Platt CE, Lamberts RP. et al. Faster heart rate recovery with increased RPE: Paradoxical responses after an 87-km ultramarathon. J Strength Cond Res 2015; 29: 3343-3352
- 5 Boulter J, Noakes TD, Hew-Butler T. Acute renal failure in four Comrades Marathon runners ingesting the same electrolyte supplement: Coincidence or causation?. S Afr Med J 2011; 101: 876-878
- 6 Peters EM, Shaik J, Kleinveldt N. Upper respiratory tract infection symptoms in ultramarathon runners not related to immunoglobulin status. Clin J Sport Med 2010; 20: 39-46
- 7 Hagemann GJ, Rijke AM, Corr PD. Do knees survive the Comrades Marathon?. S Afr Med J 2008; 98: 873-876
- 8 Nikolaidis PT, Knechtle B. Russians are the fastest and the youngest in the “Comrades Marathon”. J Sports Sci 2019; 37: 1387-1392
- 9 Knechtle B, Nikolaidis PT. The age of the best ultramarathon performance - the case of the “Comrades Marathon”. Res Sports Med 2017; 25: 132-143
- 10 Knechtle B, Nikolaidis PT. Physiology and pathophysiology in ultra-marathon running. Front Physiol 2018; 9: 634
- 11 Cejka N, Rüst CA, Lepers R. et al. Participation and performance trends in 100-km ultra-marathons worldwide. J Sports Sci 2014; 32: 354-366
- 12 Scheer V. Participation trends of ultra endurance events. Sports Med Arthrosc Rev 2019; 27: 3-7
- 13 Hoffman MD. Performance trends in 161-km ultramarathons. Int J Sports Med 2010; 31: 31-37
- 14 Senefeld J, Smith C, Hunter SK. Sex differences in participation, performance, and age of ultramarathon runners. Int J Sports Physiol Perform 2016; 11: 635-642
- 15 Knechtle B, Scheer V, Nikolaidis PT. et al. Participation and performance trends in the oldest 100-km ultramarathon in the world. Int J Environ Res Public Health 2020; 17: 1719
- 16 Tanaka H, Tarumi T, Rittweger J. Aging and physiological lessons from master athletes. Compr Physiol 2019; 10: 261-296
- 17 Tanaka H. Aging of competitive athletes. Gerontology 2017; 63: 488-494
- 18 Geard D, Reaburn PRJ, Rebar AL. et al. Masters athletes: Exemplars of successful aging?. J Aging Phys Activ 2017; 25: 490-500
- 19 Lepers R, Stapley PJ. Master athletes are extending the limits of human endurance. Front Physiol 2016; 7: 613
- 20 Austad SN. Sex differences in health and aging: A dialog between the brain and gonad?. Geroscience 2019; 41: 267-273
- 21 Hunter SK. The relevance of sex differences in performance fatigability. Med Sci Sports Exerc 2016; 48: 2247-2256
- 22 Knechtle B, Valeri F, Zingg MA. et al. What is the age for the fastest ultra-marathon performance in time-limited races from 6 h to 10 days?. Age 2014; 36: 9715-9715
- 23 Nikolaidis PT, Knechtle B. Age of peak performance in 50-km ultramarathoners - is it older than in marathoners?. Open Access J Sports Med 2018; 9: 37-45
-
24 Nikolaidis PT, Knechtle B. Performance in 100-km ultra-marathoners - At which age it reaches its peak? J Strength Cond Res 2020; 34: 1409–1415
- 25 Spittler J, Oberle L. Current trends in ultramarathon running. Cur Sports Med Rep 2019; 18: 387-393
- 26 Harriss DJ, MacSween A, Atkinson G. Ethical standards in sport and exercise science research: 2020 Update. Int J Sports Med 2019; 40: 813-817
-
27 Johansson RE, Adolph ST, Swart J et al. Accuracy of GPS sport watches in measuring distance in an ultramarathon running race. Int J Sports Sci Coach 2020; 15: 212–219
- 28 Fornasiero A, Trabucchi P. et al. The energetics during the world’s most challenging mountain Ultra-Marathon-A case study at the Tor des Geants® . Front Physiol 2017; 8: 1003
- 29 Hoogkamer W, Kipp S, Kram R. The biomechanics of competitive male runners in three marathon racing shoes: A randomized crossover study. Sports Med 2019; 49: 133-143
- 30 Hunter I, McLeod A, Valentine D. et al. Running economy, mechanics, and marathon racing shoes. J Sports Sci 2019; 37: 2367-2373
- 31 Fuller JT, Bellenger CR, Thewlis D. et al. The effect of footwear on running performance and running economy in distance runners. Sports Med 2015; 45: 411-422
- 32 Kazimierczak M, Dąbrowska A, Adamczewska K. et al. The impact of modern ultramarathons on shaping the social identity of runners. The case study of karkonosze winter ultramarathon. Int J Environ Res Public Health 2020; 17: 116
- 33 Knechtle B, Valeri F, Nikolaidis PT. et al. Do women reduce the gap to men in ultra-marathon running?. SpringerPlus 2016; 5: 672
- 34 Willis SJ, Gellaerts J, Mariani B. et al. Level versus uphill economy and mechanical responses in elite ultra-trail runners. Int J Sports Physiol Perform 2019; 14: 1001-1005
- 35 Vernillo G, Brighenti A, Limonta E. et al. Effects of ultratrail running on skeletal-muscle oxygenation dynamics. Int J Sports Physiol Perform 2017; 12: 496-504
- 36 Waldvogel KJ, Nikolaidis PT, Di Gangi S. et al. Women reduce the performance difference to men with increasing age in ultra-marathon running. Int J Environ Res Public Health 2019; 16: 2377
- 37 Lara B, Salinero JJ, Del Coso J. The relationship between age and running time in elite marathoners is U-shaped. Age 2014; 36: 1003-1008
- 38 Handelsman DJ, Hirschberg AL, Bermon S. Circulating testosterone as the hormonal basis of sex differences in athletic performance. Endocr Rev 2018; 39: 803-829
- 39 Lötscher F, Löffel T, Steiner R. et al. Biologically relevant sex differences for fitness-related parameters in active octogenarians. Eur J Appl Physiol 2007; 99: 533-540