区域环评中废水排放量的预测方法研究

阐述了区域环评污染物排放源强的预测原则,对区域开发活动中废水量和COD排放量的预测方法作了详细论述,并以温州滨海新区环评为例作了实证研究.     

气相色谱法测定汽油作业环境中MTBE含量

建立了汽油作业场所空气中MTBE的气相色谱测定方法。空气中的MTBE用注射器采集，直接进样，经大口径毛细管柱分离，氢焰离子化检测器检测，以保留时间定性，峰面积定量，并考察了MTBE与甲醇、正己烷的分离效果。     

浙江建德块状硫化物矿床地球化学特征及其成因意义

浙江建德块状硫化物矿床，以Cu＞Zn＞Ph为特征。鉴于Cu、Ph和Zn三元素的地球化学行为和海底喷流作用的固有特性，它们在横向上和纵向上均具独特的分带性，显示出旋回结构。对黄铁矿中特征元素元素比值、成矿温度以及铅同位素组成等方面的研究表明，该矿床乃同生沉积作用的产物，而非岩浆热液成矿。     

论DNA分子标记在家畜遗传多样性保护中的应用

本文就ＤＮＡ分子遗传标记在家畜遗传多样性保护中应用的可行性及途径进行了探讨，提出了家畜遗传多样性标记辅助保护新策略。     

Effect of acid precipitation on leaching of nutritionsand aluminium from forest soils

ＥｆｆｅｃｔｏｆａｃｉｄｐｒｅｃｉｐｉｔａｔｉｏｎｏｎｌｅａｃｈｉｎｇｏｆｎｕｔｒｉｔｉｏｎｓａｎｄａｌｕｍｉｎｉｕｍｆｒｏｍｆｏｒｅｓｔｓｏｉｌｓＤａｉＺｈａｏｈｕａ；ＬｉａｏＢｏｈａｎ；ＷａｎｇＺｈｉｈａｉＷａｎｇＸｉｎｇｊｕｎ；ＬｉｕＹｕｎｘｉ...     

金属铁还原降解2,4-二硝基甲苯的实验研究

研究了金属铁对2,4-二硝基甲苯(2,4-DNT)的还原降解情况.实验结果表明,2,4-DNT的还原降解与溶液初始pH值、初始浓度和溶解氧等因素有关.氯离子能消除金属铁的钝化现象.金属铁表面附载的铜对2,4-DNT的还原降解具有催化作用.     

基于AHP-MF模型的用户群节水指标体系研究

从分析影响用户群节水的因素及其构成关系入手,根据专家长期节水工作的经验,利用层次分析法对用户群节水指标进行优选,并提出全面的定量化和定性化的层次结构评价模式和总体评价方法.首先构建用户群节水的层次分析结构模型及判断矩阵,应用Matlab6.5计算出各判断矩阵的最大特征值及其特征向量,并检验判断矩阵的一致性,继而确定出各指标的权重;其次,应用Fuzzy统计的方法对陕西2006年度高校用户群的节水情况进行评价,并为节水工作提供建设性意见.     

石油化工企业灭火中的环境保护

针对近几年来连续发生的石化企业重大火灾后污染水源的恶性事故,在此从消防部队的角度对消防污水的产生与特点进行了探讨,阐述了灭火战斗中注意的问题以及消防污水紧急处置的措施,对石化企业的防火设计及消防监管提出了一些建议,希望消防工作者在致力于消防事业时,同时树立强烈的环保意识,将保护环境作为消防工作的又一目标,力求避免因火灾引发的突发环境事件造成政治、经济和社会方面的重大影响.     

203HgCl2在紫贻贝(Mytilus cdulis)体内的累积和结合以及锌对其影响的实验研究

本文研究了紫贻贝（Mytilus edulis）对无机汞²⁰³HgCl₂的累积和结合.实验结果表明:紫贻贝累积汞速度很快,能力很强.用Sephadex G75凝胶层析表明:所有的²⁰³Hg几乎都以生物大分子存在（M.W.>1000）.其中大部分²⁰³Hg的分子量大于50000,小部分分子量在1000—50000之间.本文还讨论了汞的累积机制,并研究了Zn²⁺对于²⁰³Hg累积的影响.     

Land use as a mitigation strategy for the water-quality impacts of global warming: a scenario analysis on two watersheds in the Ohio River Basin

This study uses an integrative approach to study the water-quality impacts of future global climate and land-use changes. In this study, changing land-use types was used as a mitigation strategy to reduce the adverse impacts of global climate change on water resources. The climate scenarios were based on projections made by the Intergovernmental Panel on Climate Change (IPCC) and the United Kingdom Hadley Centre's climate model (HadCM2). The Thornthwaite water-balance model was coupled with a land-use model (L-THIA) to investigate the hydrologic effects of future climate and land-use changes in the Ohio River Basin. The land-use model is based on the Soil Conservation Service's curve-number method. It uses the curve number, an index of land use and soil type, to calculate runoff volume and depth. The ArcView programming language, Avenue, was used to integrate the two models into a geographic information system (GIS). An output of the water-balance model, daily precipitation values adjusted for potential evapotranspiration, served as one of the inputs into the land-use model. Two watersheds were used in the present study: one containing the city of Cincinnati on the main stem of the Ohio River, and one containing the city of Columbus on a tributary of the Ohio River. These cities represent two major metropolitan areas in the Ohio River Basin with different land uses experiencing different rates of population growth. The projected hypothetical land-use changes were based on linear extrapolations of current population data. Results of the analyses indicate that conversion from agricultural land use to low-density residential land use may decrease the amount of surface runoff. The land-use practices which generate the least amount of runoff are forest, low-density residential, and agriculture; whereas high-density residential and commercial land-use types produce the highest runoff. The hydrologic soil type present was also an important factor in determining the amount of runoff and non-point-source pollution. A runoff-depth matrix and total nitrogen matrix were created for Cincinnati and Columbus to describe possible land-use mitigation measures in response to global climate change. The differences in Cincinnati and Columbus were due to differences in geographic location, air temperature, and total runoff. The results of this study may be useful to planners and policy makers for defining the possible impacts of future global climate and land-use changes on water resources.