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渤海冰漂移对海面风场、潮流场的响应 被引量:15
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作者 吴龙涛 吴辉碇 +4 位作者 李万彪 刘钦政 张蕴斐 刘煜 白珊 《海洋学报》 CAS CSCD 北大核心 2005年第5期15-21,共7页
在对海冰漂移动力学分析基础上,利用MODIS资料,采用MCC方法获取渤海大范围冰覆盖的海域冰速场,并利用NCEP风速资料和潮流资料进行回归分析,得到渤海冰漂移速度与风速和流速的关系.利用MODIS和NOAA/AVHRR资料获取的渤海冰速资料的综合分... 在对海冰漂移动力学分析基础上,利用MODIS资料,采用MCC方法获取渤海大范围冰覆盖的海域冰速场,并利用NCEP风速资料和潮流资料进行回归分析,得到渤海冰漂移速度与风速和流速的关系.利用MODIS和NOAA/AVHRR资料获取的渤海冰速资料的综合分析显示:渤海海冰运动,除受盛行风控制外,还受到复杂的海岸地形、流和冰内应力的共同作用,所得到的大范围海冰运动规律和多年历史观测资料分析结果基本一致,并清楚地显示了冰边缘带海冰运动的特征,弥补了局地、单站海冰观测的局限性. 展开更多
关键词 冰漂移 风力系数 卫星遥感 MODIS MCC 渤海
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第1讲 渤、黄海的海冰 被引量:7
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作者 刘煜 吴辉碇 《海洋预报》 2017年第3期94-101,共8页
介绍了渤、黄海海冰生消的演变过程、特点及影响因素,分析了不同的海冰类型和表面特征;对渤、黄海历史冰情、等级划分、冰期以及海冰漂移特点进行了简要的回顾。
关键词 渤黄海 类型 冰漂移
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The effect of seafloor topography in the Southern Ocean on tabular iceberg drifting and grounding 被引量:1
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作者 LI Tian LIU Yan +7 位作者 CHENG Xiao OUYANG LunXi LI XinQing LIU JiPing Mohammed SHOKR HUI FengMing ZHANG Jing WEN JiaHong 《Science China Earth Sciences》 SCIE EI CAS CSCD 2017年第4期697-706,共10页
Antarctic tabular icebergs are important active components in the ice sheet-ice shelf-ocean system.Seafloor topography is the key factor that affects the drifting and grounding of icebergs,but it has not been fully in... Antarctic tabular icebergs are important active components in the ice sheet-ice shelf-ocean system.Seafloor topography is the key factor that affects the drifting and grounding of icebergs,but it has not been fully investigated.This study analyzes the impact of seafloor topography on the drifting and grounding of Antarctic tabular icebergs using Bedmap-2 datasets and iceberg route tracking data from Brigham Young University.The results highlight the following points.(1) The quantitative distributions of iceberg grounding events and the tracking points of grounded icebergs are mainly affected by iceberg draft and reach their peak values in sea water with depths between 200 m and 300 m.The peak tracking point number and linear velocity of free-drifting icebergs are found in the Antarctic Slope Front(water depth of approximately 500 m).(2) The area of possible grounding regions of small-scale icebergs calved from ice shelf fronts accounts for 28%of the sea area at water depths less than 2000 m outside the Antarctic coastline periphery(3.62 million km2).Their spatial distribution is mainly around East Antarctica and the Antarctic Peninsula.The area of possible grounding regions of large tabular icebergs with long axes larger than 18.5 km(in water depths of less than 800 m) accounts for 74%of the sea area.(3) The iceberg drifting velocity is positively correlated with ocean depth in areas where the depth is less than 2000 m(R=0.85,P<0.01).This result confirms the effect of water depth variations induced by seafloor topography fluctuations on iceberg drifting velocity. 展开更多
关键词 Antarctica Land cover Remote sensing
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