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The distribution of match activities relative to the maximal mean intensities in professional rugby league and Australian football
Johnston, Rich D. Thornton, Heidi R. Wade, Jarrod A. Devlin, Paul Duthie, Grant M.
Johnston, Rich D.
Thornton, Heidi R.
Wade, Jarrod A.
Devlin, Paul
Duthie, Grant M.
Abstract
Johnston, RD, Thornton, HR, Wade, JA, Devlin, P, and Duthie, GM. The distribution of match activities relative to the maximal mean intensities in professional rugby league and Australian football. J Strength Cond Res XX(X): 000–000, 2020—This study determined the distribution of distance, impulse, and accelerometer load accumulated at intensities relative to the maximal mean 1-minute peak intensity within professional rugby league and Australian football. Within 26 rugby league (n = 24 athletes) and 18 Australian football (n = 38 athletes) games, athletes wore global navigation satellite system devices (n = 608 match files). One-minute maximal mean values were calculated for each athlete per game for speed (m·minP−1P), accelerometer load (AU·minP−1P), and acceleration (m·sP−2P). Volumes for each parameter were calculated by multiplying by time, specifying total distance, accelerometer load, and impulse. The distribution of intensity of which these variables were performed relative to the maximal mean was calculated, with percentages ranging from 0–110%, separated into 10% thresholds. Linear mixed models determined whether the distribution of activities within each threshold varied, and positional differences. Effects were described using standardized effect sizes (ESs), and magnitude-based decisions. Across both sports, the distribution of activity (%) largely reduced the closer to the maximal mean 1-minute peak and was highest at ∼60% of the maximal mean peak. When compared with Australian football, a higher percentage of total distance was accumulated at higher intensities (70–80% and 100–110%) for rugby league (ES range = 0.82–0.87), with similar, yet larger differences for accelerometer load >80% (0.78–1.07) and impulse >60% (1.00–2.26). These findings provide information of the volume of activities performed relative to the mean maximal 1-minute peak period, which may assist in the prescription of training.
Keywords
team sports, moving average, physical, acceleration, physical demands
Date
2022
Type
Journal article
Journal
Journal of Strength and Conditioning Research
Book
Volume
36
Issue
5
Page Range
1360-1366
Article Number
ACU Department
School of Behavioural and Health Sciences
Faculty of Health Sciences
Faculty of Health Sciences
Relation URI
Source URL
Event URL
Open Access Status
Published as green open access
License
File Access
Controlled
Open
Open