1977-2006 : Trente années de mesures des températures de l'eau dans le Bassin du Rhône

Open Access

Issue		Hydroécol. Appl. Volume 16, 2008 Température des eaux continentales, hydroécologie et changement climatique


Page(s)		191 - 213
DOI		https://doi.org/10.1051/hydro/2009002
Published online		04 March 2009

Beitinger T.L. & Bennett W.A., 2000. Quantification of the role of acclimation temperature in temperature tolerance of fishes. Environ. Biol. Fish. 58 : 277-288. [CrossRef] [Google Scholar]
Benyahya L. et al., 2007. Modeling of water temperatures based on stochastic approaches: case study of the Deschutes River. J. Environ. Engineer. Sci. 6(4) : 437-448. [Google Scholar]
Brown L.E. & Hannah D.M., 2008. Spatial heterogeneity of water temperature across an alpine river basin. Hydrological Processes 22 (7), 954. [Google Scholar]
Brown L.E., Hannah D.M. & Milner A.M., 2006. Hydroclimatological influences on water column and streambed thermal dynamics in an alpine river system. J. Hydrology 325 (1-4) : 1-20. [CrossRef] [Google Scholar]
Caissie D., Satish, M.G. & El-Jabi N., 2005. Predicting water temperatures using the equilibrium temperature concenpt with application on Miramichi River catchments (New Brunswick, Canada). Hydrological Processes 19 : 2137-2159. [Google Scholar]
Daufresne M. et al., 2004. Long-term changes within the invertebrate and fish communities of the Upper Rhône River: effects of climatic factors. Global Change Biology 10 (1) : 124-140. [Google Scholar]
Daufresne M. & Boet P., 2007. Climate change impacts on structure and diversity of fish communities in rivers. Global Change Biology 13 (12) : 2467-2478. [Google Scholar]
Delebecque A., 1898. Les Lacs Français, Paris: Chamerot et Renouard. [Google Scholar]
Eaton J.G. et al., 1995, A Field Information-based System for Estimating Fish Temperature Tolerances. Fisheries 20 (4) : 10-18. [Google Scholar]
Ebersole J., Liss W. & Frissel C., 2003. Thermal heterogeneity, stream channel morphology, and salmonid abundance in northeastern Oregon streams. Canad. J. Fish. Aquatic Sci. 60 : 1266-1280. [CrossRef] [Google Scholar]
Edinger J.E., Duttweiler D.W. & Geter J.C., 1968. The response of water temperatures to meteorological conditions. Water Resources Research 4 (5) : 1137-1143. [Google Scholar]
Forel F.A., 1892. Le Léman, monographie limnologique, F Rouge Editeur, Lausanne. [Google Scholar]
Grenouillet G. et al., 2001. Large-scale synchrony and inter-annual variability in roach recruitment in the Rhône River: the relative role of climatic factors and density-dependent processes. Freshwater Biology 46 (1) : 11-26. [Google Scholar]
Hubert P., 1971. Étude par le Tritium de la dynamique des Eaux du Lac Léman. Thèse de l'Université Pierre et Marie Curie, 149 p. [Google Scholar]
Jones H.A. & Preece R.M., 2002. The effect of Keepit Dam on the temperature regime of the Namoi River, Australia. River Research and Applications 18 (4) : 397-414. [CrossRef] [Google Scholar]
Langan S. et al., 2001. Variation in river water temperatures in an upland stream over a 30-year period. The Science of the Total Environment 265 : 195-207. [Google Scholar]
Moatar F., 1997. Modélisation statistiques et déterministes des paramètres physico-chimique utilisés en surveillance des eaux de rivières : Application à la validation des séries de mesures en continu (cas de la Loire Moyenne). Thèse de l'Institut National Polytechnique de Grenoble, 290p. [Google Scholar]
Moatar F. & Gailhard J., 2006. Water temperature behaviour in the River Loire since 1976 and 1881. Comptes Rendus Geosciences 338 (5) : 319-328. [Google Scholar]
Mohseni O. & Stefan H.G., 1999. Stream temperature/air temperature relationship: a physical interpretation. J. Hydrology 218 (3-4) : 128-141. [Google Scholar]
Plantamour E. 1863. Du Climat de Genève. Éditeur : Henri GEORG, Genève. [Google Scholar]
Poirel A., Carrel G. & Olivier J.M., 2001. Régime thermique du Rhône et peuplements piscicoles. Dans Lyon - Grands Fleuves 2001. Lyon. [Google Scholar]
Pont D., 2003. Conséquences potentielles du changement climatique sur les biocénoses aquatiques et riveraines françaises, GICC - Aquabio. [Google Scholar]
Salas J.D., 1980. Applied Modeling of Hydrologic Time Series, Water Resources Publication. [Google Scholar]
de Saussure H.B., 1779. Voyage dans les Alpes, Neuchatel: Editeur - Louis FAUCHE-BOREL, 1803. [Google Scholar]
Smith K., 1981. The Prediction of River Water Temperatures. Hydrological Sciences Bulletin 26(1). [Google Scholar]
Steele T., 1982. A characterization of stream temperature in Pakistan using harmonic analysis. Hydrological Sciences journal 4 (12) : 451-467. [CrossRef] [Google Scholar]
Tasker G.D. & Burns A.W., 1974. Mathematical Generalization of Stream Temperature in Central New England. Journal of the American Water Resources Association 10 (6) : 1133-1142. [CrossRef] [Google Scholar]
Vallee L., 1843. Du Rhône et du Lac de Genève. Des grands travaux à exécuter pour la Navigation du Léman à la Mer Librairie Scientifique Industrielle., Paris: Mathias L.. [Google Scholar]
Ward J., 1963. Annual variation of stream water temperature. Dans "Proceedings of the American Society of Civil Engineers". Journal of the Sanitary Engineering Division, p. 3710-3732. [Google Scholar]
Webb B.W. & Walling D.E., 1997. Complex summer water temperature behaviour below a UK regulating reservoir. Regulated Rivers: Research & Management 13 (5) : 463-477. [CrossRef] [Google Scholar]
Webb B.W. & Nobilis F., 2007. Long-term changes in river temperature and the influence of climatic and hydrological factors. Hydrological Sciences journal 52 (1) : 74-85. [Google Scholar]
Webb B. & Walling D., 1992. Long term water temperature behaviour and trends in a Devon, UK, river system. Hydrological sciences journal 37 (6) : 567-580. [CrossRef] [Google Scholar]
Westhoff M.C. et al., 2007. A distributed stream temperature model using high resolution temperature observations. Hydrology and Earth System Sciences 11 : 1469-1480. [CrossRef] [Google Scholar]

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