Short-course performance variation across all race sections: How 100 and 200 m elite male swimmers progress between rounds Cuenca Fernández, Francisco Ruiz Navarro, Jesús Juan Polach, Marek Arellano Colomina, Raúl Born, Dennis-Peter Competition analysis Pacing Race parameters Swimming Kinematic analysis The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fspor.2023. 1146711/full#supplementary-material IntroductionTo investigate performance variation in all race sections, i.e., start, clean swimming, and turns, of elite short-course races for all swimming strokes and to determine the effect of performance variation on race results. MethodsComparing finalists and non-qualified swimmers, a total of 256 races of male swimmers (n = 128, age: 23.3 +/- 3.1, FINA points: 876 +/- 38) competing in the European short-course swimming championships were analyzed. The coefficient of variation (CV) and relative change in performance (Delta%) were used to compare intra-individual performance progression between rounds and inter-individual differences between performance levels using a linear mixed model. ResultsWhile most performance variables declined during the races (P < 0.005), performance was better maintained in 200 m compared to 100 m races, as well as in finalists compared to non-qualified swimmers. In 100 m races, Start Times improved between heats, semi-finals, and finals (P < 0.005) and contributed to the improved Split Times of Lap 1 in freestyle (P = 0.001, Delta = -1.09%), breaststroke (P < 0.001; Delta = -2.48%), and backstroke (P < 0.001; Delta = -1.72%). Swimmers increased stroke rate from heats/semi-finals to finals in freestyle (P = 0.015, Delta = 3.29%), breaststroke (P = 0.001, Delta = 6.91%), and backstroke (P = 0.005; Delta = 3.65%). Increases in stroke length and clean-swimming speed were only significant between rounds for breaststroke and backstroke (P < 0.005). In 200 m races, Total Time remained unchanged between rounds (P > 0.05), except for breaststroke (P = 0.008; CV = 0.7%; Delta = -0.59%). Start (P = 0.004; Delta = -1.72%) and Split Times (P = 0.009; Delta = -0.61%) only improved in butterfly. From the turn variables, OUT_5 m times improved towards the finals in breaststroke (P = 0.006; Delta = -1.51%) and butterfly (P = 0.016; Delta = -2.19%). No differences were observed for SR and SL, while clean-swimming speed improved between rounds in breaststroke only (P = 0.034; Delta = 0.96%). DiscussionPerformance of finalists progressed between rounds in 100 m but not 200 m races, most probably due to the absence of semi-finals. Progression in 100 m races was mainly attributed to improved Start and Split Times in Lap 1, while turn performances remained unchanged. Within round comparison showed higher performance maintenance in 200 m compared to 100 m events, which showed more pronounced positive pacing. Success of finalists was attributed to their overall higher performance level and superior progression between rounds. 2023-05-22T08:17:56Z 2023-05-22T08:17:56Z 2023-03-28 journal article Cuenca-Fernández F, Ruiz-Navarro JJ, Polach M, Arellano R and Born D-P (2023) Short-course performance variation across all race sections: How 100 and 200 m elite male swimmers progress between rounds. Front. Sports Act. Living 5:1146711. doi: 10.3389/fspor.2023.1146711 https://hdl.handle.net/10481/81694 10.3389/fspor.2023.1146711 eng http://creativecommons.org/licenses/by/4.0/ open access Atribución 4.0 Internacional Frontiers Media