D
Daryl P. Wilkerson
Researcher at University of Exeter
Publications - 79
Citations - 6507
Daryl P. Wilkerson is an academic researcher from University of Exeter. The author has contributed to research in topics: Physical exercise & Priming Exercise. The author has an hindex of 39, co-authored 76 publications receiving 5894 citations. Previous affiliations of Daryl P. Wilkerson include Manchester Metropolitan University & Health Science University.
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Journal ArticleDOI
Dietary nitrate supplementation reduces the O2 cost of low-intensity exercise and enhances tolerance to high-intensity exercise in humans
Stephen J. Bailey,Paul G. Winyard,Anni Vanhatalo,Jamie R. Blackwell,Fred J. DiMenna,Daryl P. Wilkerson,Joanna M. Tarr,Nigel Benjamin,Andrew M. Jones +8 more
TL;DR: The reduced O2 cost of exercise following increased dietary nitrate intake has important implications for the understanding of the factors that regulate mitochondrial respiration and muscle contractile energetics in humans.
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Dietary nitrate supplementation enhances muscle contractile efficiency during knee-extensor exercise in humans
Stephen J. Bailey,Jonathan Fulford,Anni Vanhatalo,Paul G. Winyard,Jamie R. Blackwell,Fred J. DiMenna,Daryl P. Wilkerson,Nigel Benjamin,Andrew M. Jones +8 more
TL;DR: The reduced O(2) cost of exercise following dietary NO(3)(-) supplementation appears to be due to a reduced ATP cost of muscle force production.
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Acute and chronic effects of dietary nitrate supplementation on blood pressure and the physiological responses to moderate-intensity and incremental exercise
Anni Vanhatalo,Stephen J. Bailey,Jamie R. Blackwell,Fred J. DiMenna,Toby G. Pavey,Daryl P. Wilkerson,Nigel Benjamin,Paul G. Winyard,Andrew M. Jones +8 more
TL;DR: It is indicated that dietary NO(3)(-) supplementation acutely reduces BP and the O(2) cost of submaximal exercise and that these effects are maintained for at least 15 days if supplementation is continued.
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Muscle metabolic responses to exercise above and below the "critical power" assessed using 31P-MRS.
TL;DR: The hypothesis that the "critical power" (CP) represents the highest constant work rate that can be sustained without a progressive depletion of muscle high-energy phosphates and a rapid accumulation of metabolites is supported.
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Validity of criteria for establishing maximal O2 uptake during ramp exercise tests.
TL;DR: Findings provide a clear mandate for rejecting secondary criteria based upon respiratory exchange ratio, maximal heart rate or blood [lactate] as a means of validating ramp exercise tests.