A numerical study of isotopic evolution of a seasonal snowpack and its meltwater by melting rates

Understanding an isotopic evolution of a snowpack and its meltwater is crucial for both past and current climate and hydrological studies because the snowmelt is a substantial component of groundwater and surface runoff in temperate regions. To better understand the isotopic evolution of a snowpack,...

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Published in	Geosciences journal (Seoul, Korea) Vol. 18; no. 4; pp. 503 - 510
Main Author	Lee, Jeonghoon
Format	Journal Article
Language	English
Published	Heidelberg The Geological Society of Korea 01.12.2014 Springer Nature B.V 한국지질과학협의회
Subjects	Air temperature Earth and Environmental Science Earth Sciences Flow velocity Groundwater runoff Hydrology Isotopes Melting Meltwater Paleoclimate Snow Snowmelt Snowpack Surface runoff Temperature 지질학 stable isotopes snowpack snowmelt melting rate
Online Access	Get full text
ISSN	1226-4806 1598-7477
DOI	10.1007/s12303-014-0019-5

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Abstract	Understanding an isotopic evolution of a snowpack and its meltwater is crucial for both past and current climate and hydrological studies because the snowmelt is a substantial component of groundwater and surface runoff in temperate regions. To better understand the isotopic evolution of a snowpack, this study investigated the stable isotopic compositions of a snowpack and its melt using a physically-based one-dimensional model with different melting rates, which are dependent upon air temperature, amount of short-wave radiation that snow absorbed and aspect differences (north facing vs. south facing). The low melting rate produces a more curved and relatively larger isotopic differences between the earlier and later meltwater. On the other hand, the high melting rate yields a less curved isotopic trend and a smaller isotopic range. Low melting rate tends to make the snowpack isotopically heavier in both homogeneous and heterogeneous snowpack. Changes in melting rate at the surface were accompanied by the changes of both percolation velocity of liquid water and contact time between liquid water and snow (or ice). Therefore, the differences between isotopic values of the snowpack and meltwater decreases as the melting rate increases. Dependence of isotopic evolution of a snowpack and its meltwater on melting rate potentially important for studying snowmelt hydrology and ice cores for paleoclimate.
AbstractList	Understanding an isotopic evolution of a snowpackand its meltwater is crucial for both past and current climate andhydrological studies because the snowmelt is a substantial componentof groundwater and surface runoff in temperate regions. Tobetter understand the isotopic evolution of a snowpack, this studyinvestigated the stable isotopic compositions of a snowpack and itsmelt using a physically-based one-dimensional model with differentmelting rates, which are dependent upon air temperature, amountof short-wave radiation that snow absorbed and aspect differences(north facing vs. south facing). The low melting rate produces amore curved and relatively larger isotopic differences between theearlier and later meltwater. On the other hand, the high meltingrate yields a less curved isotopic trend and a smaller isotopic range. Low melting rate tends to make the snowpack isotopically heavierin both homogeneous and heterogeneous snowpack. Changes inmelting rate at the surface were accompanied by the changes ofboth percolation velocity of liquid water and contact time betweenliquid water and snow (or ice). Therefore, the differences betweenisotopic values of the snowpack and meltwater decreases as themelting rate increases. Dependence of isotopic evolution of a snowpackand its meltwater on melting rate potentially important forstudying snowmelt hydrology and ice cores for paleoclimate. KCI Citation Count: 4 Understanding an isotopic evolution of a snowpack and its meltwater is crucial for both past and current climate and hydrological studies because the snowmelt is a substantial component of groundwater and surface runoff in temperate regions. To better understand the isotopic evolution of a snowpack, this study investigated the stable isotopic compositions of a snowpack and its melt using a physically-based one-dimensional model with different melting rates, which are dependent upon air temperature, amount of short-wave radiation that snow absorbed and aspect differences (north facing vs. south facing). The low melting rate produces a more curved and relatively larger isotopic differences between the earlier and later meltwater. On the other hand, the high melting rate yields a less curved isotopic trend and a smaller isotopic range. Low melting rate tends to make the snowpack isotopically heavier in both homogeneous and heterogeneous snowpack. Changes in melting rate at the surface were accompanied by the changes of both percolation velocity of liquid water and contact time between liquid water and snow (or ice). Therefore, the differences between isotopic values of the snowpack and meltwater decreases as the melting rate increases. Dependence of isotopic evolution of a snowpack and its meltwater on melting rate potentially important for studying snowmelt hydrology and ice cores for paleoclimate. Understanding an isotopic evolution of a snowpack and its meltwater is crucial for both past and current climate and hydrological studies because the snowmelt is a substantial component of groundwater and surface runoff in temperate regions. To better understand the isotopic evolution of a snowpack, this study investigated the stable isotopic compositions of a snowpack and its melt using a physically-based one-dimensional model with different melting rates, which are dependent upon air temperature, amount of short-wave radiation that snow absorbed and aspect differences (north facing vs. south facing). The low melting rate produces a more curved and relatively larger isotopic differences between the earlier and later meltwater. On the other hand, the high melting rate yields a less curved isotopic trend and a smaller isotopic range. Low melting rate tends to make the snowpack isotopically heavier in both homogeneous and heterogeneous snowpack. Changes in melting rate at the surface were accompanied by the changes of both percolation velocity of liquid water and contact time between liquid water and snow (or ice). Therefore, the differences between isotopic values of the snowpack and meltwater decreases as the melting rate increases. Dependence of isotopic evolution of a snowpack and its meltwater on melting rate potentially important for studying snowmelt hydrology and ice cores for paleoclimate.[PUBLICATION ABSTRACT]
Author	Lee, Jeonghoon
Author_xml	– sequence: 1 givenname: Jeonghoon surname: Lee fullname: Lee, Jeonghoon email: jeonghoon.d.lee@gmail.com organization: Department of Science Education, Ewha Womans University
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CitedBy_id	crossref_primary_10_14770_jgsk_2020_56_1_101 crossref_primary_10_1016_j_jhydrol_2023_129779 crossref_primary_10_1017_jog_2019_75 crossref_primary_10_1002_wat2_1311 crossref_primary_10_3389_feart_2021_786356 crossref_primary_10_1016_j_advwatres_2021_103995 crossref_primary_10_1016_j_coldregions_2020_102997 crossref_primary_10_4217_OPR_2015_37_4_327 crossref_primary_10_1002_hyp_14029 crossref_primary_10_14770_jgsk_2017_53_6_773 crossref_primary_10_1016_j_quaint_2019_03_022 crossref_primary_10_4217_OPR_2015_37_2_141 crossref_primary_10_1016_j_catena_2023_107543
Cites_doi	10.3189/2013AoG62A232 10.1016/j.jhydrol.2008.05.004 10.1029/2001WR000814 10.3189/172756503781830700 10.1111/j.1600-0889.1989.tb00321.x 10.1016/j.chemgeo.2008.11.023 10.1029/2000WR900341 10.1029/2009WR008306 10.1016/j.chemgeo.2009.11.011 10.1029/2008JD010209 10.1029/91WR00506 10.1029/94WR00152 10.1002/hyp.8210 10.1002/hyp.6662 10.7857/JSGE.2011.16.5.082 10.1016/S0022-1694(01)00596-0 10.1007/s12303-013-0003-5 10.1029/2001WR000815 10.1002/hyp.6977 10.1021/j100856a060 10.1017/S0022143000022346 10.2166/nh.1981.0025
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Snippet	Understanding an isotopic evolution of a snowpack and its meltwater is crucial for both past and current climate and hydrological studies because the snowmelt... Understanding an isotopic evolution of a snowpackand its meltwater is crucial for both past and current climate andhydrological studies because the snowmelt is...
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StartPage	503
SubjectTerms	Air temperature Earth and Environmental Science Earth Sciences Flow velocity Groundwater runoff Hydrology Isotopes Melting Meltwater Paleoclimate Snow Snowmelt Snowpack Surface runoff Temperature 지질학
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Title	A numerical study of isotopic evolution of a seasonal snowpack and its meltwater by melting rates
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ispartofPNX	Geosciences Journal, 2014, 18(4), , pp.503-510
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