粉煤灰沸石负载Ce^3＋／TiO2光催化降解水中的菲和荧蒽

以钛酸四丁酯为前驱体,粉煤灰合成沸石为载体,采用溶胶-凝胶方法,在低温条件下制备了稀土铈掺杂的TiO2光催化剂。利用SEM—EDS、XRD、FTIR对催化剂进行了分析和表征。以高压汞灯为灯源,对多环芳烃菲、荧蒽的降解进行了研究。实验考查了稀土铈掺杂质量分数、催化剂用量、溶液pH、目标物初始质量浓度等因素对光催化降解的影响,研究了其光降解动力学。结果表明,当稀土铈含量为0．5％,催化剂用量为3g／L,pH偏碱性时,催化效果最佳。光催化反应符合Langmuir—Hinshelwood动力学规律,菲、荧蒽的降解过程符合一级反应动力学,反应速率常数分别为0．0126min^-1,0．0099min^-1。     

菲污染土壤黑麦草/苜蓿间作修复效应

多环芳烃类化合物(PAHs)是环境中普遍存在的持久性有毒有机污染物,因具有强烈的"三致"作用,业已引起各国环境科学工作者的广泛关注,PAHs污染土壤的修复也已成为环境科学与工程领域的研究热点。以菲为PAHs的代表,研究了黑麦草/苜蓿间作对多环芳烃(菲)污染土壤的修复效应。通过温室盆栽模拟实验,观察到5 mg/kg和50 mg/kg污染水平没有明显抑制黑麦草和苜蓿的生长;黑麦草/苜蓿间作促进了植物对土壤菲的吸收,且间作体系根系富集系数大于单作;土壤中菲的可提取浓度随时间的延长逐渐减少,在菲重度污染土壤上,黑麦草/苜蓿间作修复效果明显优于单作,菲去除率可高达90.53%。因此,对于重度PAHs污染土壤该体系是一种有实际应用价值的间作修复体系。     

pH和Ni2+对人工纳米氧化硅吸附菲的影响

为了揭示菲在人工纳米氧化硅上的吸附行为,采用批量平衡实验对比研究了灼烧前后纳米氧化硅对菲的吸附,考察了pH值和重金属离子(Ni2+)对吸附行为的影响,并应用位点能量分布模型分析了菲吸附行为的变化.结果表明,吸附数据可用Freundlich模型较好地拟合,高温灼烧后纳米氧化硅对菲的吸附增加,lgKF由1.48增加到2.43;吸附的非线性也增加,结合孔分布及表面积变化,说明纳米氧化硅对菲的吸附为孔填充与表面吸附共同作用,内部孔对菲的吸附起主要作用.pH值的变化没有显著改变原始纳米氧化硅对菲的吸附;但是显著影响灼烧后纳米氧化硅对菲的吸附,吸附随着pH值的增加而降低,pH值由4.0增加到8.0,lgKF减少了73.7%.主要因为提高pH值,可明显增加灼烧纳米氧化硅的表面电荷,降低孔的可及性.不同浓度的Ni2+对菲吸附的影响不同,在Ni2+低浓度时(<5 mmol.L-1),表现为吸附抑制;在Ni2+高浓度时,对低浓度菲(50μg.L-1)表现为促进吸附,对高浓度菲(500μg.L-1)吸附的抑制程度不再增加.这是多个机制共同作用的结果.     

两性修饰磁化炭对紫色土吸附菲的增强作用

为了验证两性修饰磁化炭材料对紫色土吸附菲的增强作用,采用共沉淀负载Fe_3O_4法和湿法有机负载分别制备了磁化炭(MC)和不同十二烷基二甲基甜菜碱(BS-12)修饰比例的两性修饰磁化炭(BS+MC),将其以1%的质量比加入到紫色土(PS)中,分别形成PS_(MC)和PS_(BS+MC)混合样品,批处理法研究各混合样品对菲的等温吸附和热力学特征,并对比了不同温度、离子强度和pH值对菲吸附的影响。结果表明:(1) MC和BS-MC材料的添加均增强了PS对菲的吸附能力,菲吸附量呈现PS_(200BS+MC)> PS_(150BS+MC)> PS_(100BS+MC)> PS_C> PS_(MC)> PS_(50BS+MC)> PS_(25BS+MC)> PS的趋势,PS_(BS+MC)对菲的吸附量随着添加材料上BS-12修饰比例的增加而增加。(2)菲在各供试土样上的吸附均表现为增温负效应(物理吸附),溶液pH值变化仅对PS_(150BS+MC)和PS_(200BS+MC)吸附菲有显著影响。离子强度增大不利于各供试土样对菲的吸附。(3) Henry模型适用于描述菲在供试土样上的等温吸附,且该过程呈现自发的、焓减和熵增的特征。从PS_C到PS_(MC)再到PS_(BS+MC),吸附过程呈现自发性、放热量和混乱度均增大的特征。     

不同油相微乳液性质及其增溶菲的性能研究

以Tween 80为表面活性剂,正戊醇为助表面活性剂,3种不同的植物油（大豆油、棕仁油、葵花油）作为油相构建微乳相图,探究不同油相对微乳液性质的影响.制备了不同油相与表面活性剂质量比（O/S）的3种植物油基系列微乳液,并对比了它们对菲的增溶效果.结果表明,不同油相对微乳液的成相能力及稀释特性影响较大,其中棕仁油 > 葵花油 > 大豆油.3种油相微乳液在不同含水量下具有相似的电导率变化趋势且均为牛顿型流体.制备的3种植物油基系列微乳液对菲的增溶能力均随体系中油含量的增加而提高,其中大豆油基微乳液对菲的增溶效果最差,而棕仁油微乳液在O/S值为0.1时对菲的增溶效果最好,可达2.18g/L.     

Interactive effect of dissolved organic matter and phenanthrene on soil enzymatic activities

The investigation of dissolved organic matter (DOM) on urease, catalase and polyphenol oxidase activity in a phenanthrene (Phe)-contaminated soil was conducted under laboratory incubation conditions. Values of soil enzymatic activity depended mainly on incubation time. In the initial 16 days, urease activity increased, and was followed by a decrease. In the initial 8 days, catalase activity decreased and then increased. Variation of polyphenol oxidase activity was just the reverse of catalase activity. After 30 days of incubation, no pronounced difference among treatments with Phe, Phe and DOM, and control were detected in urease, catalase and polyphenol oxidase activity. Phe might inhibit urease and catalase, and stimulate polyphenol oxidase. DOM could improve inhibition of Phe in soil urease and catalase activity during the initial period of applying DOM. Nevertheless, DOM had no significant effect on polyphenol oxidase activity in the Phe contaminated soil. There was a negative correlation between catalase and polyphenol oxidase (r = -0.761~(***)), and catalase and urease (r = -0.554~(**)). Additionally, a positive correlation between polyphenol oxidase and urease was also detected (r = 0.701~(***)). It is implied that the formed DOM after application of organic wastes into soils may counteract the inhibition of polycyclic aromatic hydrocarbons in soil enzyme activities.     

具菲降解特性植物内生细菌的分离筛选及其生物学特性

从长期受石油污染的植物体内分离到内生细菌36株,通过平皿促生和定殖试验筛选出1株能高效降解菲并明显促进小麦生长、能在小麦体内良好定殖的内生细菌7J2菌株.同时,对菌株7J2的生物学特性进行了研究.结果表明,菌株7J2在菲含量为30 mg·L-1的条件下,28℃振荡培养6d,菲的降解率达到99.81%.菌株7J2能够产生吲哚乙酸(IAA)(3.4±0.2)mg·L-1)和铁载体(2,3-二羟基苯甲酸)(4.3±1.6) mg·L-1).振荡培养3d,接活菌的培养基中有效磷浓度比接灭活菌的处理增加了32.5%.另外,菌株7J2对重金属Pb2 、Cr2 、Cu2 、Ni2 、Zn2 、Cd2 均有较强的抗性.通过16SrDNA序列测定,菌株7J2属于肠杆菌属.     

溴化十四烷基吡啶对黑麦草吸收土壤中菲的影响

研究了澳化十四烷基吡啶(Myrlstylpyridinium bromide,MPB)对黑麦草吸收土壤中菲的影响.结果表明.由于MPB能显著增强吸附固定土壤中的菲,限制其从土壤固相向土壤水相迁移,从而可降低土壤水相中菲浓度,导致黑麦草吸收积累菲的程度降低.在两种不同菲污染水平的土壤中,MPB添加浓度为0～600 mg·kg-1时,黑麦草根系和茎叶中菲含量均随MPB添加量的增加而降低.当MPB添加浓度为600 mg·kg-1时.黑麦草根系菲含量分别为0.12 mg·kg-1和0.35 mg·kg-1,分别比对照低了77.0%和53.3%;茎叶中菲含量为0.12 mg·kg-1和0.26 mg·kg-1,分别比对照低了64.7%和50.9%.     

一株菲高效降解菌的环境适应性研究

生物降解是多环芳烃从环境中去除的主要途径,菲是一种典型的三环芳烃。本研究考察了一株能高效降解多环芳烃菲的鞘氨醇单胞菌GY2B在含河沙环境及不同盐度的人工海水环境中的生长特性与降解菲的情况。结果表明：河沙的加入对菌株GY2B的生长及其高效降解菲的性能均无明显影响,65 h可将起始浓度为100 mg/L的菲降解99.5%以上;而经过驯化后在添加85%人工海水的条件下该菌也仍可正常生长并高效降解菲,66 h可将起始浓度为100 mg/L的菲几乎完全降解。本研究结果可为菌株GY2B在受多环芳烃污染的河滩、河口及近海海洋环境修复中的应用提供参考依据。     

Effects of phenanthrene on hepatic enzymatic activities in tilapia (Oreochromis niloticus♂×O. aureus♀)

The effects of phenanthrene (Phe) on hepatosomatic index (HSI) and hepatic enzymatic activities in hybrid tilapia (Oreochromis niloticus ♀× O.aureus ♂) were investigated via the static freshwater exposure at dosage of 50,100 or 400 μg/L for 4-14 d.Compared with the control group,HSI was significantly decreased (P<0.05) at 400 μg/L at day 14.Increased enzymatic activities (P<0.05) were observed for catalase (CAT),glutathione peroxidase μgPx) and superoxide dismutase (SOD) at either 100 or 400 μg/L at day 8 and 14,as well as for CAT at 50 μg/L at day 14,except for GPx at 400 μg/L at day 8.Ethoxyresorufin O-deethylase (EROD) activity was significantly increased (P<0.05) at all dosage at day 4 as well as at 50 μg/L at day 8,but significantly decreased at either 100 or 400 μg/L at day 14 (P<0.05).Glutathione-S-transferase μgST) activity was not affected.The results suggest that CAT,GPx,SOD and EROD,as well as HSI in tilapia may be used as the biomarkers or indexes for evaluating or monitoring the pollution of polycyclic aromatic hydrocarbons (PAHs) such as Phe.