阳关断裂带变形样式及其对阿尔金断裂扩展的指示意义

阳关断裂位于青藏高原北部阿尔金断裂系向北扩展的前缘位置,对其几何学和运动学的深入研究,有助于理解青藏高原向大陆内部扩展的机制。文章通过卫星影像解译、探槽开挖、差分GPS及无人机测量等对阳关断裂开展了详细研究。结果显示：阳关断裂东段发育多条正反向断层陡坎,断层陡坎高度在0.4～8 m之间,平均约2.2 m,探槽揭示断裂倾角约60°,形成高角度逆断层,局部发育正断层;西段断裂向北西前缘扩展,形成一组弧形分布的断层陡坎,陡坎高度多在0.9～2.4 m,平均约1.9 m。同时自南向北,逆冲断层陡坎形态由多级陡坎转为单一陡坎。对探槽剖面分析,显示断裂断错晚更新世冲洪积砾石层,发育的断层倾角较缓,以低角度逆冲为主要特征,约26°,有的甚至沿地层向前推覆。结合前人的研究成果,阳关断裂可能为本区阿尔金向北扩展的北边界,与三危山断裂共同协调吸收了阿尔金断裂东段的部分应变量。     

2017年四川九寨沟MS7.0强震的余震重定位及主震震源机制反演

本文采用双差定位法对2017年8月8日至10月31日期间四川九寨沟M_S7.0主震及5200个余震序列进行相对定位,得到4036个重定位地震事件.采用中国区域地震台网观测到的宽频带垂直分向波形数据和W震相反演方法,得到了主震震源机制解.重定位结果显示,余震序列分别沿NNW和SSE两个方向扩展,展布长度约58 km,且这些余震主要集中在22 km深度之上.余震分布的另一个重要特点是具有分区特性,即在主震NNW方向约5 km处存在明显的西北和东南两区余震活动分界线;西北区的余震由深至浅具有较好连续性,而东南区却在约10 km深度处存在不连续性.余震分布的这种分区特征,说明九寨沟地震震源区的地壳结构存在强烈的不均匀性.余震分布与主震破裂特征的一致性,证实了我们定位结果的可靠性.主震的震源机制解展示出节面Ⅰ的走向/倾角/滑动角分别为246°/83.7°/-177°,而节面Ⅱ的走向/倾角/滑动角为155.7°/87.1°/-6.3°,最佳质心深度为15.5 km,矩震级M_W为6.5.根据余震分布较为垂直和主震震源机制解两节面的倾角均在80°以上,并结合野外地质调查结果,推测此次九寨沟地震为与节面Ⅱ参数相近的一次高角度的左旋走滑型事件.     

THE APPLICATION OF IMAGE-BASED MODELING IN PALEOEARTHQUAKE TRENCH STUDY

The geological structure exposed by paleoearthquake trenches is the key material to the right cognition of fault activity and paleoearthquake. However, paleoearthquake trenching inevitably destroys active tectonic geomorphic evidence and trench exposures are usually difficult to reserve. The conventional process of recording the delicate geological information, manually constructing photomosaics by image-editing software, is time-consuming and produces undesirable artificial distortions. Herein, we explored the process of constructing trench orthophotomosaics and the 3D image model using the Image-based Modeling technology and applied it to the Liutiaohe trench across the Tianqiaogou-Huangyangchuan Fault, Gansu Province. Based on the 3D image modeling and orthophotomosaic, we firstly constructed the control points and scale bars on cleaned trench walls and collected photos of all sections of the trench with a digital camera in the field, and then reconstructed the 3D model of the trench through the Agisoft PhotoScan, an efficient image-based modeling software, and finally yielded the 3D image model of the trench and othophotomasaics of the trench exposures. The results show that the automated workflow can produce seamless, sub-millimeter-level high-resolution photomosaics more quickly, with precision in the centimeter range, and the 3D image model is of great help to identify strata and geological structures in trenches with much lower capital and labor costs and low expertise levels compared with LiDAR, meanwhile, the 3D archive benefits the share and communication and even allows future reinterpreting the site using new insights.     

APPLICATION OF UAVLS TO RAPID GEOLOGICAL SURVEYS

Three-dimensional scanning with LiDAR has been widely used in geological surveys. The LiDAR with high accuracy is promoting geoscience quantification. And it will be much more convenient, efficient and useful when combining it with the Unmanned Aerial Vehicle (UAV). This study focuses on UAV-based Laser Scanning (UAVLS)geological field mapping, taking two examples to present advantages of the UAVLS in contrast with other mapping methods. For its usage in active fault mapping, we scanned the Nanpo village site on the Zhangxian segment of the West Qinling north-edge fault. It effectively removed the effects of buildings and vegetation, and uncovered the fault trace. We measured vertical offset of 1.3m on the terrace T₁ at the Zhang river. Moreover, we also scanned landslide features at the geological hazard observatory of Lanzhou University in the loess area. The scanning data can help understand how micro-topography affects activation of loess landslides. The UAVLS is time saving in the field, only spending about half an hour to scan each site. The amount of average points per meter is about 600, which can offer topography data with resolution of centimeter. The results of this study show that the UAVLS is expected to become a common, efficient and economic mapping tool.     

北方农牧交错区干旱特征变化及其对植被总初级生产力的影响

北方农牧交错区地处半湿润/半干旱生态脆弱过渡带,干旱是影响该区植被生产力的关键因素之一。探究干旱对植被总初级生产力的影响,对深刻理解气候变化下生态系统生产力变化响应特征及优化区域碳水循环具有重要意义。为了更好地了解水分限制区不同干旱特征对GPP影响,本研究以北方农牧交错区为例,基于长时间序列的标准化降水蒸散发指数(SPEI3,1900—2020年)和植被总初级生产力(GPP,1982—2018年)等数据,首先采用小波分析明确SPEI3与GPP强相关周期,在此基础上利用游程理论识别干旱特征,进而分析了北方农牧交错区干旱特征与GPP的变化趋势,最后厘定了不同干旱特征对GPP的影响。结果表明:(1) 1982—2018年北方农牧交错区SPEI3与GPP在半年周期和年周期存在显著相关关系,滞后效应随时间变化而变化;年际分析能够减弱滞后效应对SPEI3与GPP相关性的影响;(2) 1900—2020年北方农牧交错区干旱历时、干旱烈度和烈度峰值均呈现显著增加趋势,干旱烈度随着干旱历时和烈度峰值的增加而加剧,干旱特征高值区往往具有更强的增加趋势;(3) 1982—2018年北方农牧交错区GPP总体呈...     

黑龙江省设备信息运维管理系统开发及功能实现

根据黑龙江省地震监测台站发展的需要,结合黑龙江省区域维修中心工作任务和技术系统的特点,通过对全省台站监测设备信息收集和整理,运用SQL、PHP、Web、My SQL数据库等计算机程序开发出一套基于Windows平台的设备信息运维管理系统(以下简称管理系统),实现了对全省地震监测设备信息的统一管理,实用性良好。介绍了管理系统的总体设计,包括总体架构设计、网页设计、数据库设计、前台网站功能模块设计和后台网站功能模块设计,以及部分设计实现代码。     

适合中等水流的Boussinesq方程

推导了含量阶为O(ε1/2)的瞬变非均匀流的Boussinesq水波方程,讨论了该量阶水流对流场速度和压力分布的影响,采用了Crank-Nicolson格式的预估-校正有限差分法对该方程进行了数值求解.把数值结果与无水流情况的实验结果进行了对比,验证了该方程和数值计算方法的有效性,与经典的Boussinesq方程和含量阶为O(1)的瞬变非均匀流的Boussinesq水波方程的计算结果进行了比较,考察了该方程的适用范围.     

短波红外CO2反演过程约束研究及初步反演结果

短波红外通道卫星CO2遥感是近年国际研究热点。首先,开展了卫星观测对气溶胶及大气温度的敏感性研究;其次,针对基于最优化理论的非线性迭代反演方法反演过程中的不收敛问题,提出了修正的阻尼牛顿方法(MDNM),并利用模拟数据评估了MDNM方法的有效性;最后,利用GOSAT卫星数据反演CO2的垂直混合比浓度,并与地基TCCON站点数进行比对。研究结果表明:短波近红外CO2卫星遥感受气溶胶散射及温度影响明显;通过地基比对初步验证了MDNM具有良好的精度,两者的相关性R2达到了0.729。     

Typhoon frequency sequence reconstruction and characteristics analysis in the Southeast Coastal Area over China during the Ming and Qing dynasties

Natural Hazards - This study involved the systematic collation of historical data from local records, government records, etc., as well as disaster data compiled by contemporary researchers....     

滑坡危险性评价模型中的量化方式研究——以永嘉县为例

滑坡因子的分段和量化问题非常复杂,相同的滑坡因子在不同条件下对滑坡的贡献会有所不同,甚至完全相反。针对浙江省永嘉县具体滑坡点各个滑坡因子的分布情况,提出滑坡因子量化方案,并应用该方案构建滑坡危险性评价的神经网络模型。通过不同模型的对比分析,认为基于量化方案的支持向量机(Support Vector Machine,SVM)神经网络模型的实用性最强,结果最为满意,其滑坡分布的验证正确率达到84.2%。