Bonne, T, Gylling, A, Hjelvang, L, Voncken, M, Soerensen, N, Petersen, P, Sander, M, Quistorff, B & Nordsborg, N. B. (2012). Extracellular pH and buffer capacity does not influence time to exhaustion or reductions of intramuscular pH and maximal voluntary contraction force during exhaustive intermittent static exercise. The biomedical basis of elite performance. 19-21 March 2012, London, UK. Abstracts & Manuscripts (, S. 47-48). London: The Physiological Society.
APA (7th ed.) CitationBonne, T., Gylling, A., Hjelvang, L., Voncken, M., Soerensen, N., Petersen, P., . . . Nordsborg, N. B. (2012). Extracellular pH and buffer capacity does not influence time to exhaustion or reductions of intramuscular pH and maximal voluntary contraction force during exhaustive intermittent static exercise. The biomedical basis of elite performance. 19-21 March 2012, London, UK. Abstracts & Manuscripts, 47-48.
Chicago Style (17th ed.) CitationBonne, T., A. Gylling, L. Hjelvang, M. Voncken, N. Soerensen, P. Petersen, M. Sander, B. Quistorff, and N. B. Nordsborg. "Extracellular PH and Buffer Capacity Does Not Influence Time to Exhaustion or Reductions of Intramuscular PH and Maximal Voluntary Contraction Force During Exhaustive Intermittent Static Exercise." The Biomedical Basis of Elite Performance. 19-21 March 2012, London, UK. Abstracts & Manuscripts 2012: 47-48.
MLA (9th ed.) CitationBonne, T., et al. "Extracellular PH and Buffer Capacity Does Not Influence Time to Exhaustion or Reductions of Intramuscular PH and Maximal Voluntary Contraction Force During Exhaustive Intermittent Static Exercise." The Biomedical Basis of Elite Performance. 19-21 March 2012, London, UK. Abstracts & Manuscripts, 2012, pp. 47-48.