Analysis of social vulnerability of residential community to hazards in Tianjin,China

Flood management consists many aspects such as hazard assessment, vulnerability assessment, exposure assessment, risk assessment, early warning system, damage assessment as well as risk mitigation planning. Conventional flood management are depending on the ground based monitoring of rainfall and river discharge. Many parts of the world are not covered by these sensor networks in one hand and these ground based systems are costly. Most of the tropical countries have high flood risk and low financial and institutional capacity to afford ground based system. While conventional flood management is time and cost intensive, spaceborne remote sensing provides timely and low-cost data in comparison to field observation, and is the obvious choice for most developing countries affected by flooding. Many aspects of flood management are being aided with the advancement of remote sensing technology. More precise and near real time flood detection, lead time in flood early warning system, accurate and advance inputs of hydrological models are now blessed by space technology. Many methods and approaches have been developed to overcome the constrains in the application of spaceborne remote sensing in flood management. Application of satellite remote sensing in flood hazard assessment is well documented, however, the application of space technology in other aspects of the flood management is also promising. Therefore, this review paper focuses on the applicability of spaceborne remote sensing and in most of the aspects in flood management.

     

SJP水泥浆封堵强涌水钻孔可控注浆工艺技术研究

以云南毛坪铅锌矿勘查钻孔涌水治理实践为背景,针对金刚石钻进钻孔高涌水压力和大流量涌水的工程实际,对多种涌水治理方案进行了论证分析。依据实测的涌水量及涌水压力等参数,提出了可控注浆堵涌工艺。论述了SJP水泥浆基本组成及其性能特点,可控注浆止涌的工艺技术,分析了止涌注浆孔口压力变化与孔内浆液处境之间的关系,提出了止涌注浆压力变化中的“零起点”和“零末点”及h值等新概念,以及利用压力变化判断涌水通道类型的方法等。经3个涌水钻孔的注浆止涌的实践表明,按研究成果对大涌水量钻孔进行治理,有效封堵了这3个强涌水钻孔,保证了工程顺利施工。     

Jurassic Hornblende Gabbros in Dongga, Eastern Gangdese, Tibet: Partial Melting of Mantle Wedge and Implications for Crustal Growth

The Gangdese batholith, more than 2500 km in length, is composed mainly of JurassicMiocene igneous rocks. This batholith is one of the most important constituents of the Tibetan orogenesis and provides an ideal place for study of Neo-Tethyan ocean geodynamic evolution and plateau uplift. Recent studies on the Gangdese Jurassic felsic magmatism highlight its juvenile source. However, important aspects concerning the genesis of the juvenile magmatism and related deep geodynamic evolution are still unclear. Here, we report detailed petrological, geochronological, geochemical, whole-rock Sr-Nd isotopic, and in situ Sr-Hf isotopic data for a recently identified hornblende gabbro in the Dongga area, southern Lhasa sub-block. This hornblende gabbro is dominated by hornblende and plagioclase, dated at Early Jurassic(ca. 180–190 Ma), and characterized by a narrow compositional range in SiO_2(49.38wt%–52.27wt%), MgO(4.08wt%–7.00wt%), FeO(10.43wt%–11.77wt%), Na_2O(2.58wt%–3.51wt%), and K_2O(0.48wt%–1.53wt%). It has depleted isotopic signatures, with whole-rock(~(87)Sr/~(86)Sr)i ratios of 0.7033–0.7043, ε_(Nd)(t) values of +4.90 to +6.99, in situ plagioclase(~(87)Sr/~(86)Sr)i ratios of 0.7034–0.7042, and zircon ε_(Hf)(t) of +12.2 to +16.8. Our results integrated with published data suggest a model of Gangdese juvenile crustal growth by a subduction-related water-enriched mantle wedge. The hydrous partial melting of the lithosphere mantle was triggered by the dehydration of a Neo-Tethyan oceanic slab. This mafic magmatism emplaced in the middle-lower crust of intraoceanic arcs or active continental margins, leading to Jurassic juvenile crustal growth in southern Tibet.     

Glacier surges and glacial disasters

Based on complex analysis of the latest data, new conclusions have been reached about the features and causes of glacial disasters.     

Age-related changes of leaf traits and stoichiometry in an alpine shrub (<Emphasis Type="Italic">Rhododendron agglutinatum</Emphasis>) along altitudinal gradient

Leaf morphological and stoichiometric characteristics are considered to represent both the interior inheritable characters in the plant and its adaptations to specific exterior environments. Rhododendron agglutinatum, an evergreen alpine shrub species, occupies a wide range of habitats above timberline in the Miyaluo Natural Reserve, southwestern China. Along an altitudinal gradient ranging from 3700 to 4150 m, we measured leaf morphological characters including leaf dry matter content (LDMC), leaf dry mass per unit area (LMA), and one leaf area (OLA), as well as carbon (C) and nutrient (N, P) contents in leaves of three different age groups (juvenile leaves, mature leaves and senescent leaves). We also calculated the stoichiometric relationships among carbon and nutrients (C/N, C/P and N/P). Results showed that both age and altitude affected the leaf morphological and stoichiometric properties of R. agglutinatum. Mature leaves possessed the highest LDMC, LMA and C contents both on a dry mass basis and on a unit area basis. Younger leaves possessed higher contents of nutrients. OLA as well as ratios between carbon and nutrients (C/N, C/P) increased with ages. Juvenile leaves possessed lowest ratio between nitrogen and phosphorus. In juvenile leaves, nutrients increased with altitudinal elevation, whereas other traits decreased. In mature leaves, nutrients and their ratios with carbon showed consistent trends with juvenile leaves along increasing altitude, whereas LMA and carbon on a unit area basis showed opposite trends with juvenile leaves along increasing altitude. In senescent leaves, only content of phosphorus on a unit area basis and N/P were found linearly correlated with altitude. Our results demonstrated a clear pattern of nutrient distribution with aging process in leaves and indicated that a high possibility of N limitation in this region. We also concluded that younger leaves could be more sensitive to climate changes due to a greater altitudinal influence on the leaf traits in younger leaves than those in elder leaves.     

交通地理信息系统中的时空动态分段模型研究

动态分段技术是交通地理信息系统(GIS-T)中一项重要的线性要素动态显示与分析技术,该文提出了一种时空动态分段模型,使动态分段系统的组成成分融入时态因素,并将属性的时态信息作为属性信息表的字段存储,通过时态地理信息系统技术完成物理段的时态变化。利用统一建模语言(UML)的类图设计方式开发了物理模型,描述了时空动态分段模型中对象之间的关系,并定义了必要的属性和操作;同时基于线性参照系统(LRS)表达空间实体的方法,概括了模型中所涉及到的主要拓扑关系。实验表明,时空动态分段模型弥补其他模型将时空参考分为时间参考和空间参考所产生的不足,而且更明确地将多重属性和物理实体有机结合起来。     

基于空间填充曲线排列码划分的并行缓冲区算法

缓冲区计算是地理信息系统空间分析的基本功能之一。在矢量缓冲区研究方面,以往大多聚焦缓冲区生成算法,这些优化方法在单机计算环境中针对大规模空间数量数据的计算效率提升是有限的,因而需要并行环境下的改进方法来进一步破解计算瓶颈。本文基于Map Reduce计算模型和分布式内存计算框架,提出了一种基于空间填充曲线排列码划分的并行缓冲区分析算法(SPBM),基于空间填充曲线编码进行数据排序和范围划分,对跨越网格的数据采用近似切分方法,在考虑负载均衡的前提下对任务并行分解,之后按照给定深度的"树状"方式进行结果合并。本文在单机和集群两种环境下利用实际道路网等数据进行了实验。同等环境下,相较于目前流行的GIS软件——QGIS和Post GIS计算性能提升明显,相较于现有其他并行优化方法效率提升超过50%。这样的优化分析方法对于GIS中其他矢量分析算法的并行算法也具有一定的借鉴意义。     

地震监测人工源极低频电磁技术(CSELF)新试验

2009年利用大功率人工源极低频电磁技术(CSELF)在位于华北、华南、东北、西北和西南的12个地震台站和几个流动观测点进行了连续30天新的观测试验.结果表明,利用CSELF技术可以在1700 km之外测量到人工源电磁场信号,计算得到的电、磁场功率谱密度和视电阻率与天然源信号相比,抗干扰能力更强,观测信号更稳定,特别有利于识别和捕捉地震等诱发的电磁异常现象,在地震预测监测中具有很大的研究应用潜力.试验还发现,各地震台站和流动测点观测的CSELF信号的强度,与台站或者测量的电、磁场分量相对于发射源的距离、方位有明显的关系;发现在离开发射源的相对近区,场强随距离的衰减,比在相对远区更快;发现接收磁场信号比电场信号较易获得更高信噪比的数据.     

气候变化与清代华北平原动乱事件关系分析

以《清实录》为历史数据源,以事件频次（县次/年）为代用指标,重建清代（1644—1911年）华北平原动乱事件序列。结果表明：世纪/年代尺度上的冷期或降温阶段的动乱频次高于暖期或升温阶段;干旱事件对动乱的触发作用比洪涝明显,干旱指数与动乱频次显著正相关,19世纪3次大规模农民起义均发生在极端旱灾背景下。上述对应关系在不同时间尺度上的显著程度有所不同,较短时间尺度（年代/年）上的规律在清代早期不明显,从18世纪末开始,随着人-地矛盾的激化逐渐明显,其程度随时间推移而加强。     

高密市南部贫水区地下水勘查探讨

高密市南部低缓丘陵区是山东省典型的资源型缺水地区,通过遥感解译、水文地质调查、物探、钻探等手段,在小于家庄村南成功施工1眼深100 m水井,并通过多孔非稳定流抽水试验求取了部分水文地质参数,确定了可开采量。此次工作对下一步该区农业抗旱、居民生活用水打井都具有一定的示范意义。