| 基于中国北极考察布放浮标观测和数值模拟的海冰和积雪厚度变化分析 |
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| 引用本文: | 田忠翔,程斌,赵杰臣,VIHMATimo,张文良,李志军,张占海.基于中国北极考察布放浮标观测和数值模拟的海冰和积雪厚度变化分析[J].海洋学报(英文版),2017,36(8):66-75. |
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| 作者姓名: | 田忠翔 程斌 赵杰臣 VIHMATimo 张文良 李志军 张占海 |
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| 作者单位: | 中国海洋大学, 青岛 266100, 中国;国家海洋环境预报中心, 北京 100081, 中国,芬兰气象研究所, 赫尔辛基 FI 00931, 芬兰;大连理工大学, 大连 116024, 中国,国家海洋环境预报中心, 北京 100081, 中国,芬兰气象研究所, 赫尔辛基 FI 00931, 芬兰,国家海洋技术中心, 天津 300112, 中国,大连理工大学, 大连 116024, 中国,国家海洋局极地重点实验室, 中国极地研究中心, 上海, 200136, 中国 |
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| 基金项目: | The National Natural Science Foundation of China under contract Nos 41428603, 41376188, 41376005 and 41506221; the Academy of Finland under contract No. 283101; the Chinese Arctic and Antarctic Administration Project under contract No. 201614; the Chinese Polar Environment Comprehensive Investigation and Assessment Programs under contract No. CHINARE-03-01. |
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| 摘 要: | Sea ice and the snow pack on top of it were investigated using Chinese National Arctic Research Expedition(CHINARE) buoy data.Two polar hydrometeorological drifters,known as Zeno? ice stations,were deployed during CHINARE 2003.A new type of high-resolution Snow and Ice Mass Balance Arrays,known as SIMBA buoys,were deployed during CHINARE 2014.Data from those buoys were applied to investigate the thickness of sea ice and snow in the CHINARE domain.A simple approach was applied to estimate the average snow thickness on the basis of Zeno~ temperature data.Snow and ice thicknesses were also derived from vertical temperature profile data based on the SIMBA buoys.A one-dimensional snow and ice thermodynamic model(HIGHTSI) was applied to calculate the snow and ice thickness along the buoy drift trajectories.The model forcing was based on forecasts and analyses of the European Centre for Medium-Range Weather Forecasts(ECMWF).The Zeno~ buoys drifted in a confined area during 2003–2004.The snow thickness modelled applying HIGHTSI was consistent with results based on Zeno~ buoy data.The SIMBA buoys drifted from 81.1°N,157.4°W to 73.5°N,134.9°W in 15 months during2014–2015.The total ice thickness increased from an initial August 2014 value of 1.97 m to a maximum value of2.45 m before the onset of snow melt in May 2015;the last observation was approximately 1 m in late November2015.The ice thickness based on HIGHTSI agreed with SIMBA measurements,in particular when the seasonal variation of oceanic heat flux was taken into account,but the modelled snow thickness differed from the observed one.Sea ice thickness derived from SIMBA data was reasonably good in cold conditions,but challenges remain in both snow and ice thickness in summer.
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| 关 键 词: | 温度 积雪 海冰 厚度 海冰质量平衡浮标 北极 |
| 收稿时间: | 2016/3/2 0:00:00 |
Observed and modelled snow and ice thickness in the Arctic Ocean with CHINARE buoy data |
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| TIAN Zhongxiang,CHENG Bin,ZHAO Jiechen,VIHMA Timo,ZHANG Wenliang,LI Zhijun and ZHANG Zhanhai.Observed and modelled snow and ice thickness in the Arctic Ocean with CHINARE buoy data[J].Acta Oceanologica Sinica,2017,36(8):66-75. |
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| Authors: | TIAN Zhongxiang CHENG Bin ZHAO Jiechen VIHMA Timo ZHANG Wenliang LI Zhijun and ZHANG Zhanhai |
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| Institution: | Ocean University of China(OUC), Qingdao 266100, China;National Marine Environmental Forecasting Centre(NMEFC), Beijing 100081, China,Finnish Meteorological Institute(FMI), Helsinki FI 00931, Finland;Dalian University of Technology(DUT), Dalian 116024, China,National Marine Environmental Forecasting Centre(NMEFC), Beijing 100081, China,Finnish Meteorological Institute(FMI), Helsinki FI 00931, Finland,National Ocean Technology Center(NOTC), Tianjin 300112, China,Dalian University of Technology(DUT), Dalian 116024, China and Key Laboratory for Polar Science of the State Oceanic Administration, Polar Research Institute of China, Shanghai 200136, China |
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| Abstract: | Sea ice and the snow pack on top of it were investigated using Chinese National Arctic Research Expedition (CHINARE) buoy data. Two polar hydrometeorological drifters, known as Zeno® ice stations, were deployed during CHINARE 2003. A new type of high-resolution Snow and Ice Mass Balance Arrays, known as SIMBA buoys, were deployed during CHINARE 2014. Data from those buoys were applied to investigate the thickness of sea ice and snow in the CHINARE domain. A simple approach was applied to estimate the average snow thickness on the basis of Zeno® temperature data. Snow and ice thicknesses were also derived from vertical temperature profile data based on the SIMBA buoys. A one-dimensional snow and ice thermodynamic model (HIGHTSI) was applied to calculate the snow and ice thickness along the buoy drift trajectories. The model forcing was based on forecasts and analyses of the European Centre for Medium-Range Weather Forecasts (ECMWF). The Zeno® buoys drifted in a confined area during 2003-2004. The snow thickness modelled applying HIGHTSI was consistent with results based on Zeno® buoy data. The SIMBA buoys drifted from 81.1°N, 157.4°W to 73.5°N, 134.9°W in 15 months during 2014-2015. The total ice thickness increased from an initial August 2014 value of 1.97 m to a maximum value of 2.45 m before the onset of snow melt in May 2015; the last observation was approximately 1 m in late November 2015. The ice thickness based on HIGHTSI agreed with SIMBA measurements, in particular when the seasonal variation of oceanic heat flux was taken into account, but the modelled snow thickness differed from the observed one. Sea ice thickness derived from SIMBA data was reasonably good in cold conditions, but challenges remain in both snow and ice thickness in summer. |
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| Keywords: | temperature snow sea ice thickness ice mass balance buoy Arctic Ocean |
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