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正位于中朝边界的长白山天池火山是一座具有潜在灾害性喷发的大型近代活动火山。长白山天池火山历史上发生了多次喷发事件,曾造成了巨大的灾难,发生在公元946年的大喷发,就规模和猛烈程度而言,属于全球近2000年以来最大的爆炸喷发之一。鉴于此,"九五"和"十五"期间,中国地震局等几家单位对长白山天池火山进行了较为系统的地质、地球物理探测研究,并进行了以地震活动、形变、地球化学变化为主的固定、流动台网监测研究工作,取 相似文献
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联合1998~2004年的五期水准测量资料以及2002~2004年的GPS观测成果,分析了腾冲火山区岩浆的活动特征。垂直形变资料显示,火山区南部发生较明显下降,这可能是由岩浆和水的流失及放气等原因引起;水平形变资料显示,以固东—腾冲断裂(F2)的西支为界,断层两盘分别向东、西两个方向运动,断层活动表现出明显的拉张特征;综合分析表明,岩浆可能沿断层从南部向北部运移,并在断层内重新聚集形成岩墙;垂直形变的多个极值区以及水平位移的不规则性表明,火山区岩浆体不很规则或有多个岩浆囊体存在;从形变量大小分析,岩浆的活动量远小于中等程度火山喷发的质量,表明火山近期喷发的危险性较小。 相似文献
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岩浆活动的不同阶段引起地表变化不同。地表形变受压力源大小、形状、深度及岩浆运移速率等影响;另外火山类型不同,地形不同,形变特征也不同。地表形变幅度范围很大,为1×10-7—1米量级。火山区形变监测可以了解火山活动状态,有助于进行喷发危险性的预测预报。形变监测从20世纪60年代的传统技术逐渐过渡到20世纪90年代发展起来的GNSS和InSAR等大地测量新技术,火山区形变时空监测能力得到提高,同时缩短了预测时间。我国火山形变监测开始较晚,现已在长白山天池、腾冲以及海南等主要火山区开展监测。传统的连续测量以地倾斜观测为主;新技术主要以流动GNSS监测为主,连续观测站少,InSAR技术研究时间密度不够;目前形变监测还不能实现很好的时空覆盖。 相似文献
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新近改进的电磁技术描绘了意大利维苏威火山的电性结构,这一方法的成功应用,显示出这种方法可作为预测火山喷发的非常有效的手段。希望能通过收集活动火山的足够数据形成合适的监视火山的信息基线,并更好地了解其结构。由于远偏置瞬变电磁法利用了现代模拟算法和其强大的计算能力,现今已发展成 相似文献
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本文对五大连池火山群14座火山喷发口的喷发活动期、喷出的火山熔岩特征,岩浆活动期序进行了初步划分与概述,并通过火山地质地貌、新构造活动、火山口周围活化迹象进行初步调查后认为:德都地震与火山尚无直接联系. 相似文献
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腾冲火山区形变分析 总被引:1,自引:0,他引:1
腾冲火山群是我国目前仍具喷发危险的火山群。本文首先对火山区的地壳运动背景进行了总结分析,然后介绍了火山区的形变监测情况,再依据1998~2004年的水准测量及2002~2004年GPS观测成果,参考重力变化及其它观测资料分析火山区岩浆的活动特征,最后得出主要结论:相对欧亚板块,腾冲火山区总体具有向西南的顺时针旋转运动;火山区的形变变化受岩浆和断层活动两方面控制;火山区西南部发生了较强烈的下沉运动,可能由于岩浆和水的流失及放气等原因引起;以固东—腾冲断裂的西支为界,水平位移在断层两侧分别向东西两个方向运动,2002~2003年运动更剧烈些,断层活动表现为明显的拉张特征。综合各种资料表明火山目前活动量较小,近期喷发的危险性不大。 相似文献
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《Advances in water resources》2005,28(7):701-710
The patterns of temporal variations of precipitation (P), streamflow (SF) and baseflow (BF) as well as their nitrate-nitrogen (nitrate) concentrations (C) and loads (L) from a long-term record (28 years) in the Raccoon River, Iowa, were analyzed using variogram and spectral analyses. The daily P is random but scaling may exist in the daily SF and BF with a possible break point in the scaling at about 18 days and 45 days, respectively. The nitrate concentrations and loads are shown to have a half-year cycle while daily P, SF, and BF have a one-year cycle. Furthermore, there may be a low-frequency cycle of 6–8 years in C. The power spectra of C and L in both SF and BF exhibit fractal 1/f scaling with two characteristic frequencies of half-year and one-year, and are fitted well with the spectrum of the gamma distribution. The nitrate input to SF and BF at the Raccoon watershed seems likely to be a white noise process superimposed on another process with a half-year and one-year cycle. 相似文献
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燕郊等测点迁移优化与地磁观测研究 总被引:1,自引:2,他引:1
为优化地磁观测条件,开展了燕郊、夏垫等测点迁移工作;按照测眯迁移原则与实施技术方案,完整地收集并整理了地质构造与地球物理等方面的基本资料;进行了野外实地勘察,磁场梯度的测量,确定了新测点,在新老测点上进行了较长时间的地磁场对比观测;应用多种方法分析研究了地磁对比观测资料,结果表明,新老测点与有关测点的地磁变化具有良好的一致性,并得到了新老测点之间的地磁数据的按点差。 相似文献
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We rederive and generalize hyperbolic moveout formulae for the common-midpoint (CMP) gather and for the zero-offset (ZO) section that can be efficiently used for macro-model-independent reflection imaging in two-dimensional media. The hyperbolic moveout formulae for the common-midpoint gather are obtained from different Taylor series expansions of a particular parametric moveout surface defined in the multicoverage data space. Such a moveout surface involves three kinematic wave-field attributes of two hypothetical waves, which have to be determined by a coherency analysis. By using hyperbolic moveout curves in the CMP gather and in the ZO section one can determine these attributes in two steps. The relationships between the local shapes of the interfaces and the attributes of the hypothetical wave-fields attributes are considered by means of geometrical optics. The determination of these attributes allows to perform a macro-model-independent ZO simulation and a subsequent inversion. 相似文献
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Assessing Groundwater Depletion and Dynamics Using GRACE and InSAR: Potential and Limitations 下载免费PDF全文
Pascal Castellazzi Richard Martel Devin L. Galloway Laurent Longuevergne Alfonso Rivera 《Ground water》2016,54(6):768-780
In the last decade, remote sensing of the temporal variation of ground level and gravity has improved our understanding of groundwater dynamics and storage. Mass changes are measured by GRACE (Gravity Recovery and Climate Experiment) satellites, whereas ground deformation is measured by processing synthetic aperture radar satellites data using the InSAR (Interferometry of Synthetic Aperture Radar) techniques. Both methods are complementary and offer different sensitivities to aquifer system processes. GRACE is sensitive to mass changes over large spatial scales (more than 100,000 km2). As such, it fails in providing groundwater storage change estimates at local or regional scales relevant to most aquifer systems, and at which most groundwater management schemes are applied. However, InSAR measures ground displacement due to aquifer response to fluid‐pressure changes. InSAR applications to groundwater depletion assessments are limited to aquifer systems susceptible to measurable deformation. Furthermore, the inversion of InSAR‐derived displacement maps into volume of depleted groundwater storage (both reversible and largely irreversible) is confounded by vertical and horizontal variability of sediment compressibility. During the last decade, both techniques have shown increasing interest in the scientific community to complement available in situ observations where they are insufficient. In this review, we present the theoretical and conceptual bases of each method, and present idealized scenarios to highlight the potential benefits and challenges of combining these techniques to remotely assess groundwater storage changes and other aspects of the dynamics of aquifer systems. 相似文献