Snowdrift effect on snow deposition:Insights from a comparison of a snow pit profile and meteorological observations in east Antarctica

A high-frequency and precise ultrasonic sounder was used to monitor precipitated/deposited and drift snow events over a 3-year period(17 January 2005 to 4 January 2008) at the Eagle automatic weather station site,inland Antarctica.Ion species and oxygen isotope ratios were also generated from a snow...

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Published inScience China. Earth sciences Vol. 60; no. 4; pp. 672 - 685
Main Authors Ding, MingHu, Zhang, Tong, Xiao, CunDe, Li, ChuanJin, Jin, Bo, Bian, LinGen, Wang, ShuJie, Zhang, DongQi, Qin, DaHe
Format Journal Article
LanguageEnglish
Published Beijing Science China Press 01.04.2017
Springer Nature B.V
Subjects
Earth and Environmental Science
Earth Sciences
Ice
Marine
Meteorology
Oxygen isotopes
Paleoclimate science
Research Paper
Seasonal variations
Snow
Snow accumulation
Snowdrifts
内陆地区
剖面
南极洲
声波测深仪
气象观测
氧同位素比率
沉积
雪坑
Antarctica
Ice core dating
Ultrasonic sounder
Air-snow interaction
Post depositional process
Snowdrift process
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Summary:A high-frequency and precise ultrasonic sounder was used to monitor precipitated/deposited and drift snow events over a 3-year period(17 January 2005 to 4 January 2008) at the Eagle automatic weather station site,inland Antarctica.Ion species and oxygen isotope ratios were also generated from a snow pit below the sensor.These accumulation and snowdrift events were used to examine the synchronism with seasonal variations of δ~(18)O and ion species,providing an opportunity to assess the snowdrift effect in typical Antarctic inland conditions.There were up to 1-year differences for this 3-year-long snow pit between the traditional dating method and ultrasonic records.This difference implies that in areas with low accumulation or high wind,the snowdrift effect can induce abnormal disturbances on snow deposition.The snowdrift effect should be seriously taken into account for high-resolution dating of ice cores and estimation of surface mass balance,especially when the morphology of most Antarctic inland areas is similar to that of the Eagle site.
Bibliography:11-5843/P
Urban Evapotranspiration SEBS Remote sensing Anthropogenic heat
A high-frequency and precise ultrasonic sounder was used to monitor precipitated/deposited and drift snow events over a 3-year period(17 January 2005 to 4 January 2008) at the Eagle automatic weather station site,inland Antarctica.Ion species and oxygen isotope ratios were also generated from a snow pit below the sensor.These accumulation and snowdrift events were used to examine the synchronism with seasonal variations of δ~(18)O and ion species,providing an opportunity to assess the snowdrift effect in typical Antarctic inland conditions.There were up to 1-year differences for this 3-year-long snow pit between the traditional dating method and ultrasonic records.This difference implies that in areas with low accumulation or high wind,the snowdrift effect can induce abnormal disturbances on snow deposition.The snowdrift effect should be seriously taken into account for high-resolution dating of ice cores and estimation of surface mass balance,especially when the morphology of most Antarctic inland areas is similar to that of the Eagle site.
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ISSN:1674-7313
1869-1897
DOI:10.1007/s11430-016-0008-4