环境影响评价有效性评估理论研究

结合系统工程理论，初步建立环境影响评价有效性评估的概念方法和理论体系，据此对我国环境影响评价有效性进行初步评估，并提出进一步提高我国环境影响评价有效性的对策及建议。     

车内空气挥发性有机物污染水平调查

随着汽车量的增长,车内空气污染造成的纠纷越来越多。在此,通过对106辆汽车内部空气的分析测试表明,车内空气污染严重。其主要成分是甲醛、苯、甲苯、二甲苯、乙苯、苯乙烯等可挥发性有机物,其中甲苯和二甲苯为首要污染物。     

浅谈原子吸收分光光度计在环境监测中的应用

本文介绍了原子吸收分光光度计在环境监测中的应用情况和重要性。分析了原子吸收光度法（包括石墨炉法）与ICP-AES（电感偶合等离子体发射光谱法），原子荧光法，极谱法在分析元素时各自的优缺点，又从目前环境监测的角度阐述了应用原子吸收分光度计的重要性与现实性。分析了原子吸收分光广度计在使用中的常见问题及原子吸收分光广度法分析中常出现的问题（从仪器、方法角度分别讲述）。并提出了原子吸收分光度计要进一步应适应环境监测的需求。     

索风营水电站Dr2号危岩体破坏模式分析

在专门性工程地质勘察的基础上,系统分析了Dr2危岩体的边界条件、形成机理及破坏模式,并简要介绍了目前所采取的处理措施。     

餐饮娱乐业的环境污染与综合防治

主要分析了城市餐饮娱乐业环境污染的几个方面,针对我国目前现状,从政策法规、行政管理、技术改造等方面提出了一些综合防治对策。     

俄罗斯环境管理问题所引发的法律思考

对俄罗斯的环境管理观念，相关环境法律规定的生态化要求，联邦及联邦各主体两级关系协调化以及环境管理手段的经济化与多样化倾向等问题作了着重分析，并鉴于中俄在历史上社会与经济制度的关联性及正处经济转轨的共同性，希望通过比较中俄两国在历史和现实发展中存在的异同与联系，以求能为我国进一步的环境管理立法提供借鉴性的思考。     

BP人工神经网络预测邻苯二甲酸酯光化学降解

将反向传播人工神经网络（BP－ANN）用于邻苯二甲酸酯类化合物的光化学降解的预测中，选取正交设计的试验点作为反向传播人工神经网络的训练集，实现对全实验域试验点的预测，并与实测的试验数据比较。结果表明反向传播人工神经网络（BP－ANN）具有良好的预测能力。     

加强危险化学物品仓库安全管理的探讨

本文着重讨论了加强危险化学物品仓库安全管理的一些行之有效的科学方法，并对有关问题提出了一些个人看法。     

基于人工神经网络的行业无害化生产能力评价模型研究

利用BP前向人工神经网络方法 ,建立了一种全新的基于人工神经网络的行业无害化生产能力评价模型 ,该模型采用动量梯度下降反向传播和学习速率自适应调整相结合的训练学习算法。最后 ,以造纸及纸制品业为例 ,对中国各省市造纸行业的无害化生产能力进行评价 ;并进一步分析中国各省造纸行业无害化生产能力的时空分布规律 ,为我国行业规划、布局决策提供科学依据。     

Sustainable resource management coupled to resilient germplasm to provide new intensive cereal–grain–legume–livestock systems in the dry savanna

Sustainable resource management is the critical agricultural research and development challenge in sub-Saharan Africa. The accumulated knowledge on soil management gathered over the last 10 years, combined with solid crop improvement and plant health research at farmers’ level, has brought us to a stage where we can now address with confidence the intensification of cereal–grain–legume-based cropping systems in the dry savanna of West Africa in a sustainable and environmentally positive manner.Two sustainable farming systems that greatly enhance the productivity and sustainability of integrated livestock systems have been developed and implemented in the dry savanna of Nigeria. These are: (i) maize (Zea mays L.)–promiscuous soybean [Glycine max (L.) Merr.] rotations that combine high nitrogen fixation and the ability to kill large numbers of Striga hermonthica seeds in the soil; and (ii) miflet [Eleusine coracana (L.) Gaerth] and dual-purpose cowpea [Vigna unguiculata (L.) Walp.]. Improvement of the cropping systems in the dry savanna has been driven by the adoption of promiscuously nodulating soybean varieties (in particular TGx 1448-2E) and dual-purpose cowpea. The rate of adoption is very high, even in the absence of an efficient seed distribution system. The number of farmers cultivating the improved varieties increased by 228% during the last 3 years. Increased production of promiscuous soybean has been stimulated by increased demand from industries and home utilization. Production in Nigeria was estimated at 405,000 t in 1999 compared to less than 60,000 t in 1984. Economic analysis of these systems shows already an increase of 50–70% in the gross incomes of adopting farmers compared to those still following the current practices, mainly continuous maize cultivation. Furthermore, increases in legume areas of 10% in Nigeria (about 30,000 ha in the northern Guinea savanna) and increases of 20% in yield have translated into additional fixed nitrogen valued annually at US$ 44 million. This reflects, at the same time, an equivalent increase in land-use productivity, and with further spread of the improved crops, there are excellent prospects for additional economic and environmental benefits from a very large recommendation domain across West Africa.