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//Kim H.J., Kim J.H., Ji U., Jung S.H. (2020) Effect of Probability Distribution-Based Physical Habitat Suitability Index on Environmental-Flow Estimation. KSCE Journal of Civil Engineering, | //Kim H.J., Kim J.H., Ji U., Jung S.H. (2020) Effect of Probability Distribution-Based Physical Habitat Suitability Index on Environmental-Flow Estimation. KSCE Journal of Civil Engineering, | ||
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+ | //Rosenfeld J.S., Campbell K., Leung E.S., Bernhardt J., Post J. (2011) Habitat effects on depth and velocity frequency distributions: | ||
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+ | //Saraeva K., Hardy T.B. (2009) Prediction of fisheries physical habitat values based on hydrualic geometry and frequency distributions of depth and velocity. International Journal of River Basin Management 7: 31-41.// | ||
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+ | //Schweizer S., Borsuk M.E., Jowett I.G., Reichert P. (2007) Predicting joint frequency distributions of depth and velocity for instream habitat assessment. River Research and Applications 23: 287-302.// | ||
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+ | //Wilding T.K., Bledsoe B., Poff N.L., Sanderson J. (2014) Predicting habitat response to flow using generalized habitat models for trout in Rocky Mountain streams. River Research and Applications, | ||
===== Généralité des modèles biologiques de sélection des microhabitats ===== | ===== Généralité des modèles biologiques de sélection des microhabitats ===== | ||
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+ | //Becquet J., Lamouroux N., Forcellini F., Cauvy-Fraunié S. (submitted). Modelling macroinvertebrate hydraulic preferences in alpine streams. // | ||
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===== Applications des modèles ===== | ===== Applications des modèles ===== |