Dunlop, K. A., Lawler, N. G., Whitfield, J, McKay, A. K. A., Tee, N, Ross, M. L., Reinke, S. N., Hawley, J. A., Broadhurst, D & Burke, L. M. (2026). Carbohydrate restriction drives greater perturbations in circulating metabolites than low energy availability in elite male athletes. Physiological Reports, 14 (3), e70752. Zugriff am 28.05.2026 unter https://doi.org/10.14814/phy2.70752
APA-Zitierstil (7. Ausg.)Dunlop, K. A., Lawler, N. G., Whitfield, J., McKay, A. K. A., Tee, N., Ross, M. L., . . . Burke, L. M. (2026). Carbohydrate restriction drives greater perturbations in circulating metabolites than low energy availability in elite male athletes. Physiological Reports, 14(3), e70752.
Chicago-Zitierstil (17. Ausg.)Dunlop, K. A., et al. "Carbohydrate Restriction Drives Greater Perturbations in Circulating Metabolites than Low Energy Availability in Elite Male Athletes." Physiological Reports 14, no. 3 (2026): e70752.
MLA-Zitierstil (9. Ausg.)Dunlop, K. A., et al. "Carbohydrate Restriction Drives Greater Perturbations in Circulating Metabolites than Low Energy Availability in Elite Male Athletes." Physiological Reports, vol. 14, no. 3, 2026, p. e70752.