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      눈 속에서의 용질이동 및 융설의 동위원소변동에 관한 모델개발 = Development of Mathematical Model for Both Solute Transport in Snow and Isotopic Evolution of Snowmelt

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      https://www.riss.kr/link?id=A101661926

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      다국어 초록 (Multilingual Abstract)

      Chemical and isotopic variations of snowmelt provide important clues for understanding snowmelt processes and the timing and contribution of snowmelt to catchment or watershed in spring. The newly developed model includes a hydraulic exchange between ...

      Chemical and isotopic variations of snowmelt provide important clues for understanding snowmelt processes and the timing and contribution of snowmelt to catchment or watershed in spring. The newly developed model includes a hydraulic exchange between mobile and immobile water (${\omega}$), and isotopic exchanges between both mobile water and ice ($f_1$) and immobile water and ice ($f_2$). Since the new model is based on the mobile-immobile water conceptualization, which is widely used for describing chemical tracer transport in snow, it allows simultaneous calculations of chemical as well as isotopic variations in snowpack discharge. We compare the model results with a study of solute transport and isotopic evolution of snowmelt in snow, using artificial rain-on-snow experiments with conservative anion ($Br^-$). These observations are used to test the newly developed model and to better understand physical processes in a seasonal snowpack where our model simulates the chemical and isotopic variations.

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      참고문헌 (Reference)

      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

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      2026 평가예정 재인증평가 신청대상 (재인증)
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      2002-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2000-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.3 0.3 0.35
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.35 0.36 0.568 0.05
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