上海市防震减灾应急决策信息系统-GPS的应用

为了适应上海经济建设高速发展和超大型城市防震减灾工作的需要,建立城市防震减灾应急决策信息系统已成为必然．本文将地理信息系统（GIS）技术应用于上海市防震减灾应急决策信息系统（宝山试点区）,介绍了此系统各功能模块的结构和作用．此系统由７个功能模块组成,即地震地质基本信息、地震灾害快速评估子系统、地震应急决策信息子系统、信息查询、系统维护管理、帮助和退出等．其核心部分是地震灾害快速评估子系统和地震应急决策信息子系统．本文还介绍了彩红外航片遥感技术在上海市防震减灾应急决策信息系统中的应用．     

上海数字强震观测网

上海市数字强震观测网是我国第1个具有一定规模的数字强震观测网，是上海市“九五”期间建设完成的，它由3部分组成；地面观测网，结构观测网和深井强震观测系统，每一部分都有不同的功能和目的，本文详细介绍该强震网的整个概况。功能及取得的部分观测成果。     

长江口海域新生代地层与断裂活动性初探

长江口海域通过浅层人工地震勘察查明，新生代地层可分为5个地震层。分别为第四系、上新统、中新统上段、中新统下段及始新统。第三纪地层自东北向西南依次超覆、减薄尖灭，上部被第四纪地层不整合覆盖。沉积基底主要由晚侏罗世火山岩系及燕山晚期酸性小岩体构成，未发现早第三纪及晚白垩世断陷盆地。断裂构造很发育，按展布方向大体可归为北东、北西及近东西向3组，皆为正断层。前两者数量多、延伸长、断距大，与同区的航磁异常构架吻合。北东向断裂分段明显，西南段为第四纪断裂，中段为晚第三纪断裂，东北段为早第三纪断裂；而北西向断裂分段不很清晰。两者的垂直位移速率平均在0．015mm/a。本文对该海域有关的几个地质问题进行了讨论。     

Dynamical evolution properties of debris flows controlled by different mesh-sized flexible net barriers

Because the flexible net barrier is a gradually developed open-type debris-flow counter-measure, there are still uncertainties in its design criterion. By using several small-scale experimental flume model tests, the dynamical evolution properties of debris flows controlled by large and small mesh-sized (equal to D₉₀ and D₅₀, respectively) flexible net barriers are studied, including the debris flow behaviors, segregation, and permeability of sediments, as well as the energy absorption rates and potential overtopping occurring when debris flows impact the small mesh-sized one. Experimental results reveal that (a) two sediment deposition patterns are observed depending on variations in debris flow textures and mesh sizes; (b) the aggregation against flexible net barriers is dominated by flow dynamics; (c) the segregation and permeable functions of the barrier are determined by the mesh size, concentration, and flow dynamics; and (d) the smaller mesh-sized flexible net barrier tends to be more efficient in restraining more turbulent debris flows and can absorb greater rate of kinematic energy, and finally, the great kinematic energy dissipation that occurs when secondary debris flows interact with the post-deposits in front of the small mesh-sized flexible net barrier is believed to cause the failure of overtopping phenomenon. The mesh size is concluded to be the decisive parameter that should be associated with debris flow textures to design the control functions of flexible net barriers.     

发光细菌在渔业水域污染物急性毒性快速检测中的应用

以明亮发光杆菌为指示生物,对渔业水域中污染物的急性毒性进行了检测,同时研究了PH值、温度对试验结果的影响。研究表明,发光细菌毒性试验是一种快速、简便的毒性测试方法,在温度20～30℃,pH6.0～9.0条件下所进行的测试,其结果与鱼类毒性试验可以互相替代。     

基于智能物联网技术的天津城市积水监测预警系统

通过智能物联网技术实时获取积水监测实况数据,利用天津市气象精细化格点预报产品和城市自动雨量观测站实况数据,以机器学习、神经网络模型和天津市城市内涝风险等级划分原理为基础,研究基于用户实时位置的城市内涝预报预警技术,研发天津市城市自动化积水监测预警系统。结果表明,该系统具备一定的城市内涝风险监测预警预报能力,并在2018—2020年多次重大天气过程中应用,积水深度预报结果与监测结果基本一致,应用数据表明验证结果良好,系统可以为政府防灾减灾决策、指挥调度提供精准、及时的气象数据支撑。     

滨里海盆地早二叠世孔谷期盐构造特征及其形成机制

滨里海盆地为自寒武系以来多期沉降的大型叠合含盐盆地,也是世界上油气资源最丰富的大型沉积盆地之一。下二叠统孔谷阶含盐层系在全盆皆有分布,岩盐层具有厚度大、分布广、后期变形构造样式多等特征,但厚层岩盐形成机制尚有争议,盐构造变形类型、空间组合分布规律、变形主控因素等尚不明确。为了研究盆地巨厚盐构造的形成机制及分布规律,在深入了解区域地质背景基础上,利用二维地震剖面资料,采用平衡剖面恢复方法,从全盆地的角度分析盆地演化过程与盐构造变形样式及分布规律,并探讨了盆地盐构造形成演化过程及触发机制。结果表明,盐岩变形程度由盆地中央向盆地边缘减小,由盆缘盐滚、盐背斜构造向盆地中心盐墙构造变化,呈现分带特征。盐岩层的变形对盐下地层影响较小,地层连续性较好;对盐上地层穿插切割较强,导致盐上地层连续性差,形变剧烈。先存斜坡和盆缘的挤压作用是盐岩层最初开始形变的因素,而上覆地层的差异负载作用是盐岩层发生构造变形的主导因素。滨里海盆地连续且巨厚的致密盐岩层是一个天然盖层,阻止了油气向上运移,盐下地层应是未来油气勘探的重点目标,同时,局部岩盐变形消失后使上下地层连接,利于油气向上运移成藏,形成盐上油气勘探目标区。     

微波爆发中具有双峰结构的准周期振荡的初步分析

本文分析了1989年3月9日,11日,13日与AR5395产生的耀斑成协的,叠加在2cm微波爆发上的具有双峰结构的准周期振荡.利用磁流环结合的非线性不稳定性机制,对等离子体和磁场相互作用的过程进行了定性的分析,并计算了几个有关的参数.最后进行了简单的讨论.     

Analysis of mass concentration of atmospheric particulate matter in a sandstorm course and its affecting factors in the Taklimakan Desert

During the course of a major sandstorm from April 17 to April 23, 2008 in the Taklimakan Desert, data pertaining to the mass concentrations of different-sized atmospheric particulate matter were observed continuously with Grimm 1.108, Thermo RP 1400a, TSP, and CAWS-600 instruments. The results showed that: (1) during the entire sandstorm process there were some differences between the daily mean particle concentration peaks and the hourly mean particle concentration peaks because the actual sandstorm lasted for only about 4 hr, whereas more particles were accumulated in the floating dust days before and after the actual sandstorm; (2) the intensity of the sandstorm was enhanced with the increase of wind speed, and this was related to the peak mass concentrations of atmospheric particulate matter; the wind speed directly affected the concentration of atmospheric particulate matter: the higher the wind speed, the higher the mass concentration (>0.23 μm was 39,496.5 μg/m³, and >20.0 μm was 5,390.7 μg/m³); (3) the concentration changes of PM₁₀ and TSP were also related to the course and intensity of the sandstorm; and (4) the mass concentration of atmospheric particulate matter had the following sequence during the dust weather: clear day < floating dust < floating and blowing dust < sandstorm. Temperature, relative humidity, and barometric pressure are important factors affecting the strength of storms, which could also indirectly affect the concentration change of atmospheric particulate matter.     

Machine-Learning-Aided Determination of Post-blast Ore Boundary for Controlling Ore Loss and Dilution

Natural Resources Research - In the process of open-pit bench blasting for many mines, rock fragments move in the direction of loose space after fragmentation under explosive energy, leading to ore...