Références bibliographiques
ANDERSON, E.A. (1968), Development and testing of snow pack energy balance equations.
Water Resources Research, Vol. 4, N°1, 19-37.
ANDERSON, E.A. (1972). Techniques for predicting snow cover runoff. Actes du Colloque de Banff sur le rôle de la neige et de la glace en hydrologie. AISH Pub. 107, Vol. 2, 840-863.
http://hydrologie.org/redbooks/a107/107068.pdf
ANDERSON, E.A. (1973). National weather service river forecast system-snow accumulation and ablation model. NOAA Technical Memorandum NWS HYDR0-17, Silver Spring, M.D.
https://repository.library.noaa.gov/view/noaa/13507/Print
BERGSTROM, S. (1975). The development of a snow routine for the HBV-2 model. Nordic Hydrology, Vol. 6(2), 73-92
BOWLEY, C.J., BARNES, J,C, et RANGO, A. (1981). Applications systems verification and transfer project. Vol. VIII: Satellite snow mapping and runoff prediction handbook. NASA, report N°TP-1829, 97 p.
https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19820012750.pdf
BROWN, A.J., HANNAFORD, J.F., et HALL, R.L. (1980). Application of snowcovered area to runoff forecasting in selected basins of the Sierra Nevada, California. U.S. NASA scientific and technical informations office, NASA CP-2116, 185-200.
CARROLL, T.R. et JONES, W.J. (1982). Error assessaent of airborne snow water equivalent measurements. 50th Western Snow Conference, Reno, Nevada.
https://westernsnowconference.org/sites/westernsnowconference.org/PDFs/1982Carroll.pdf CARROLL, T.R. et LARSON, L,W, (1981). Application of airborne gamma radiation snow survey measurements and snow cover modeling in river and flood forecasting, Proc. 19th Western Snow Conference, St. George, Utah.
https://westernsnowconference.org/sites/westernsnowconference.org/PDFs/1981Carroll.pdf CARROLL, T.R. et VADNAIS, K.G. (1980). Qperational airborne measurement of snow water equivalent using natural terrestrial gamma radiation. Proc. 48th Western Snow Conference, Laramie, Wyoming, 97-106.
https://westernsnowconference.org/sites/westernsnowconference.org/PDFs/1980Carroll.pdf CARSLAW, H.S. et JAEGER, J.C. (1959), Conduction of heat in solids, 2nd edition, Oxford at the Clarendon Press, 510 p,
CHARBONNEAU, R. (1971), Modèle mathématique en hydrologie. Cas d'un bassin versant montagneux à régime nivo-pluvial: la Durance à Serre-Ponçon. Thèse de docteur ingénieur, Université scientifique et médicale de Grenoble, 209 p.
CHOW, V.T. (1961). Handbook of applied hydrology: a compendium of water resources technology, McGraw-Hill Book Company, Section 29-1.
CLARK Jr., S.P. (1966). Thermal conductivity. Handbook of physical constants: the
Geological Society of America, 587 p.
CRANK, J. (1964). The mathematics of diffusion. Oxford at the Clarendon Press, 347 p.
De QUERVAIN, M.R. (1972). Snow structure, heat, and mass flux through snow. Actes du Colloque de Banff sur le rôle de la neige et de la glace en hydrologie. AISH Pub. 107, Vol 1, 203-226.
http://hydrologie.org/redbooks/a107/107018.pdf
DIAMOND, M. et LOWRY, W.P. (1953). Correlation of density of new fallen snow with 700 mb temperature. SIPRE Research Paper 1, CRREL, U.S. Army.
http://acwc.sdp.sirsi.net/client/en_US/default/search/detailnonmodal/ent:
$002f$002fSD_ILS$002f0$002fSD_ILS:58846/one?qu=diamond+lowry&te=ILS&dt=list DOZIER, J,, SCHNEIDER, S.R. et McGINNIS Jr, D.F. (1981), Effect of grain size and snowpack water equivalence on visible and near-infrared satellite observations of snow.
Water Resources Research, Vol. 17, N°4, 1213-1221.
EAGLESON, P.S. (1970), Dynamic hydrology, Massachusetts Institute of Technology, McGraw-Hill, 462 p.
FORTIN, J.P., MORIN, G., SOCHANSKA, W. et POTVIN, L. (1983), Utilisation de la télédétection pour améliorer la précision des crues de fonte de neige simulées par le modèle CEQUEAU. International symposium on hydrological applications of remote sensing and remote data transmission. IAHS Publ. 145, 613-623.
http://hydrologie.org/redbooks/a145/iahs_145_0613.pdf
GIRARD, G., MORIN, G. et CHARBONNEAU, R. (1972), Modèle précipitations-débits à discrétisation spatiale. Cahiers O.R.S.T.O.M., Sér. Hydrol., Vol. 91, N°4, 35-52.
http://horizon.documentation.ird.fr/exl-
doc/pleins_textes/pleins_textes_4/hydrologie/14890.pdf
GOODISON, B.E. (1976). Correlation of density of new fallen snow with 800 mb and 700 mb temperatures. Unpublished note.
GOODISON, B.E. (1981), Compatibility of canadian snowfall and snow cover data. Water Resources Research, Vol. 17, N°4, 893-900.
GOODISON, B.E. et McKAY, D.J. (1978). Canadian snowfall measureaents: some implications for the collection and analysis of data from remote stations. Proc. Western Snow Conference, April 18-20, Otter Rock, Oregon, U.S.A., 46, 48-57.
https://westernsnowconference.org/sites/westernsnowconference.org/PDFs/1978Goodison.pdf
GOSSELIN, P. (1971) Un appareil de mesure automatique de la neige. Ingénieur, 270: 11-15.
GRAY, D.M. et O'NEILL, A.D.J. (1973). Application of the energy budget for predicting snowmelt runoff, Interdisciplinary symposium on advanced concepts and techniques in the study of snow and ice ressources. Monterey, California, Dec.
HARSTVEIT, K. (1981). Measuring and modelling snowmelt in Dyrdalen, Western Norway, 1979 and 1980. Nordic Hydrol., Vo1 12(4-5), 235-216.
LEAF, C.F. et BRINK, G.E. (1973). Computer simulation of snowmelt within a Colorado subalpine watershed. U.S. Department of Agriculture, Fort Collins, Colorado, Rocky Mountain Forest and Range Experiment Station. USDA Forest Service Research Paper RM- 99, 1-22.
LILLESAND, T.M., KEISNER, D.E., LaMOIS DOWNS, A. et DENELL, R.L. (1982), Use of GOES and TIROS/NOAA satellite data for snow cover aapping, Photogrammetric engineering and remote sensing, Vol. 18, N°2, 251-259.
MacNEIL, C.F. et O'NEILL, A.D.J. (1977). Measurements of the water equivalent of freshly fallen snow in Canada's Atlantic Provinces. Proc. of the 3th annual Eastern Snow Conference, Feb. 3-4, Belleville, Ontario, 118-129.
MARTINEC, J. (1960), The degree-day factor for snowmelt-runoff forecasting, AISH Publ.
51, 168-177.
http://hydrologie.org/redbooks/a051/051058.pdf
MARTINEC, J. (1982), A snowmelt-runoff model for computing the daily discharge from temperature data. Application of results from representative and experimental basins. Studies and Rep. in Hydrol, N°32, Unesco/Paris, 81-103.
http://hydrologie.org/BIB/Publ_UNESCO/SR_032_1982.pdf
MARTINEC, J., RANGO, A. et MAJOR, E. (1983), The snowmelt-runoff model (SRM) user's manual. NASA RP-1100.
https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19830015389.pdf
McGINNIS, D.F., PRITCHARD, J.A. et WIESNET, D.R. (1975), Determination of snow depth and snow extent from NOAA 2 satellite very high resolution radiometer data. W.R.R., Vo1 11, N°6, 897-902.
MELLOR, K. (1977). Engineering properties of snow. J. Glaciology, 19(81), 15-65.
https://www.cambridge.org/core/services/aop-cambridge-
core/content/view/640B715A5752FE7DFD2C6EA2391AC00C/S002214300002921Xa.pdf/e ngineering_properties_of_snow.pdf
MELLOR, K. (1961). Properties of snow. U.S. cold regions research and engineering laboratory. Cold regions science and engineering, Hanover, N.H., PT III, Sect Al.
https://erdc-library.erdc.dren.mil/xmlui/bitstream/handle/11681/2633/CRSE-3-A1.pdf?
sequence=1&isAllowed=y
MORIN, G., FORTIN, J.P., LARDEAU, J.P., SOCHANSKA, W. et PAQUETTE, S. (1981).
Modèle CEQUEAU manuel d'utilisation. INRS-Eau, rapport scientifique N°93, 119 p.
http://espace.inrs.ca/1094/1/R00093.pdf
MOORE, R.D. (1983). On the use of bulk aerodynamic formulae over melting snow. Nordic Hydrol., 14(4), 193-206.
NORUM, D.I., GRAY, D.H. et HALE, D.H. (1973). Melt of shallow prairie snowpacks.
Division of Hydrology, College of Engineering, University of Saskatchewan, 1-14.
https://www.usask.ca/hydrology/papers/Norum_et_al_1976.pdf
OBLED, C.H. et ROSSE, B. (1977), Mathematical models of a melting snowpack at an index plot. Journal of Hydrology, 32, 139-163.
O'NEILL, A.D.J., et GRAY, D.H. (1971), Energy balance and melt theories. Huitième symposium canadien sur l'hydrologie, Québec, 31-58.
O'NEILL, A.D.J. et GRAY, D.H. (1972), Spatial and temporal variations of the albedo of prairie snowpack. Actes du Colloque de Banff sur le rôle de la neige et de la glace en hydrologie, AISH Pub. 107, 176-186.
http://hydrologie.org/redbooks/a107/107015.pdf
ORGANISATION METEOROLOGIQUE MONDIALE (1966), Measurement and estimation of evaporation and evapotranspiration. Report of a working group on evaporation measurement of the commission for instruments and methods of observation. WMO, N°201, TP-105, 1-121.
https://library.wmo.int/doc_num.php?explnum_id=1771
PROWSE, T.Q. et OWENS, I.F. (1982), Energy balance over melting snow, craigieburn range, New Zealand. J. of Hydrol., Vol 21, N°2, 133-117.
RANGO, A. (1980) (editor). Microwave remote sensing of snowpack properties. Proc.
Workshop sponsored by NASA, Fort Collins, Colorado, May 20-22. NASA Conference Pub., 2153, 275 p.
https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19810010984.pdf
RANGO, A., CHANG, T.C. et FOSTER, J,L, (19791, The utilization of spaceborne microwave radioaeter for aonitoring snowpack properties. Nordic Hydrol., 10-1, 25-10, RAUDKIVI, A.J. (1979), An advanced introduction to hydrological processes and modelling.
University of Auckland, New Zealand, Pergamon Press, 179 p,
RILEY, J.P., ISRAELSEN, E.K. et EGGLESTON, K.O. (1972), Some approaches to snowmelt prediction. Actes du Colloque de Banff sur le rôle de la neige et de la glace en hydrologie. AISH Pub. 107, 956-971.
http://hydrologie.org/redbooks/a107/107075.pdf
SELLERS, W.O. (1969), Physical climatology, University of Chicago Press, Chicago and London, 272 p.
TARPLEY, J.Q., SCHNEIDER, S.R., DANAHER, E.J. et MYERS, G.I. (1980), An all digital approach to snow mapping using geostationnary satellite dats. Proc. WOASSO (Workshop on operational applications of satellite snow cover observations operations), Sparks, Nevada, April 16-17, Pub. 2116, 267-279.
U.S. ARMY ENGINEER DIVISION. (1972). Streaflow synthesis and reservoir regulation.
Program description and user manual for SSARR, Program 724-K5-G0010. Sept., North Pacifie, Portland, Oregon, 21-31.
http://www.arlis.org/susitnadocfinder/Record/dbtw1955
U.S. CORPS OF ENGINEERS, (1956) Snow hydrology, U.S. Army Corps of Engineers, North Pacifie Division, Portland, Oregon.
https://cdm16021.contentdm.oclc.org/digital/api/collection/p266001coll1/id/4172/download U.S. CORPS OF ENGINEERS, (1960), Runoff from snowmelt. U.S. Army Corps of Engineers, EM-1110-2-1106, Washington, D.C.
https://www.publications.usace.army.mil/Portals/76/Publications/EngineerManuals/EM_1110 -2-1406.pdf?ver=2013-09-04-070756-610
WARREN, S.G. (1982), Optical properties of snow. Review of Geophysics and Space Physics, Vol. 20, N°1, 67-89.
WARREN, S.G. et WISCOMBE, W.J. (1980). A model for the spectral albedo of snow.
II. Snow containing atmospheric aerosols. J. Atmos. Sci., 37, 2731-2715.
http://journals.ametsoc.org/doi/pdf/10.1175/1520-
0469%281980%29037%3C2734%3AAMFTSA%3E2.0.CO%3B2
WEBB, E.K. (1970). Profile relationship : the log-linear range and extension to strong stability, Quart. J. Roy. Meteorol. Soc., Vol 96, 67-90.
WISCOMBE, W.J. et WARREN, S.G. (1980), A model for the spectral albedo of snow.
I. Pure snow. J. Atmos. Sci., 37, 2712-2733.
http://journals.ametsoc.org/doi/pdf/10.1175/1520-
0469%281980%29037%3C2712%3AAMFTSA%3E2.0.CO%3B2
YEN, Y.C. (1967), The rate of temperature propagation in moist porous mediums with particular reference to snow. U.S. Army cold regions research and engineering laboratory, Hanover, New Hampshire. Journal of Geophysical Research, Vol 72, N°4, 1283-1288.
(Novembre 1984)