1 이정훈, "스노우팩-융설 계산을 위한 에너지수지 알고리즘" 한국지하수토양환경학회 16 (16): 82-89, 2011
2 Colbeck, S.C., "The permeability of a melting snow cover" 18 : 904-908, 1982
3 이정훈, "Stable isotopic exchange rate constant between snow and liquid water" ELSEVIER SCIENCE BV 260 (260): 57-62, 200903
4 Christensen, J.H., "Regional Climate Projection, In Climate Change 2007: The Physica l Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change" Cambridge University Press 2007
5 Zhou, S., "Preferential exchange rate effect of isotopic fractionation in a melting snowpack" 22 : 3734-3740, 2008
6 Lee, J., "Modeling of solute transport in snow using conservative tracers and artificial rain-on-snow experiments" 44 : W02411-, 2008
7 Harrington, R., "Modeling ionic solute transport in melting snow" 34 : 1727-1736, 1998
8 Lee, J., "Isotopic evolution of snowmelt: A new model incorporating mobile and immobile water" 46 : W11512-, 2010
9 Taylor, S., "Isotopic evolution of snowmelt. 2. Verification of parameterization of a one-dimensional model using laboratory experiments" 38 : 1218-, 2002
10 Feng, X., "Isotopic evolution of snowmelt. 1. A physically based onedimensional model" 38 : 1217-, 2002
1 이정훈, "스노우팩-융설 계산을 위한 에너지수지 알고리즘" 한국지하수토양환경학회 16 (16): 82-89, 2011
2 Colbeck, S.C., "The permeability of a melting snow cover" 18 : 904-908, 1982
3 이정훈, "Stable isotopic exchange rate constant between snow and liquid water" ELSEVIER SCIENCE BV 260 (260): 57-62, 200903
4 Christensen, J.H., "Regional Climate Projection, In Climate Change 2007: The Physica l Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change" Cambridge University Press 2007
5 Zhou, S., "Preferential exchange rate effect of isotopic fractionation in a melting snowpack" 22 : 3734-3740, 2008
6 Lee, J., "Modeling of solute transport in snow using conservative tracers and artificial rain-on-snow experiments" 44 : W02411-, 2008
7 Harrington, R., "Modeling ionic solute transport in melting snow" 34 : 1727-1736, 1998
8 Lee, J., "Isotopic evolution of snowmelt: A new model incorporating mobile and immobile water" 46 : W11512-, 2010
9 Taylor, S., "Isotopic evolution of snowmelt. 2. Verification of parameterization of a one-dimensional model using laboratory experiments" 38 : 1218-, 2002
10 Feng, X., "Isotopic evolution of snowmelt. 1. A physically based onedimensional model" 38 : 1217-, 2002
11 Taylor, S., "Isotopic evolution of a seasonal snowpack and its melt" 37 : 759-769, 2001
12 이정훈, "Isotopic evolution of a seasonal snowcover and its melt by isotopic exchange between liquid water and ice" ELSEVIER SCIENCE BV 270 (270): 126-134, 201002
13 Unnikrishna, P., "Isotope variation in a Sierra Nevada snowpack and their relation to meltwater" 260 : 38-57, 2002
14 Bales, R.C., "Ion elution through shallow homogeneous snow" 25 : 1869-1877, 1989
15 Singh, P., "Hydrological response of snowpack under rain-on-snow events: a field study" 202 : 1-20, 1997
16 O'Neil, J.R., "Hydrogen and oxygen isotope fractionation between ice and water" 72 : 3683-3684, 1968
17 Búason, T., "Equation of isotope fractionation between ice and water in a melting snow column with continuous rain and percolation" 11 : 387-405, 1972
18 Colbeck, S.C., "A theory of water percolation in snow" 11 : 369-385, 1972
19 Feng, X., "A study of solute transport mechanisms using rare earth element tracers and artificial rainstorms on snow" 37 : 1425-1435, 2001
20 Lee, J., "A study of solute redistribution and transport in seasonal snowpack using natural and artificial tracers" 357 : 243-254, 2008
21 Wankiewicz, A., "A review of water movement in snow, In Modeling of Snow Runoff" U.S. Army Cold Reg. Res. And Eng. Lab 222-252, 1978
22 Hibberd, S., "A model for pollutant concentrations during snow-melt" 30 : 58-65, 1984