河西走廊疏勒河流域地质灾害危险性现状评估方法的应用——以甘肃省河西走廊(疏勒河)农业灌溉暨移民安置综合开发建设项目8个移民社区及配套工程建设为例

依据“建设用地地质灾害危险性评估技术要求”、利用野外踏勘及相关资料,对“甘肃省河西走廊（疏勒河）农业灌溉暨移民安置综合开发建设项目8个移民社区及配套工程”进行地质灾害危险性现状评估。结果认为：评估区发育和分布的地质灾害类型有土壤盐渍化、风蚀沙埋和洪水冲蚀。现状评估结果：土壤盐渍化和洪水冲蚀危险性均小;风蚀沙埋有1处危险性中等,其它危险性小。     

长江流域沿江镉异常源追踪与定量评估的方法技术研究:以长江流域安徽段为例

长江全流域性的Cd异常是被中国正在进行的多目标地球化学调查发现的重大生态环境问题。以长江流域安徽段为研究对象,对沿江镉异常源追踪与定量评估的方法技术进行了系统研究。通过对安徽段长江干流及其主要支流悬浮物中元素含量的测量查明:悬浮物是流域内重金属元素大跨度迁移的主要载体;Cd在悬浮物中的富集程度远远大于其他重金属元素,这或许正是Cd可以形成沿江流域性异常的主要原因;长江干流悬浮物中重金属元素含量的变化明显受到沿江支流的影响。安徽段长江干流及其主要支流重金属元素输出通量定量计算结果表明:秋蒲河是安徽段重金属元素输出通量最大的支流,每年在安徽段长江两岸土壤中沉积下约4.45t的Cd。利用悬浮物加密测量、1∶5万土壤测量和岩石测量对顺安河流域Cd异常源追踪结果显示:内生金属矿床特别是铅锌矿是悬浮物中Cd的最大的供应源。采用河漫滩沉积物分层采样技术和同位素测年技术,初步恢复了研究区Cd等重金属元素沉积和污染的地球化学历史,对研究区Cd等重金属元素异常的未来演变趋势进行了预警预测。     

公路建设生态环境效益评价指标体系研究

随着经济的发展,基础设施建设的大量展开,公路建设活动对生态环境的压力日渐突出,已经成为生态环境破坏的主要原因之一.本文以环境经济学与生态系统服务价值为依据,从公路建设所带来的环境污染和生态破坏两个方面分析公路建设对路域生态环境的负面效应,并考虑环境保护工程带来的正面效应,兼顾环保工程建设费用,探索建立公路建设生态环境效益评价的指标体系,并分析了其计算方法和适用条件.     

基于等高线回放算法的DEM精度评估研究

一、引言 等高线是其它地形表示方法的几何基础,一组有一定间隔的等高线的组合可以用来较好地反映地面的起伏形态和切割程度。利用等高线数据来构建DEM是DEM数据生产的重要方式之一,不仅可以完整地表现地形的整体特征,还能保留某些复杂区域的地形特征。     

构造地貌—城区建设发展规划的地质生态评估基础（以斯摩棱斯克州为例）

为了制定斯摩棱斯克州城市建设发展的总体纲要,对城区进行了地质生态评估。为此,根据所采用的方法,编制了地貌图,以此作为评估的基本要素,并且对该州地区地貌特征进行了分析;同时建议利用这些资料作为制定总体纲要工作的独立要素。     

太行地质先锋——河北省地矿局石家庄综合地质大队

石家庄综合地质大队是一支集固体矿产勘查、区域地质调查、物化探、水文地质、工程地质勘察、国土测绘、地灾评估、地灾治理设计、施工、岩矿测试、矿产开发等多门类综合性地勘专业队伍。拥有固体矿产勘查、地质灾害防治工程设计、地质灾害危险性评估、工程测绘等甲级资质以及区域地质调查乙级资质等。     

突出我所特色，提高地震预报水平

在地震预报工作中什么是我所特色?如何突出我所特色?阐明了个人见解。认为:特色问题是个重要问题。分析同样的资料,是否突出我所特色,关键在于从什么角度去分析,去研究。只有从分析与研究地震应力-应变场的角度,利用各家可利用的长处,用以描述、刻化和论证地震应力-应变场的变化,从中找出显著应力变化区,并逐一进行地震危险性评估,给出地震应力-应变场的变化和地震预测图才是我所的特色。在此基础上,本人还对地震分析预报中的一些相关问题谈了自己的意见。     

Spatial analysis of elements in soils from Chengdu City

Three kinds of spatial analysis methods （geostatistics, concentration-area fractal model and the multifractal analysis called the moment method） were used for almost 50 elements, including heavy metals, disperse elements, rare elements and even others, in 6586 top soil （0-20 cm） samples and 1833 deep soil （150-200 cm） samples from Chengdu metropolitan area of 12400 km^2, southwestern China. The ranges of spatial correlation revealed by variograms are quite different for different kinds of elements in the top and deep soils. The most interest is the fact that the multifractal spectra of environmentally important elements such as Pb, Cr, Cd and Ni in top soils in the metropolitan area show systematic change from those in the deep soils, revealing a strong anthropogenic addition, while Hg, Zn, As, Cu and all common elements show no such kind of addition. In terms of multifractal properties based on the multifractal spectrum curves, those disperse and rare elements show great deviation from other major and trace elements, which is also of great interest.     

The acid neutralizing capacity （ANC） of South Africa＇s freshwater ecosystems

Acidification is considered the most important one of the primary chemical stress factors that impact on freshwater ecosystems. In unpolluted freshwater systems, the primary controls on the degree of acidification are factors such as the geological substrate of the catchment area, the presence of organic acids secreted by vegetation in the river system, and equilibrium exchange of carbon dioxide with the atmosphere. Anthropogenic factors that can impact on the degree of acidification of freshwater systems include agricultural, mining and industrial activities, either through direct runoff into river systems or through deposition of atmospheric pollutants from these sources. The capacity factors alkalinity and acidity, which represent the acid- and base-neutralizing capacity （ANC and BCN） of an aqueous system, have been used as more reliable measures of the acidic character of freshwater systems than pH. Unlike pH, ANC and BNC are not affected by parameters such as temperature and pressure. Therefore, ANC has been employed as a predictor of biological status in critical load assessments. Freshwater systems with ANC＇s eq/L isμeq/L are considered sensitive to acidification, ANC=0 μbelow 150 commonly used as the predictor for fish species such as trout in lakes, and an eq/L as more realistic for streams. Acid-neutralizing capacity μANC value of 40 （ANC） can be determined by titration with a strong acid to a preselected equivalence point. Alternatively, it can be calculated as the difference between base cations （[BC]） and strong acid anions （[SAA]）： ANC=[BC]- [SAA]=[Ca^2＋]＋[Mg^2＋]＋[Na^＋]＋[K^＋]-[SO4^2-]-[NO3^-]-[Cl^-] To date, there has been no attempt to establish the ANC of South Africa＇s freshwater ecosystems or variability therein, despite the fact that long-term water quality monitoring data exist for all the parameters needed to calculate it according to the above equations. As a result, the relationship between the acid neutralizing capacity of freshwater ecosystems in South Africa and biodiversity factors, such as fish status, is unknown. Results of the first comprehensive （country-wide scale） evaluation of the acid neutralizing capacity of river systems in South Africa will be presented. Long-term monitoring data obtained from the Department of Water Affairs and Forestry （DWAF） from most of South Africa＇s river systems were used to establish geographic and temporal variabilities in ANC. The results show that the Berg and Breede River systems are most susceptible to acidification, and that geological substrate appears to explain most of the geographic variabilities observed.     

海滨湿地生态系统的热点研究

海滨湿地具有强大的生态服务功能,然而由于人类活动的长期和强烈干扰,导致该系统严重受损和退化。海滨湿地生态系统的严重退化引起国内外学术界的高度关注。有关其退化及生态恢复的研究热点涉及该系统的演化与机制、对外来种入侵的响应与生态控制、退化海滨湿地生态系统的修复、生态系统健康的评估及其保护与利用平衡的研究。本文综述了上述热点研究的进展,有利于把握国际前沿研究动态,借鉴最新研究方法和经验,推动我国在这一领域的研究尽快赶上国际先进水平。