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Entry ID: CN_NADC_2010-2013_Zhongshan_Station_To_Dome_A_Chinese_Antarctic_Zhongshan_Station_to_Dome_A_ION_CHROMATOGRAPHS_Nitrate_concentrations_in_snow
Publish Date: 2018-02-06
Author: Shi Guitao
Keywords: Dome A, Snow-Ice, nitrate, East Antarctica, Atmospheric Chemistry
Dataset: Files(1) Filesize(28.6 KB)
Summary: "Nitrate concentrations in in surface snow and snowpit on the traverse from coast (Zhongshan Station) to Dome A". Note that the citation of the data should be updated once the manuscript has been accepted. "This data set is that used in Shi et al., 2017 and should be cited as such:" "Shi G., Hastings M.G., Yu J., Ma T., Hu Z., An C., Li C., Ma H., Jiang S. and Li Y. (2017) Nitrate deposition and preservation in the snowpack along a traverse from coast to the ice sheet summit (Dome A) in East Antarctica. The Cryosphere Discuss. 2017, 1-27. doi:10.5194/tc-2017-227" In total, 20 snowpits, SP1-P20, and 120 surface snow samples were analyzed
Entry ID: CN_NADC_02_03_and_05_06_Grove_Mountains_Antarctica_SensorName_Description
Publish Date: 2008-04-05
Author: Zhang Jie
Keywords: Antarctic Meteorite,
Dataset: Files(1) Filesize(1016.0 KB)
Summary: CHINARE found four pieces of different types meteorites in the Grove Mountains Area which is more than 400 km far from the Zhongshan Station for the first time in 1998. It was confirmed that the Grove Mountains area is a new area rich in meteorites. In 1999-2006 total three science traverse teams were dispatched and 9,830 pieces of meteorites were found in the middle range of ridge, Harding Mountain, and Zakharoff Mountain in the Grove Mountains area, and this amount enables China to be in top rank of those countries owing meteorites in the world. At present our country owns 9,834 pieces of the Antarctic meteorites, mainly stony meteorite, stony meteoric iron, and meteoric iron, among which are two Mars meteorites, one Kitchen God Star meteorite, and other rare and unique meteorites. The meteorite samples collected from the Antarctica by China are state owned and curated in PRIC,who builds the Antarctic meteorite depository. To prevent weathering resulting from the thaw of a little of snow and ice on the surface of the meteorite, all of the meteorite samples are kept frozen. At present, several domestic relevant expedition organizations are cooperating in the classification of the samples. Till the end of 2007, there are 1400 meteorite samples which have been digitaled in the database.
Entry ID: CN_NADC_2016_Polar_regions_Yellow_River_Station_Aerosol_Sampler_Description
Publish Date: 2017-07-11
Author: Wang Jianjun
Keywords: huanghe Station, Aerosol, Heavy Metal
Dataset: Files(1) Filesize(60.0 KB)
Summary: The bulk, high-volume aerosol were collected on 20×25 cm Whatman41 filters (Whatman International Ltd,England) by EP-5000 high volume aerosol sampler. Each sample was stored at 4℃ and back to indoor analysis from July to September in 2016.One sixteenth of the filters were extracted with 4.5 ml of deionized water (Millipore Alpha-Q), using 0.5 ml of methanol as a wetting agent. The resulting solution was mixed by rotating the test tubes for about 10 min. The anions were analyzed using a Dionex DX-500 ion chromatography (IC) with an AG 11 guard column and an AS 11 analytical column. One sixteenth of the filters were dissolved into 3 ml concentrated nitric acid with microwave-assisted digestion system. The solvents were transferred to 50 PET bottles, and fixed to 30ml, analyzed for the heavy metals in ICP-MS 7500ce inductivity coupled plasma mass spectrometer.
Entry ID: CN_NADC_2009_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Keywords: Arctic, huanghe Station, Austre Lovénbreen Glacier, Pedersenbreen Glacier, Glacier Mass Balance
Dataset: Files(1) Filesize(100.0 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2009, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.
Entry ID: CN_NADC_2008_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Keywords: Arctic, huanghe Station, Austre Lovénbreen Glacier, Pedersenbreen Glacier, Glacier Mass Balance
Dataset: Files(1) Filesize(19.0 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2008, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.
Entry ID: CN_NADC_2016_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Author: Jin Shuang, Ma Hongmei, ,
Keywords: Austre Lovénbreen Glacier, Pedersenbreen Glacier, Arctic, huanghe Station, Glacier Mass Balance
Dataset: Files(1) Filesize(90.0 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2016, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.
Entry ID: CN_NADC_2014_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Keywords: Arctic, huanghe Station, Austre Lovénbreen Glacier, Pedersenbreen Glacier, Glacier Mass Balance
Dataset: Files(1) Filesize(78.0 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2014, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.
Entry ID: CN_NADC_2013_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Keywords: Arctic, huanghe Station, Austre Lovénbreen Glacier, Pedersenbreen Glacier, Glacier Mass Balance
Dataset: Files(1) Filesize(81.0 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2013, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.
Entry ID: CN_NADC_2011_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Keywords: Arctic, huanghe Station, Austre Lovénbreen Glacier, Pedersenbreen Glacier, Glacier Mass Balance
Dataset: Files(1) Filesize(86.0 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2011, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.
Entry ID: CN_NADC_2012_Arctic_Chinese_Arctic_Yellow_River_Staion_Sensor_Description
Publish Date: 2017-07-24
Keywords: Arctic, huanghe Station, Austre Lovénbreen Glacier, Pedersenbreen Glacier, Glacier Mass Balance
Dataset: Files(1) Filesize(26.1 KB)
Summary: The 22 monitoring benchmarks are embedded in the A glacier and P glacier near the Chinese Arctic Yellow River station in 2012, which is used to carry out the observation of ice material balance.The equipment used is the snow ruler and the density scale.The ice material balance takes the direct measurement method, which is to set the fixed pole on the surface of the glacier, and observe the position of the glacier surface at the peak of the pole.The slope of the bar is measured by the Angle of the standard and the horizontal plane, and then the vertical distance between the peak of the benchmark and the surface of the glacier is calculated.Through this method, the net material balance of the entire glacier is obtained by the net material balance of the entire glacier.The measuring accuracy reached the centimeter level.