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湖南省数字化井水位对尼泊尔M 8.1地震的同震响应特征分析 被引量:3
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作者 沈平 敬少群 《地球物理学进展》 CSCD 北大核心 2017年第5期1915-1920,共6页
通过分析湖南省数字化井水位对尼泊尔M 8.1地震的同震响应特征,我们发现,同一地震在不同观测井中引起的同震响应特征各不相同.湖南省井水位的同震响应形态以水震波为主,而且对于波动伴随阶变的同震响应类型,总是先记录到水震波然后才产... 通过分析湖南省数字化井水位对尼泊尔M 8.1地震的同震响应特征,我们发现,同一地震在不同观测井中引起的同震响应特征各不相同.湖南省井水位的同震响应形态以水震波为主,而且对于波动伴随阶变的同震响应类型,总是先记录到水震波然后才产生阶变.认为,同震响应形态的差异性以及初动响应时间的快慢可能与仪器、井况、井孔的构造环境以及水文地质条件等因素有关.湖南省水位观测井对远场大震的远场效应反映较灵敏,能反映区域应力场变化引起的含水层应力应变的变化. 展开更多
关键词 尼泊尔m 8.1地震 井水位 同震响应 机理
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Digital Terrain Modelling Using Corona and ALOS PRISM Data to Investigate the Distal Part of Imja Glacier,Khumbu Himal,Nepal 被引量:2
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作者 LAMSAL Damodar SAWAGAKI Takanobu WATANABE Teiji 《Journal of Mountain Science》 SCIE CSCD 2011年第3期390-402,共13页
This study used Corona KH-4A and Advanced Land Observing Satellite (ALOS) PRISM images to generate digital terrain models (DTMs) of the distal part of Imja Glacier,where a few supraglacial ponds (~0.07 km 2) expanded... This study used Corona KH-4A and Advanced Land Observing Satellite (ALOS) PRISM images to generate digital terrain models (DTMs) of the distal part of Imja Glacier,where a few supraglacial ponds (~0.07 km 2) expanded into the large Imja Glacier Lake (Imja Tsho,~0.91 km 2) between 1964 and 2006.DTMs and subsequently derived topographical maps with contour intervals of 1 m were created from the high-resolution images (Corona in 1964 and ALOS in 2006) in the Leica Photogrammetric Suite (LPS) platform.The DTMs and topographic maps provided excellent representation of the elevation and micro-topography of the glacier surface,such as its supra-glacial ponds/lake,surface depressions,and moraine ridges,with an error of about +/-4 m (maximum).The DTMs produced from the Corona and ALOS PRISM images are suitable for use in studies of the surface change of glaciers.The topographical maps produced from the Corona data (1964) showed that part of the dead ice in the down-glacier area was even higher than the top of the lateral moraine ridges,while the glacier surface in the up-glacier area was noticeably lower than the moraine crests.This suggests more extensive melting of glacier ice in the up-glacier area before 1964.The average lowering of the glacier surface from 1964 to 2006 was 16.9 m for the dead-ice area west of the lake and 47.4 m for the glacier surface east of the lake;between 1964 and 2002,the lake surface lowered by 82.3 m.These figures represent average lowering rates of 0.4,1.1,and 2.2 m/year for the respective areas. 展开更多
关键词 Imja Glacier Nepal Himalaya DTm Topographic map Surface lowering CORONA ALOS PRISm
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