固定化微生物法处理含甲硫醇恶臭气体

采用液相曝气方式驯化培养污水厂活性污泥，获得具有降解甲硫醇能力的优势微生物菌群。同时用海藻酸钠包埋固定化微生物，研究固定化微生物颗粒填充床去除甲硫醇恶臭气体的工艺过程。液相曝气培养研究表明：降解甲硫醇的微生物菌群适宜的ｐＨ值为５．２～９．０，最佳ｐＨ条件为弱碱性。已驯化微生物的离心浓缩回收率为７１．２％，颗粒填充床生物脱臭塔运行实验表明：在空塔停留时间不大于１３ｓ，对低浓度甲硫醇气体（〈１２．９ｍ     

Dendroremediation of trinitrotoluene (TNT) Part 2: Fate of radio-labelled TNT in trees

BACKGROUND, AIM AND SCOPE: Problems of long-term existence of the environmental contaminant 2,4,6-trinitrotoluene (TNT) and necessities for the use of trees ('dendroremediation') in sustainable phytoremediation strategies for TNT are described in the first part of this paper. Aims of the second part are estimation of [14C]-TNT uptake, localisation of TNT-derived radioactivity in mature tree tissues, and the determination of the degree of TNT-degradation during dendroremediation processes. METHODS: Four-year-old trees of hybrid willow (Salix spec., clone EW-20) and of Norway spruce (Picea abies) were cultivated in sand or ammunition plant soil (AP-soil) in wick supplied growth vessels. Trees were exposed to a single pulse application with water solved [U-14C]-TNT reaching a calculated initial concentration of 5.2 mg TNT per kg dry soil. Two months after application overall radioactivity and extractability of 14C were determined in sand/soil, roots, stem-wood, stem-bark, branches, leaves, needles, and Picea May sprouts. Root extracts were analysed by radio TLC. RESULTS: 60 days after [14C]-TNT application, recovered 14C is accumulated in roots (70% for sand variants, 34% for AP-soil variant). 15-28% of 14C remained in sand and 61% in AP-soil. 3.3 to 14.4% of 14C were located in aboveground tree portions. Above-ground distribution of 14C differed considerably between the angiosperm Salix and the gymnosperm Picea. In Salix, nearly half of above-ground-14C was detected in bark-free wood, whereas in Picea older needles contained most of the above-ground-14C (54-69%). TNT was readily transformed in tree tissue. Approximately 80% of 14C was non-extractably bound in roots, stems, wood, and leaves or needles. Only quantitatively less important stem-bark of Salix and Picea and May shoots of Picea showed higher extraction yields (up to 56%). DISCUSSION: Pulse application of [14C]-TNT provided evidence for the first time that after TNT-exposure, in tree root extracts, no TNT and none of the known metabolites, mono-amino-dinitrotoluenes (ADNT), diaminonitrotoluenes (DANT), trinitrobenzene (TNB) and no dinitrotoluenes (DNTs) were present. Extractable portions of 14C were small and contained at least three unknown metabolites (or groups) for Salix. In Picea, four extractable metabolites (or groups) were detected, where only one metabolite (or group) seemed to be identical for Salix and Picea. All unknown extractables were of a very polar nature. CONCLUSIONS: Results of complete TNT-transformation in trees explain some of our previous findings with 'cold analytics', where no TNT and no ADNT-metabolites could be found in tissues of TNT-exposed Salix and Populus clones. It is concluded that 'cold' tissue analysis of tree organs is not suited for quantitative success control of phytoremediation in situ. RECOMMENDATIONS AND OUTLOOK: Both short rotation Salicaceae trees and conifer forests possess a dendroremediation potential for TNT polluted soils. The degradation capacity and the large biomass of adult forest trees with their woody compartments of roots and stems may be utilized for detoxification of soil xenobiotics.     

螺旋藻的应用价值及环境保护功能

本文综述了螺旋藻的基本特性，营养价值，药用价值及开发利用现状，着重讨论了螺旋藻的能源价值和在环境污染净化中的作用，展望了应用发展前景。     

Screening of wood rotting fungi potentially useful for the degradation of organic pollutants

Many papers have shown that white rot fungi can degrade aromatic pollutants under laboratory conditions, but few report field scale trials. Here we report the first steps in the development of a remediation system for Greek conditions. A review of the available organochlorine compound pollution information in Greece is presented. White rot fungi isolated from sites in Greece have been screened for growth rate and ligninolytic activity, using decolourisation of the dye Poly R-478 as an indicator of enzyme activity. Use of white rot fungi under field conditions in Greece will require bioaugmentation to be effective at high temperatures and low water activity for much of the year. The most potent strains have been selected under a range of conditions and have been challenged with priority pollutants to determine their degradative ability under laboratory conditions and subsequently ex situ in soil.     

基于地下水暴露途径的健康风险评价及修复案例研究

以北京某大型焦化厂苯污染地下水为例,对该场地不同功能地块苯呼吸暴露途径的致癌风险进行了评价,计算了苯的修复目标、修复范围并提出了相应的修复策略.结果表明,室内呼吸含苯的蒸气为关键暴露途径.该途径下,规划为商业用地的地块A苯的致癌风险为6.37×10-8,未超过1.0×10-6,风险可接受.但规划为工业遗址公园的地块B及规划为综合开发区的地块C苯的致癌风险分别为2.20×10-4、7.49×10-5,均超过可接受风险水平.为使风险可接受,该场地地下水应修复至118μg.L-1以下,需修复的地下水面积约为16.5万m2.综合考虑该场地地下水含水层的高渗透性及苯的强挥发性,确定削减污染源强度的空气注射技术并辅以切断暴露途径的工程控制措施为该场地苯污染地下水的优先修复策略.     

基于过氧化物的消毒技术研究进展

对环境友好消毒技术需求的增长,推动了过氧化物消毒技术的快速发展,并已被广泛应用于反化学和生物恐怖袭击、化生灾害处置、环境污染治理等领域.在综述了过氧化物消毒剂α亲核取代/氧化消毒反应机制研究进展的基础上,介绍了以过氧化物为活性组分的水基消毒溶液、消毒泡沫、消毒乳液、消毒凝胶、消毒气雾、自消毒材料、纳米材料催化消毒技术等典型消毒体系.针对现有过氧化物消毒技术消毒效率偏低、对个别毒剂消毒效果不理想的缺点,建议在过氧化物消毒技术研究中,加强消毒反应机制、多相体系界面相互作用研究,开发新型催化剂、多功能表面活性剂、自消毒材料和消毒剂缓蚀技术,以实现真正的绿色消毒.     

人工湿地植物净化生活污水研究现状与展望

随着经济的发展,人民生活水平提高,农村生活污水造成的环境污染不断加剧.成为影响水环境质量的重要因素.植物在人工湿地中具有非常重要的作用,是人工湿地生态系统中重要的组成部分.在检索相关文献的基础上,从人工湿地植物类型、常用植物、植物选择、去污机理、去污作用的影响因素等方面,对生活污水的人工湿地净化作了简要综述,并从6个方...     

菱形藻在污水中的生长及其净化能力

研究了菱形藻(Nitzschia sp.)在不同浓度污水中的生长及其对不同形态氮磷的去除情况。结果表明:(1)菱形藻在不同浓度污水中均可以生长,但比生长速率存在显著差异,其中在50%、80%污水环境与基础培养(f/2)环境中生长较快,比生长速率为5.9～8.5,不存在差异;(2)不同浓度污水培养菱形藻后N、P养分均有一定的去除,总磷(TP)和NO3-N利用率均在60%以上,NO2-N、总氮(TN)、NH4-N的利用率分别在40%、70%、90%以上,表明菱形藻有较强的净化水源的能力;(3)污水培养后菱形藻的营养成分含量均高于纯海水培养的,其中80%污水环境下藻细胞叶绿素、胞外多糖(EPS)、胞内多糖(IPS)、蛋白质和总脂肪含量最高,分别占干重的3.5%、2%、4%、1.5%和14.5%。     

化学事故中应急洗消方案的研究

公安消防部队作为处置化学事故的力量之一,其主要任务就是对受害人员及事故现场进行彻底洗消.针对当前化学事故多发的情况,本文对化学事故中应急洗消方案的制定和内容进行了研究.提出了应急洗消方案制定的基本流程;提出了化学事故三阶段应急洗消方案,包括洗消准备阶段、洗消实施阶段和撤收阶段,详细论述了各阶段的基本任务及人员部署,实现了洗消方案的科学化、合理化.此方案的提出对化学事故中的应急洗消具有一定的指导意义.     

Reduction of the movement and persistence of pesticides in soil through common agronomic practices

Laboratory and field studies were conducted in order to determine the leaching potential of eight pesticides commonly used during pepper cultivation by use of disturbed soil columns and field lysimeters, respectively. Two soils with different organic matter content (soils A and B) were used. Additionally, soil B was amended with compost (sheep manure). The tested compounds were cypermethrin, chlorpyrifos-methyl, bifenthrin, chlorpyrifos, cyfluthrin, endosulfan, malathion and tolclofos-methyl. In soil B (lower organic matter content), only endosulfan sulphate, malathion and tolclofos-methyl were found in leachates. For the soil A (higher organic matter content) and amended soil B, pesticide residues were not found in the leachates. In addition, this paper reports on the use of common agronomic practices (solarization and biosolarization) to enhance degradation of these pesticides from polluted soil A. The results showed that both solarization and biosolarization enhanced the degradation rates of endosulfan, bifenthrin and tolclofos-methyl compared with the control. Most of the studied pesticides showed similar behavior under solarization and biosolarization conditions. However, chlorpyrifos was degraded to a greater extent in the solarization than in biosolarization treatment. The results obtained point to the interest in the use of organic amendment in reducing the pollution of groundwater by pesticide drainage and in the use of solarization and biosolarization in reducing the persistence of pesticides in soil.