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以发生在广东省河源地区的地震为例,展示如何利用数字化地震数据进行波谱分析及震源参数估算,并对该区的地震破裂模式作了初步的分析,利用上述结果,建立了地震矩M0与震级ML的关系式,以便利用震级ML来估算矩震级Mw. 相似文献
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使用中国地震台网资料快速测定中强地震矩震级 总被引:1,自引:1,他引:0
利用中国地震台网数字地震资料,选取国内Ms≥5.3地震波形数据,采用长周期波形拟合方法,快速计算2008年至今86个中强震的标量地震矩MO和矩震级Mw,并将Mw与GCMT的测定结果及中国地震台网中心测定的面波震级Ms进行对比.结果表明:矩震级与GCMT测定一致,与中国地震台网中心测定的面波震级关系为Mw=0.86Ms+0.63. 相似文献
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内蒙古中西部地区中小地震矩震级研究 总被引:1,自引:1,他引:0
基于S震相"S窗"内的波形信号识别、品质因子Q(f)和22个台站场地响应,利用2009~2016年3月内蒙古中西部地区地震的波形资料,反演了182次中小地震的震源波谱参数,得到这些小震的零频幅值及其拐角频率,据此计算了这些地震的地震矩M_0、矩震级M_W和应力降Δσ。利用回归分析方法得到了近震震级与矩震级、矩震级与应力降的关系式。分析表明,近震震级与矩震级、矩震级与应力降呈线性关系。可见,将矩震级纳入地震的快报与正式目录中,可以丰富地震观测报告内容,更好地为地震应急和地震科研服务。 相似文献
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地震矩和相应的矩震级Mw一般由远场体波频谱得出。近场记录,特别是大地震的近场记录,一般不用来获得地震矩和相应的矩震级Mw,原因在于不同类型的波同时到达,无法定义地震矩与频谱之间的简单关系。我们给出了一种新方法,可以通过近场记录的位移谱测定矩震级Mw。把实际记录到的低频谱振幅与用Mw来衡量运动破裂模型算出的合成谱振幅进行了比较。在不同的断层方位上计算出了震中距在1~100km范围内的合成记录和平均值。频谱的初始部分受到加速度记录中基线变化的影响,用各台站的截止频率,通过高通滤波器可以自动识别和消除这种影响。合成谱值、震中距和只经过一次计算并存入表格中的滤波器是矩震级的函数。实际记录的谱振幅被简单地插入合成数据的表格中,这样可以快速测定Mw。用震级在3.9~7.7之间的22个浅源地震对这种方法进行了验证。我们给出,地震发震时刻后80S的信号窗对所考虑的整个震级范围提供了可信的Mw值。也可以用更短的窗长,但会低估大地震的矩震级Mw。这种方法非常适用于近实时的快速测定Mw。 相似文献
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2010年4月14日玉树地震:一个有前震的破坏性地震 总被引:5,自引:0,他引:5
2010年4月14日早晨,在青海省玉树藏族自治州玉树县发生了一次强烈地震,地震面波震级达到7.1级(Ms7.1,http://www.csndmc.ac.cn;矩震级Mw6.9, 相似文献
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2000年下半年全球共发生Mw≥6.5地震27次,其中23次为浅源地震,深源地震4次。发生Mw≥7.0地震5次,最大震级达Mw8.0。11月16日和17日,在俾斯麦群岛和所罗门群岛交界地区,发生了3次Mw≥7.8地震。2000年,全球地震活动处于1976年以来的较高水平。 相似文献
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《中国科学:地球科学(英文版)》2014,(12)
正SCIENCE CHINA Earth Sciences,an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China,and published by Science China Press and Springer,is committed to publishing high-quality,original results in both basic and applied research. 相似文献
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《中国科学:地球科学(英文版)》2014,(9)
正SCIENCE CHINA Earth Sciences,an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China,and published by Science China Press and Springer,is committed to publishing high-quality,original results in 相似文献
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In natural waters arsenic concentrations up to a few milligrams per litre were measured. The natural content of arsenic found in soils varies between 0.01 mg/kg and a few hundred milligrams per kilogram. Anthropogenic sources of arsenic in the environment are the smelting of ores, the burning of coal, and the use of arsenic compounds in many products and production processes in the past. A lot of arsenic compounds are toxic and cause acute and chronic poisoning. In aqueous environment the inorganic arsenic species arsenite (As(III)) and arsenate (As(V)) are the most abundant species. The mobility of these species is influenced by the pH value, the redox potential, and the presence of adsorbents such as oxides and hydroxides of Fe(III), Al(III), Mn(III/IV), humic substances, and clay minerals. 相似文献
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《中国科学:地球科学(英文版)》2014,(3)
正SCIENCE CHINA Earth Sciences,an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China,and published by Science China Press and Springer,is committed to publishing high-quality,original results in both basic and applied research. 相似文献
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《国际泥沙研究》2014,(4)
正Director:Shangfu Kuang,China Vice-directors:Chunhong Hu,China Duihu Ning,China Guangquan Liu,China The International Research and Training Center on Erosion and Sedimentation(IRTCES)was jointly set up by the Government of China and UNESCO on July 21,1984.It aims at the promotion of international exchange of knowledge and cooperation in the studies of erosion and 相似文献
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Richard D. Hey 《地球表面变化过程与地形》1979,4(1):59-72
Feedback mechanisms, which operate upstream through drawdown and backwater effects and downstream through sediment discharge are responsible for channel evolution. By combining these mechanisms with channel processes it euables a dynamic process-response model to be developed to simulate the initial evolution of straight gravel-bed channels. When erosion commences on a land surface, sediment entrained in the headwater reach by hydraulic action is selectively transported, deposited and reworked. This produces a damped oscillation between degradation and aggradation as the channel and valley respond to spatial and temporal variations in sediment calibre and hydraulic conditions. The initial cut and fill phases are responsible for valley incision and floodplain development while secondary and subsequent activity can produce river terraces. Eventually sediment entrainment in the headwaters declines as slopes are reduced. Subsequent channel evolution is relatively insignificant because it is dependent on local weathering activity producing material that can be transported on declining slopes. Therefore landforms produced during the initial phase of development, when local weathering was non-limiting, dominate the landscape. 相似文献