谈特殊病区HIV患者集中静脉采血

目的总结高效率集中采集HIV患者静脉血标本.方法回顾性总结389例患者静脉采血,从采血前准备、怎样选择静脉、采血时的体位配合,到扎止血带、穿刺技巧、拔针,以及防标本溶血,预防职业暴露及交叉感染.结果一次性成功采血89.5%,标本符合要求100%,未发生职业暴露及交叉感染.结论从吸毒的艾滋病患者静脉采血难于常人,采血过程及其前后准备与处理均须?小心谨慎.参4.     

微生物砷代谢机制的研究进展（Progress in Study of Mechanisms of Microbial Arsenic Transformation in Environment）

环境砷污染是一个全球性问题.研究砷的生物地球化学循环可以明确环境中砷的来源及其转化特征,为探索砷污染治理的方法提供参考.越来越多的研究表明,自然界中的微生物在砷的迁移转化过程中发挥了重要作用.根据微生物对砷的代谢机制不同将其分为:砷氧化微生物、砷还原微生物和砷甲基化微生物.砷氧化微生物可以将环境中的As(Ⅲ)氧化为毒性较弱并且容易被铁铝矿物吸附固定的As(Ⅴ),因此对降低环境中的砷毒性具有重要作用;微生物对砷的甲基化作用的产物通常为毒性较低的有机砷,因此也被认为是理想的修复环境砷污染的生物手段之一;然而在还原环境中,砷还原微生物却可以将游离态和结合态的As(Ⅴ)还原为毒性更强的As(Ⅲ),从而加重环境中的砷污染状况.由此可见,明确微生物的砷代谢机制及其对砷污染环境中砷迁移转化的影响,是实现生物修复砷污染环境的必要前提.论文总结了近年来国内外微生物砷代谢机制的研究进展,以期为深入研究微生物代谢砷的机理及其在砷污染治理中的应用提供参考.     

微生物遗传学在环境工程中的应用及原理探讨

微生物遗传学应用到环境工程领域 ,给传统的水污染控制技术和环境监测方法注入了新的活力。本文着重探讨了水处理中污泥驯化的微生物遗传学原理 ,同时评述了微生物遗传学在环境工程中的应用现状 ,分析了其中存在的问题 ,并指出了今后进一步发展的方向。     

微生物修复土壤多环芳烃污染的研究进展

多环芳烃是一类具有致癌、致畸、致突变性质的持久性有机污染物,主要来源于煤、石油等燃料的不完全燃烧,易吸附于固体颗粒表面和有机腐殖质,化学结构稳定,能长期存在于自然环境,给人类健康和生态环境带来很大的危害。中国土壤多环芳烃污染严重,因此急需寻求有效的修复方法进行治理。在众多的多环芳烃污染修复方法中,微生物修复因其低成本、高效、污染少等优点成为研究热点。科学家们从自然界中分离出了多种细菌、真菌等具有降解多环芳烃能力的微生物,并对多环芳烃的降解机理进行了探索,结果表明,微生物在代谢活动过程中能够产生酶来实现对土壤中多环芳烃的降解。细菌主要通过产生双加氧酶来催化多环芳烃的加氧反应,而真菌可以通过分泌木质素降解酶系或单加氧酶来氧化多环芳烃。两种途径均是首先通过降低多环芳烃的稳定性,使之容易被进一步降解。目前,微生物修复技术正逐步应用于PAHs污染土壤的实地修复,且已取得一定成效。文章简要介绍了降解多环芳烃的微生物,对多环芳烃的微生物降解机制进行了综述,讨论了影响微生物修复过程的因素,列举了常见的微生物修复相关技术,展望了今后的研究趋势。     

Degradation kinetics of butyltin compounds during the bioremediation of contaminated harbour sediments

The present study was aimed at the reclamation of harbour sediments contaminated with butyltin compounds (BTCs) by means of biostimulation and/or bioaugmentation experiments carried out in a 5-L slurry bioreactor. In the biostimulation experiment with inorganic nutrients, almost 50% of TBT was degraded in 20 weeks. In the bioaugmentation experiment with a microbial consortium, no significant degradation of TBT was observed. Conversely, bioaugmentation combined with biostimulation led to a decrease of ～50% in TBT after four weeks. A simple kinetic model fitted to the experimental data of BTC concentration allowed us to estimate that 10 weeks are needed to decrease BTC contamination by 90% using a strategy based on both biostimulation and bioaugmentation, and 29 weeks for a strategy using biostimulation only. Overall, our study indicates that strategies based on biostimulation coupled to bioaugmentation can be effective in significantly reducing the concentration of BTCs over relatively short timescales.     

Synergistic degradation of pyrene and volatilization of arsenic by cocultures of bacteria and a fungus

The combination of two bacteria (Bacillus sp. PY1 and Sphingomonas sp. PY2) and a fungus (Fusarium sp. PY3), isolated from contaminated soils near a coking plant, were investigated with respect to their capability to degrade pyrene and volatilize arsenic. The results showed that all strains could use pyrene and arsenic as carbon and energy sources in a basal salts medium (BSM), with the combined potential to degrade pyrene and volatilize arsenic. Bacillus sp. PY1, Sphingomonas sp. PY2 and Fusarium sp. PY3 were isolated from the consortium and were shown to degrade pyrene and volatilize arsenic independently and in combination. Fungal-bacterial coculture has shown that the most effective removal of pyrene was 96.0% and volatilized arsenic was 84.1% after incubation in liquid medium after 9 days culture, while bioremediation ability was 87.2% in contaminated soil with 100 mg·kg^-1 pyrene. The highest level of arsenic volatilization amounted to 13.9% of the initial As concentration in contaminated soil after 63 days. Therefore, a synergistic degradation system is the most effective approach to degrade pyrene and remove arsenic in contaminated soil. These findings highlight the role of these strains in the bioremediation of environments contaminated with pyrene and arsenic.     

Developing a new alternative risk assessment framework in the work sites by including a stochastic and a deterministic process: A case study for the Greek Public Electric Power Provider

An individual method cannot achieve the optimum risk-assessment result in the worksites, and future perspectives should focus on the parallel application of a deterministic approach with a stochastic approach. In particular, the risk analysis and assessment techniques of the deterministic (DET) approach are classified into three main categories: (a) the qualitative, (b) the quantitative, and (c) the hybrid techniques (qualitative-quantitative, semi-quantitative). Furthermore, the stochastic (STO) approach includes the classic statistical approach (CSA) and the accident forecasting modeling (AFM). The objective of this paper is triple: (a) the presentation and classification of the main risk analysis and risk assessment methods and techniques of the deterministic approach and the stochastic approach as well, (b) the development and presentation of a new alternative risk assessment framework (called as STODET) including a stochastic and a deterministic process, and (c) the application of STODET in the Greek Public Power Corporation (PPC) by using occupational accidents that have been recorded, during the 17-year period of 1993-2009. In particular, the STODET application proves that required actions (or suppressive measures) are essential and must be taken in a medium-term period (1 working year) for abolishing the hazard sources.     

轻质油污染土壤及地下水的生物修复强化技术

综述了土壤-地下水系统中轻油污染物生物修复强化技术(生物通风、生物喷射和生物啜食)的研究进展,对它们各自的基本原理、研究背景、工程应用及影响因素等做了比较详细的介绍.我国的研究现状是,这些技术在引进和应用上仍十分落后.     

利用现有设备和技术控制燃煤烟气汞污染研究进展

就当前国内外利用现有气体净化设备和传统的脱汞技术进行燃煤电站汞污染控制研究进展进行了综述,并对各类设备与技术的脱汞特点进行了比较和分析,提出了适合我国国情的研究方向建议。     

分子技术在湿地微生物群落解析中的应用

人工湿地的研究和应用近年来受到了广泛重视。微生物是人工湿地系统的重要组成部分,其群落结构对于湿地的净化功能的发挥具有重要影响。与传统的微生物分析技术相比,分子生物学技术在解析人工湿地微生物群落结构时无需纯培养,具有高效、快速、简便的特点,使其广泛应用于环境微生物的研究。文章综述了近年来在聚合酶链反应技术（Polymerase Chain Reaction,PCR）基础上发展起来的几种新的分子生物技术,包括PCR-DGGE、LH-PCR、T-RFLP、PCR-SSCP和ARDRA,以及其在人工湿地微生物研究中的应用现状。通过这些分子技术,可以分析湿地处理特定废水过程中微生物的数量、丰度、多样性及优势种;鉴定湿地中特定功能菌群（如氨氧化细菌、反硝化细菌、除硫菌等）的数量、活动分布、空间变更及与污染物去除的关系;判断各种系统条件（如不同基质、植物、水力负荷等）的设置对微生物多样性和稳定性的影响。最后,对分子技术在湿地领域的未来发展进行了展望。