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提出一种用三分量检波器接收到的地脉动信号的水平向与垂直向(H/V)谱进行反演来估计地下土层S波速度(VS)剖面的方法。为此,推导出了计算层状半空间中传播的面波H/V谱的理论公式,并且同时考虑了基阶及高阶振型的影响。然后提出了一种用地脉动H/V谱估计地下土层S波速度剖面的反演分析方法。假设浅部土层的VS值或厚度已知,求其余未知量。在6个不同场地上对观测的地脉动H/V谱进行了反演分析,获得了场地的浅部S波速度剖面。该结果与这些场地上已有的速度测井资料相一致,它和反演值之间的标准误差小于0.1,最大误差为0.2。 相似文献
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在缺乏其他资料的情况下,地脉动常常用做确定地震动对地表介质产生影响效应的简便手段。本文以银川市区为研究对象,根据地震勘探资料有目的的选取5条测线在银川市区进行地脉动观测,观测点共141个。用Nakamura提出的HV谱比法解析观测数据,在给定地下构造剪切波速度(VS)的基础上,由H/V比值曲线中的基本频率推测盆地深层地下构造。通过理论计算进一步验证了解析结果。结合前人地震勘探资料推测了银川市区脉动基本频率分布特征,并给出2D和3D银川市基底构造变化情况,对比分析表明,HV谱比法得到的脉动基本频率值可以反映银川盆地基底变化情况。 相似文献
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基于汶川地震远场强震动记录的厚覆盖土层对长周期地震动影响分析 总被引:3,自引:1,他引:2
利用2008年5月12日汶川8.0级地震的远场强震动记录,研究太原盆地厚覆盖土层对长周期地震动的影响,并将其结果与地震安全性评价工作中的土层反应分析结果进行比较。结果表明:厚覆盖土层对长周期地震动有很强的放大作用,覆盖层厚度越厚,峰值出现的周期越大,而相对于基岩最大放大可达9倍左右。另外,对于厚覆盖层的场地,观测结果与场地地震安全性评价计算结果在一定的长周期范围内差别相当大,相对于基岩,观测结果的放大系数至少高于场地地震安全性评价计算结果的2倍以上,最大达到近9倍。 相似文献
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本文介绍了应用电磁反馈零位检测技术改装的重力仪进行高频信息的观测。阐述重力仪高频信息频谱分布特征、数据采集、数字计算和随机信息的处理方法。利用高频信息可以很好地观测和研究地脉动,给出北京香山地震台利用重力仪高频信息观测所得的地脉动功率谱。分析了地脉动特征及其与台风过程的关系;讨论了某些大地震前所出现的地脉动异常现象。得出北京地区正常地脉动频率分布范围为0.13-0.32Hz,优势频率为0.2Hz,相应的卓越周期为5s的脉动频率异常,也可能在地脉动的正常频率处(0.2Hz左右),出现幅度很大的脉动幅度异常,后者又往往与台风引起的幅度异常相混淆。 相似文献
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针对青藏高原多年冻土区场地资料较少的情况,为满足工程和防震减灾的需要,对北麓河和二道沟二个青藏铁路沿线典型多年冻土场地进行了地脉动台阵观测,根据场地实际情况设计了地脉动台阵,进行了加速度记录观测。采用小波分析方法对数据进行了处理,滤掉信号中的长频率漂移及直流成分,对各测点加速度数据记录的水平和竖向的最大加速度与平均加速度进行了统计,表明北麓河场地更为坚硬。通过单点谱比法对场地卓越频率进行了分析,两个场地的竖向卓越频率波动的范围大致在3.0~5.5Hz,属较硬实场地。通过改进的空间自相关方法计算了空间自相关系数,提取了Rayleigh波相速度频散曲线,与正常提取结果及理论计算结果进行了对比,验证了地脉动台阵布置和Rayleigh相速度提取方法的合理性,为进一步研究提供了支撑。 相似文献
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为了进行兰州市区的场地小区划,在市区75个点上做了地面脉动观测。观测表明,地面脉动具有明显的区域性。市区不同地点的傅氏谱多少都有相似之处,多数谱峰值出现在0.3—0.45秒范围内。但是在兰州市的不同地段,谱形上也有一定的差别。根据谱形,可将市区划分为5个地区。由此可以想见,地面脉动特征取决于整个区域的综合自然条件,局部表土层的条件反居次要地位。地面脉动的最大幅值显然取决于表层较软土层,如黄土、亚粘土、亚砂土等的厚度,这些软土层的厚度越大,地面脉动的最大幅值也就越大。地面脉动观测结果可用之于场地土小区划分中去。 相似文献
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《地震工程与工程振动》2016,(6)
时域分析中采用粘滞阻尼反映小应变条件下土的阻尼特性,瑞雷阻尼则是常用的黏滞阻尼形式。本文基于有限差分方法,构建一组数值计算模型,以实际地震记录作为输入,以不同的土层条件作为分析对象,采用加速度、位移和反应谱指标评价了瑞雷阻尼形式对土层地震反应的影响,并将不同阻尼形式下的计算结果与响嘡台阵真实记录进行了对比分析。计算结果表明:阻尼形式对加速度反应和反应谱的影响显著,对位移反应影响有限,但位移幅值沿土层高度的变化规律较复杂;不同阻尼形式时反应谱短周期段的谱值差别明显,而对反应谱长周期段谱值影响有限;高频地震动激励,深软土层中不同阻尼形式的计算结果离散性大;在确定阻尼形式时要综和考虑土层特征和地震动频谱特性,只考虑土层卓越频率的阻尼形式会低估土层地震反应。对于长周期地震动输入,本文建议目标频率取土层第3阶频率,对于高频地震动,目标频率可取为反应谱峰值对应频率。 相似文献
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利用西安数字地震遥测台网记录资料,通过对波形、P波与S波振幅比等方面进行对比分析,找出陕西及邻区地震与爆破的区别。 相似文献
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西安地震台典型数字记录震相特征 总被引:1,自引:1,他引:0
按天然地震和诱发地震分类,以多震地区典型事件为例,分析并总结西安地震台数字记录震相特征,为地震台站进行震例分析和更深层次的相关研究提供参考。 相似文献
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关中地区垂直形变场及其动态演化特征 总被引:10,自引:0,他引:10
应用关中地区20余年的精密水准资料,用分段线性速率动态平差法进行统一起算基准的拟稳平差计算.得出了197l~1976、1976-1980、1980-1986和1986~1996年度的垂直形变速率图,从动态的观点研究了关中地区地壳垂直形变场的演化特征。研究结果表明:(1)地壳垂直形变场有规律的变化与区域应力-应变场的微动态活动有关,青藏亚板块和华北亚板块对关中地区的构造变形交替起主导作用,并产生了不同形变特征;(2)地壳垂直运动不是线性的。有加速、反向和停顿,长期平均垂直运动速率低于各时段的变化;(3)地壳垂直变化与断裂活动密切相关。垂直形变的逆继承性构造活动时期远小于继承性构造活动时期;(4)西安是一个特殊沉降区。由于过量开采地下水引起地面急剧下降。 相似文献
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This article investigates the soil moisture dynamics within two catchments (Stanley and Krui) in the Goulburn River in NSW during a 3‐year period (2005–2007) using the HYDRUS‐1D soil water model. Sensitivity analyses indicated that soil type, and leaf area index were the key parameters affecting model performance. The model was satisfactorily calibrated on the Stanley microcatchment sites with a single point rainfall record from this microcatchment for both surface 30 cm and full‐profile soil moisture measurements. Good correlations were obtained between observed and simulated soil water storage when calibrations for one site were applied to the other sites. We extended the predictions of soil moisture to a larger spatial scale using the calibrated soil and vegetation parameters to the sites in the Krui catchment where soil moisture measurement sites were up to 30 km distant from Stanley. Similarly good results show that it is possible to use a calibrated soil moisture model with measurements at a single site to extrapolate the soil moisture to other sites for a catchment with an area of up to 1000 km2 given similar soils and vegetation and local rainfall data. Site predictions were effectively improved by our simple data assimilation method using only a few sample data collected from the site. This article demonstrates the potential usefulness of continuous time, point‐scale soil moisture data (typical of that measured by permanently installed TDR probes) and simulations for predicting the soil wetness status over a catchment of significant size (up to 1000 km2). Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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Factors affecting soil moisture spatial variability for a humid forest hillslope 总被引:3,自引:0,他引:3 下载免费PDF全文
Soil moisture is an important variable in explaining hydrological processes at hillslope scale. The distribution of soil moisture along a hillslope is related to the spatial distribution of the soil properties, the topography, the soil depth, and the vegetation. In order to investigate the factors affecting soil moisture, various environmental data were collected from a humid forest hillslope in this study. Several factors (the wetness index; the contributing area; the local slope; the soil depth; the composition of sand, silt, and clay; the scaling parameter; the hydraulic conductivity; the tree diameter at breast height; and the total weighted basal area) were evaluated for their effect on soil moisture and its distribution over the hillslope at depths of 10, 30, and 60 cm. Both linear correlation analysis and empirical orthogonal function analysis indicated that the soil texture was a dominant factor in soil moisture distribution. The impact of soil hydraulic conductivity was important for all soil moisture ranges at a depth of 30 cm, but those at 10 and 60 cm were limited to very wet and dry conditions, respectively. The relationships of the various factors with the spatial variability of soil moisture indicated the existence of a threshold soil moisture that is related to the composition of the soil and the factors related to the distribution of water in the study area. 相似文献
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Mingyong Zhu 《Stochastic Environmental Research and Risk Assessment (SERRA)》2012,26(6):813-822
Soil erosion is one of the major threats to the conservation of soil and water resources in the Danjiangkou Reservoir region (DRR), China. In order to describe the areas with high soil erosion risk (SER) and to develop adequate erosion prevention measures, SER in the DRR was assessed by integrating the CORINE model with GIS and RS. The main factors of soil erosion including erosivitiy, soil erodibility, topography and vegetation cover were determined from daily meteorological data, field survey soil profile data and soil sample analysis, digital elevation model (DEM), and land use and land cover (LULC), respectively. Landsat 5 TM imagery was used to generate a LULC classification. The results indicate that 59.1%, 31.2%, and 2.3% of the study area were under low, moderate, and high actual erosion risks, respectively. The results also indicate the study area is in low to moderate erosion risk level on the whole. The areas with moderate to high erosion risk continuously distributed in the southwest of the study area, and sporadically distributed in the north of the study area. Low erosion risk areas mainly located in the east. Up till now, most of the semi-quantitative models have not been applied extensively. The semi-quantitative CORINE model was mostly applied in the European and Mediterranean countries, while spatial comparison of actual SER map and field investigation in this study indicates that the CORINE model can be applicable in the monsoon region of China. 相似文献
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A case study of spatial heterogeneity of soil moisture in the Loess Plateau, western China: A geostatistical approach 总被引:4,自引:1,他引:3
BI Huaxing LI Xiaoyin LIU Xin GUO Mengxia LI Jun Prof. College of Soil Water Conservation Beijing Forestry University Beijing China Key Laboratory of Soil Water Conservation Desertification Combating Ministry of Education China Researcher Ji-xian National Ecological Station of China China Graduate student 《国际泥沙研究》2009,24(1):63-73
Soil moisture distribution shows highly variation both spatially and temporally. This study assesses the spatial heterogeneity of soil moisture on a hill-slope scale in the Loess Plateau in West China by using a geostatistical approach. Soil moisture was measured by time-domain reflectometry (TDR) in 313 samples. Two kinds of sampling scales were used (2 × 2 m and 20 ×20 m) at two soil layers (0-30 cm and 30-60 cm). The general characteristics of soil moisture were analyzed by a classical statistics method, and the spatial heterogeneity of soil moisture was analyzed using a geostatistical approach. The results showed that the spherical model is the best-fit model to simulate soil moisture on the experimental hill-slope. The parameters of this model indicated that the spatial dependence of soil moisture in the selected hill-slope was moderate. Even the 2 × 2 m sampling scale was too coarse to show the detailed spatial variances of soil moisture in this area. The dependent distance increased from 27.4 m to 494.16 m as the sampling scale became coarse (from 2× 2 m to 20 ×20 m). A map of soil moisture was generated by using original soil moisture data and interpolated values determined by the Kriging method. The average soil moisture (area weighted) in the different layers of soil was calculated on the basis of this map (10.94% for the 0-30 cm soil layer, 11.88% for the 30-60 cm soil layer). This average soil moisture is lower than the corresponding average effective soil moisture, which suggests that the soil moisture is not sufficient to support vegetation in this area. 相似文献