PURPOSE: Lower barometric air pressure at altitude can affect competitive performance of athletes in some sports. Reported here are the effects of various altitudes on elite track-and-field athletes' performance. METHODS: Lifetime track-and-field performances of athletes placed in the top 16 in at least 1 major international competition between 2000 and 2009 were downloaded from the database at tilastopaja.org. There were 132,104 performances of 1889 athletes at 794 venues. Performances were log-transformed and analyzed using a mixed linear model with fixed effects for 6 levels of altitude and random quadratic effects to adjust for athlete age. RESULTS: Men's and women's sprint events (100-400 m) showed marginal improvements of ~0.2% at altitudes of 500-999 m, and above 1500 m all but the 100- and 110-m hurdles showed substantial improvements of 0.3-0.7%. Some middle- and long-distance events (800-10,000 m) showed marginal impairments at altitudes above 150 m, but above 1000 m the impairments increased dramatically to ~2-4% for events >800 m. There was no consistent trend in the effects of altitude on field events up to 1000 m; above 1000 m, hammer throw showed a marginal improvement of ~1% and discus was impaired by 1-2%. Above 1500 m, triple jump and long jump showed marginal improvements of ~1%. CONCLUSIONS: In middle-and long-distance runners, altitudes as low as 150 to 299 m can impair performance. Higher altitudes (≥1000 m) are generally required before decreases in discus performance or enhancements in sprinting, triple and long jump, or hammer throw are seen.
PURPOSE: Lower barometric air pressure at altitude can affect competitive performance of athletes in some sports. Reported here are the effects of various altitudes on elite track-and-field athletes' performance. METHODS: Lifetime track-and-field performances of athletes placed in the top 16 in at least 1 major international competition between 2000 and 2009 were downloaded from the database at tilastopaja.org. There were 132,104 performances of 1889 athletes at 794 venues. Performances were log-transformed and analyzed using a mixed linear model with fixed effects for 6 levels of altitude and random quadratic effects to adjust for athlete age. RESULTS:Men's and women's sprint events (100-400 m) showed marginal improvements of ~0.2% at altitudes of 500-999 m, and above 1500 m all but the 100- and 110-m hurdles showed substantial improvements of 0.3-0.7%. Some middle- and long-distance events (800-10,000 m) showed marginal impairments at altitudes above 150 m, but above 1000 m the impairments increased dramatically to ~2-4% for events >800 m. There was no consistent trend in the effects of altitude on field events up to 1000 m; above 1000 m, hammer throw showed a marginal improvement of ~1% and discus was impaired by 1-2%. Above 1500 m, triple jump and long jump showed marginal improvements of ~1%. CONCLUSIONS: In middle-and long-distance runners, altitudes as low as 150 to 299 m can impair performance. Higher altitudes (≥1000 m) are generally required before decreases in discus performance or enhancements in sprinting, triple and long jump, or hammer throw are seen.
Authors: Stefan De Smet; Paul van Herpt; Gommaar D'Hulst; Ruud Van Thienen; Marc Van Leemputte; Peter Hespel Journal: Front Physiol Date: 2017-05-31 Impact factor: 4.566
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Authors: David Cristóbal Andrade; Ana Rosa Beltrán; Cristian Labarca-Valenzuela; Oscar Manzo-Botarelli; Erwin Trujillo; Patricio Otero-Farias; Cristian Álvarez; Antonio Garcia-Hermoso; Camilo Toledo; Rodrigo Del Rio; Juan Silva-Urra; Rodrigo Ramírez-Campillo Journal: Front Physiol Date: 2018-10-09 Impact factor: 4.566
Authors: Filipa Almeida; Juan Bonitch-Góngora; Paulino Padial; Blanca de la Fuente; Antonio J Morales-Artacho; Belén Feriche Journal: PLoS One Date: 2018-10-24 Impact factor: 3.240