| 黑河流域上游寒区水文遥感-地面同步观测试验 |
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| 引用本文: | 王建,车涛,张立新,晋锐,王维真,李新,梁继,郝小华,李弘毅,吴月茹,胡泽勇.黑河流域上游寒区水文遥感-地面同步观测试验[J].冰川冻土,2009,31(2):189-197. |
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| 作者姓名: | 王建 车涛 张立新 晋锐 王维真 李新 梁继 郝小华 李弘毅 吴月茹 胡泽勇 |
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| 作者单位: | 中国科学院,寒区旱区环境与工程研究所,甘肃,兰州,730000;北京师范大学,地理学与遥感科学学院,北京,100875 |
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| 基金项目: | 中国科学院两部行动计划(二期)项目,国家重点基础研究发展规划(973计划),国家自然科学基金 |
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| 摘 要: | 介绍了黑河流域上游寒区水文遥感-地而同步观测试验,论述了试验目标与研究内容、试验区的选择设计以及寒区水文长期观测试验.上游试验以理解寒区水文过程、提高寒区定量遥感水平为主旨,以积雪和冻土为主要研究对象,开展了微波辐射计、高光谱成像仪航空遥感和地面同步观测,并选择典型小流域进行长期寒区水文过程观测与研究.试验集中在冰沟积雪小流域、阿柔草场和扁都口裸露耕地3个不蚓地表覆盖区,以积雪和冻土变量与参数的测量为主.同步试验在流域尺度、重点试验区、加密观测区和观测小区4个尺度上展开,分别布置了加密的地面同步观测、通量和气象水文观测、降雨、径流及其它水文要素观测网络;航空飞行传感器分别采用微波辐射计、高光谱成像仪、热红外成像仪和多光谱CCD相机,收集获取了试验区丰富的可见光/近红外、热红外、主被动微波等卫星数据.通过试验,初步构建了上游寒区航空-卫星-地面综合数据集,可以应用于改进和验证寒区陆面/水文过程模型.
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| 关 键 词: | 遥感 航空遥感试验 寒区水文 积雪 冻土 初步成果 |
The Cold Regions Hydrological Remote Sensing and Ground-Based Synchronous Observation Experiment in the Upper Reaches of Heihe River |
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| WANG Jian,CHE Tao,ZHANG Li-xin,JIN Rui,WANG Wei-zhen,LI Xin,LIANG Ji,Hao Xiao-hua,LI Hong-yi,WU Yue-ru,HU Ze-yong.The Cold Regions Hydrological Remote Sensing and Ground-Based Synchronous Observation Experiment in the Upper Reaches of Heihe River[J].Journal of Glaciology and Geocryology,2009,31(2):189-197. |
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| Authors: | WANG Jian CHE Tao ZHANG Li-xin JIN Rui WANG Wei-zhen LI Xin LIANG Ji Hao Xiao-hua LI Hong-yi WU Yue-ru HU Ze-yong |
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| Institution: | 1.Cold and Arid Regions Environmental and Engineering Research Institute;Chinese Academy of Sciences;Lanzhou Gansu 730000;China;2.Research Center for Remote Sensing and GIS;School of Geographyand Remote Sensing Science;Beijing Normal University;Beijing 100875;China |
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| Abstract: | In this paper,the cold regions hydrological remote sensing and ground-based Synchronous observation experiment in the upper reaches of Heihe River is introduced,and the items and aim of the experiment,the allocation of research area and long-term cold regions hydrological observation are stated.As an important component of the experiment,the work in the upper reaches is aimed to understand the hydrological processes and enhance the level of quantitative remote sensing in cold regions.Based on airborne remot... |
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| Keywords: | remote sensing airborne remote sensing experiment cold regions hydrology snow cover frozen soil preliminary results |
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