PEG对NO2的吸收及其吸收产物的氧化性能

利用有机物ＰＥＧ作为吸收剂对ＮＯ２进行吸收处理。结果表明,ＰＥＧ对ＮＯ２的三级吸收率高达９７％以上,该吸收具有操作温度低,装置简单的特点,其吸收产物可作为温和的氧化剂,高产率地将芳香醇氧化为相应的醛,酮,反应具有较高的选择性。氧化反应完成后,ＰＥＧ可以回收并加以循环使用 。     

Short-term effects of diesel fuel on rhizosphere microbial community structure of native plants in Yangtze estuarine wetland

Purpose

In this work, short-term effects of diesel fuel on Huangpu?CYangtze estuarine wetland soil microbial community structure were studied under simulated conditions through phospholipid fatty acids (PLFAs) analysis. Four native plant species, bulrush (Scirpus tripueter), galingale (Cyperus rotundus), wildrice (Zizania latifolia), and reed (Phragmites australis) were tested in the experiments.

Method

In the pot experiment, 20?g rhizosphere soils were mixed with 20?g diesel-blended soils. The concentration of total petroleum hydrocarbon was 16,000?mg/kg. All pots were incubated for 14?days in dark at 28°C and watered with 12?mL sterile distilled water to keep a liquid level. Microbial activity of the samples was assessed by hydrolysis of fluorescein diacetate. Measurements of soil PLFAs and analysis on gas chromatography were performed.

Results

The microbial activity in the samples of reed was highest after the exposure. In all samples, the common PLFA was straight-chain saturated fatty acid (SFA) and monounsaturated fatty acid (MUFA). After the exposure the relative abundance of MUFA and polyunsaturated fatty acid decreased by 20%, and the relative abundance of straight-chain SFA increased by 20%. The results of diversity and PCA indicated that the effect of diesel pollutant on the microbial community was far stronger than the root effect and the reed roots enhanced the tolerance of soil microorganisms to diesel significantly.

Conclusions

All results showed that the soil microbial community structure differed significantly with the exposure to diesel. In reed rhizosphere, the soil microorganisms exhibited a strong resistance to diesel fuel. It confirmed that the root of reed improved the biodegradation ability of soil microorganisms for diesel pollutants and they could be reasonably matched to cure and restore the ecological environment of oil-contaminated wetlands.     

稻米镉积累的影响因素与阻控措施

长期高镉暴露能引发"痛痛病"等疾病,镉的人体健康危害不容小视.目前我国镉污染较为严重,因其容易富集于水稻等粮食作物而备受当前环境、食品领域的关注.镉污染大米(也称为"镉米")摄入是目前人体镉暴露的最重要来源,探究"镉米"的形成及影响因素,并针对影响因素提出相应的阻控措施对保障食品安全和人体健康具有重要意义.本文针对土壤—水稻体系,简介了当前我国稻田镉污染现状,分析了土壤理化性质、全球变暖、水稻品种、水稻根系结构、水稻根系基因对水稻镉吸收的影响,总结了镉被吸收后在水稻植株内的分布和迁移过程及相关调控基因,探讨了土壤修复、基因调控、稻米加工、膳食摄入等措施降低大米镉含量及人体健康风险的效果.本文揭示了稻米镉积累的关键影响因素,并对今后"镉米"阻控措施的发展方向进行了展望.     

多壁碳纳米管分阶段暴露对热带爪蛙胚胎发育的毒性

近年来,碳纳米管（CNTs）的产量和使用量不断增大,提高了其释放到环境中的可能性.尽管碳纳米管的水生生态毒性有所报道,但对两栖动物胚胎的发育毒性研究仍比较少.本研究采用分阶段暴露的方式,以热带爪蛙胚胎的死亡率、孵化率、畸形率、畸形类型、心率、体长等作为毒性评价指标,研究不同浓度多壁碳纳米管（25、50 mg·L^-1）对爪蛙胚胎发育的胚胎毒性与敏感窗口.结果显示,多壁碳纳米管可导致爪蛙胚胎死亡率升高,孵化率降低,但对其心率、体长没有显著性影响（p>0.05）.产生的畸形类型包括心腔水肿、脊索弯曲、泄殖腔畸形、眼睛畸形等,其中,心腔水肿占的比例最大为28.7%.另外,根据死亡率、孵化率、畸形率等指标综合评价爪蛙胚胎对多壁碳纳米管的敏感程度,由强到弱的顺序依次是：原肠胚期、囊胚期、神经胚期、尾芽期.研究表明,浓度为25 mg·L^-1和50 mg·L^-1的多壁碳纳米管对热带爪蛙胚胎发育具有一定的毒性作用,其作用机理与胚胎卵膜粘附碳纳米管有间接关系,研究结果可为合理评价碳纳米管对水生生物胚胎的影响提供一定的理论参考.     

Synergic degradation of diesel by Scirpus triqueter and its endophytic bacteria

The endophytic bacterium isolated from Scirpus triqueter was proved to be an oil-degraded bacterium. A pot experiment was conducted to investigate the removal ratio of diesel under the combined effect of oil-degraded microorganism (Pseudomonas sp. J4AJ) and S. triqueter. The effect of diesel on plant growth parameters, soil enzymes and microbial community was assessed after 60 days. The results showed that the soils which were planted with S. triqueter and inoculated with J4AJ displayed the highest removal ratio (54.51?±?0.15 %) after 60-day experiment. However, the removal ratio of J4AJ-treated soils was 38.97?±?0.55 %. Diesel was toxic to S. triqueter, as evidenced by growth inhibition during the experimental period. However, the plant height and stem biomass in the soils inoculated with J4AJ significantly increased. The combined effect of S. triqueter and J4AJ improved the enzyme activities of the catalase and dehydrogenase in the contaminated soil. The diversity index in soils under the effect of S. triqueter combined with J4AJ was lower than that of the other soil samples. The principal analysis of phospholipid fatty acid signatures revealed that the combined effect of S. triqueter and J4AJ increased the differences of soil microbial community structure with the other treatments.     

纳米铁与微生物联合去除地下水中的NO_3~--N

采用实验模拟装置考察油酸包覆型纳米铁、反硝化细菌及其组合方法处理地下水NO-3-N效果与反应产物的变化特征。结果表明,在模拟地下水溶解氧(0.50 mg/L)、温度(15℃)和黑暗环境中,2 g油酸包覆型纳米铁与70 mg/L NO-3-N反应,11 d后NO-3-N去除率为86.4%,其中74.7%的还原产物为NH+4-N,1.7%为NO-2-N,N2生成量仅占10%;反硝化细菌体系中,反应6 d后NO-3-N去除率为78.6%,此时未检测到NH+4-N,而NO-2-N达到最大值,为60.1%,仅有18.5%的N2生成;在油酸包覆型纳米铁-反硝化细菌耦合体系中,6 d后NO-3-N去除率达到80.3%,其中NH+4-N占17.6%,NO-2-N为30.1%,N2为32.6%。因此,比较3种材料对NO-3-N降解效果及产物得出,在地下水环境中,油酸包覆型纳米铁-反硝化细菌组合方法对地下水NO-3-N的去除效果最好,产物主要是N2,减少了还原产物NH+4-N对地下水造成的二次污染。     

上海市污水二期干线排水风险评估及安全保障

上海市污水二期干线是上海市一条重要的排污干线,其安全运行对保障市区的排水安全具有重要的意义。通过建立污水二期干线管网系统的数学水力集成模型,对污水二期干线的水力状态进行模拟,预测在超强暴雨条件下污水二期干线的排水风险,提出污水二期干线的排水安全保障方案,为上海市区的防洪保安奠定基础。     

航天企业建设项目安全预评价工作过程的问题及对策建议

安全预评价在安全评价工作中具有重要地位,其发展趋势和现状也表明了安全评价已成为未来安全工作的重要组成部分。本文针对近年来航天企业单位大量建设项目安全评价报告,收集、整理了预评价报告中400余项专家组及个人意见。通过分类统计,从建设单位和评价单位两个方面分析问题产生的初步原因,并给出措施建议,对后续做好安全预评价工作具有较好的指导意义。     

大孔树脂共价固定化漆酶及其对孔雀石绿的脱色研究

以大孔树脂为固定化载体,戊二醛为表面活化剂,采用共价结合法固定漆酶。以ABTS为漆酶底物,通过对固定化漆酶活性的测定,确定大孔树脂固定漆酶的最佳固定条件为：戊二醛浓度=2%、pH=6、活化时间=2 h、固定时间=10 h。在此条件下制备的固定化漆酶能够保持79%的初始活性,获得的固定化漆酶活力能够达到1．94 U·g-1。在酸性条件(pH=3)下,游离漆酶的活性在3 h内丧失71%,而固定化漆酶仅丧失37%,显示出固定化漆酶良好的环境稳定性。固定化漆酶对孔雀石绿染料的脱色率在5h内可达到96%。     

沉淀法处理含铜废水及其沉淀产物的表征

采用Ca(OH)2、Na2 CO3和Na2S作为沉淀剂处理模拟酸性含铜废水.实验结果表明:对铜离子去除率由高至低的顺序为Ca (OH)2＞Na2CO3＞Na2S;沉淀60 min后,污泥沉降体积由高至低的顺序为Na2CO3＞Ca(OH)2＞Na2S;上清液浊度由高至低的顺序为Ca(OH)2＞Na2CO3＞Na2S.沉淀...