菌源对多环芳烃降解菌的筛选及降解性能的影响

高效降解菌的筛选对利用生物修复技术有效去除环境中的多环芳烃具有重要意义。分别以石油污染土壤和焦化废水活性污泥为菌源,分离出芘降解菌和混合PAHs(菲、荧蒽和芘)降解菌共14株并对其降解性能进行对比研究。结果表明,筛选得到的菌株分别属于9个菌属,其中2种菌源共有的菌属为Mycobacterium sp.、Ralstonia sp.和Shinella sp.。芘和PAHs的高效降解菌(CP16和CM32)均属于分支杆菌属(Mycobacterium),来源于焦化废水活性污泥;菌株CP16对芘(50mg/L)的7 d降解率为74.99%,CM32对PAHs(菲50 mg/L、荧蒽和芘各10 mg/L)的7 d降解率为100%。因此,以焦化废水活性污泥为菌源更有利于获得高效的多环芳烃降解菌。     

白腐菌P.sordida YK-624及其锰过氧化物酶对2-氯酚的转化

利用白腐菌P.sordida YK-624和产自该菌株的锰过氧化物酶(MnP)处理2-氯酚(2-CP).结果表明,当2-CP质量浓度为50mg/L时,培养5d, P.sordida YK-624能降解50.42%的2-CP;采用300 U的MnP处理150mg/L的2-CP, 24h时2-CP降解率可达75.00%.利用紫外-可见分光光度计、红外光谱仪和高效液相色谱仪对MnP处理过程中的产物进行了分析,表明MnP氧化2-CP过程中有多种产物生成,可能的产物包括醌类和聚合产物.     

石油污染土壤中芘高效降解菌群的筛选及降解特性研究

从长期受石油污染土壤中驯化筛选到能以芘为惟一碳源生长的混合菌群GP3,其主要由假单胞菌株GP3A(Pseudomonas sp.)和菌株GP3B(Pandoraea pnomenusa)组成.采用摇瓶振荡培养方法,研究了不同环境条件对混合菌GP3降解芘效能的影响.结果表明,在30℃,150 r/min振荡培养下,混合菌GP3对15 mg/L芘的7 d降解率为90.6%.混合菌GP3降解芘的最适宜温度为35℃,最佳pH值为6.2.加入低浓度葡萄糖(100 mg/L)或菲(10 mg/L)作为共代谢底物,均可提高GP3对芘的降解率.混合菌对芘的降解速率(PDR)与芘的初始浓度呈正相关.研究重金属离子胁迫下GP3对芘的降解时发现,10 ms/L Zn2 的存在对芘降解效能影响较小,Cu2 对芘的降解有抑制作用,Cd2 对混合菌GP3有很强的毒性.     

不同培养条件下锰过氧化物酶(MnP)的合成及其对甲基橙的降解

高效、大规模、低成本合成木质素降解酶是直接采用其降解难降解有机污染物所必须解决的问题.对锰过氧化物酶(MnP)降解甲基橙和在非灭菌的反应器中连续合成MnP的可行性进行考察.结果表明,在采用2 mmol H2O2和1.5 mmol MnSO4的降解体系中,获最大脱色效果,且100、200和300 U/L的MnP可在8h内将甲基橙分别脱色18％、23％和35％;在非灭菌的反应器水平上实现了固定化培养的P.chrysosporium连续23 d合成MnP,但MnP酶活仅为2～ 23 U/L,难以酶解甲基橙;然而,在摇瓶培养条件下固定化的P.chrysosporium合成的MnP却能达1 152 U/L.因此,直接采用MnP对污染物进行降解以及在非灭菌的反应器中持续合成MnP是可行的,但就在非灭菌条件下如何提高MnP的合成量还有待开展深入的研究.     

修复PAHs复合污染体系的高效菌群构建及降解特性

从污染环境分离和筛选得到了9株PAHs降解菌,以其为基本菌种,构建高效修复PAHs复合污染体系的菌群(D)。采用平板稀释涂布计数法对降解体系中菌群(D)的动态结构进行了解析,数据显示菌群内的微生物在降解过程中能相互协作,发挥稳定且高效的降解作用。实验进一步研究了菌群D对单一PAH和混合PAHs的降解特性,结果表明,无论对单一PAH还是混合PAHs,菌群D均具有较强的降解能力。当降解历时6 d,菌群D能使40 mg/L的单一PAH平均降解85.8%,使60 mg/L的混合PAHs平均去除89.4%。菌群D在多环芳烃复合污染体系的生物修复方面具有潜在的应用价值。     

一株有机浮选药剂--黄原酸盐降解菌的特性研究

从矿山废水中经富集分离到一株能以黄原酸盐为惟一碳源的黄原酸盐降解菌,初步鉴定为铜绿假单胞菌属.菌株降解黄原酸盐的最佳条件为:pH为8,温度30℃,振荡速率120 r/min.当黄原酸盐浓度达到1500 mg/L时,24 h后浓度降解率为95.7%,COD去除率为84.7%.黄原酸盐浓度越高,COD去除率越高.当加入0.2 g/L的葡萄糖时可大大提高菌对黄原酸盐的降解率.     

天然沸石负载La2O3-ZnO-TiO2光催化降解活性艳红K-2BP

利用80目天然斜发沸石作载体制备La2O3(0.5%)-ZnO(20%)-TiO2/沸石复合光催化剂,以20 W紫外灯为光源,在自制的光催化反应器中降解活性艳红K-2BP,考察了光照时问、空气通入量、催化剂用最、溶液初始浓度、H2O2与Fe3 投加量等对活性艳红K-2BP光催化降解率的影响.结果表明,当溶液初始浓度为60 mg/L,催化剂投加量为12 g/L,通气量为1 200 mL/min,光照2.5 h,活性艳红K-2BP的降解率可达99.2%;H2O2和Fe3投加量为4 mL/L和3 g/L时,光照1 h活性艳红K-2BP降解率分别为100%和97.2%.紫外-可见吸收光谱显示,LZTZ光催化剂町有效降解印染废水.     

多环芳烃降解菌的筛选及其在焦化场地污染土壤修复中的应用

经过富集、分离和纯化,从沈阳某焦化厂多环芳烃(PAHs)污染土壤中获得7株菌株B1~B7。通过初步降解实验和血平板实验,发现B4、B5、B7在15d时对PAHs总降解率均高于40%,为高效PAHs降解菌,B2为高效表面活性剂产生菌。将B4、B5、B7分别与B2等质量混合后对PAHs进行降解,发现添加B2可提高PAHs总降解率,B4+B2对PAHs的总降解率最大,在9d时平均值达到45.9%。经形态观察和16SrRNA基因序列比对,鉴定B2和B4分别归为假单胞菌属(Pseudomonas sp.)和芽孢杆菌属(Bacillus sp.)。接种B4+B2进行微生物修复实验,结果表明,接种B4+B2对PAHs污染土壤的微生物修复有明显的强化作用,在60d时PAHs总降解率达到48.1%;接种B4+B2对中环(4、5环)PAHs降解率的提高尤为明显,7种中环PAHs的平均降解率比不接种菌株的对照组提高29.6百分点。     

TS-1分子筛催化O3/H2O2氧化乙酸

研究了酸性条件下TS-1分子筛催化O3/H2O2体系(O3/H2O2/TS-1)对降解水中乙酸效率的影响,优化了相关工艺参数,并对其作用机理进行了分析。结果表明,在pH为2.8时,TS-1的加入能显著提高臭氧化的降解效率。优化工艺参数表明,当过氧化氢投加量为3 g/L,TS-1投加量为5 g/L时,O3/H2O2/TS-1体系对乙酸具有较高的降解率,60 min后O3/H2 O2/TS-1体系对乙酸(初始浓度为100 mg/L)的去除率达到了58.7%。当pH为0.8时,O3/H2 O2/TS-1体系对乙酸的去除率仅为19.8%,降解效果较差。定量化计算表明,O3/H2O2和O3/H2O2/TS-1的Rct分别为1.62×10-8和8.67×10-7。通过测定乙酸降解过程水样中过氧化氢和液相臭氧的浓度变化,推测了具体反应机理。由于此体系在酸性条件下对乙酸有较好的降解效果,拓宽了现有O3/H2O2体系的应用范围。     

修复 PAHs 复合污染体系的高效菌群构建及降解特性简

从污染环境分离和筛选得到了9株PAHs降解菌，以其为基本菌种，构建高效修复PAHs复合污染体系的菌群（D）。采用平板稀释涂布计数法对降解体系中菌群（D）的动态结构进行了解析，数据显示菌群内的微生物在降解过程中能相互协作，发挥稳定且高效的降解作用。实验进一步研究了菌群D对单一PAH和混合PAHs的降解特性，结果表明，无论对单一PAH还是混合PAHs，菌群D均具有较强的降解能力。当降解历时6 d，菌群D能使40 mg/L的单一PAH平均降解85.8%，使60 mg/L的混合PAHs平均去除89.4%。菌群D在多环芳烃复合污染体系的生物修复方面具有潜在的应用价值。     

Analytical Problems Posed by Pollution by Fluorine Compounds

The author sets forth the analytical problems posed by fluoride pollution and makes a critical study of the methods which are being used. He reports on the results that have been discovered over several years of investigation.     

Environmental pollution by antibiotics and by antibiotic resistance determinants

Antibiotics are among the most successful drugs used for human therapy. However, since they can challenge microbial populations, they must be considered as important pollutants as well. Besides being used for human therapy, antibiotics are extensively used for animal farming and for agricultural purposes. Residues from human environments and from farms may contain antibiotics and antibiotic resistance genes that can contaminate natural environments. The clearest consequence of antibiotic release in natural environments is the selection of resistant bacteria. The same resistance genes found at clinical settings are currently disseminated among pristine ecosystems without any record of antibiotic contamination. Nevertheless, the effect of antibiotics on the biosphere is wider than this and can impact the structure and activity of environmental microbiota. Along the article, we review the impact that pollution by antibiotics or by antibiotic resistance genes may have for both human health and for the evolution of environmental microbial populations.     

真空紫外光降解五氯酚钠以及过硫酸盐对反应的促进作用

研究了真空紫外光(VUV,185 am)对于水溶液中五氯酚钠的降解,反应2 h后,初始浓度为10 mg/L的五氯酚钠的去除率达到99%以上,有机氯的脱除率达到70%以上,有效地实现了五氯酚钠的脱毒.溶液初始pH值对五氯酚钠的真空紫外光解有很大影响,pH=10.9时的降解速率常数是pH=3.1时的3倍.表观一级反应速率常数随初始浓度的增加而线性下降.在反应溶液中加入过硫酸盐,可有效提高五氯酚钠的真空紫外光降解速率和矿化速率,过硫酸盐和五氯酚钠摩尔比为24时,降解速率提高3倍,反应4 h后TOC去除率达到95%.     

Absorption of selenium by Lactuca sativa as affected by carboxymethylcellulose

Several organic compounds of high molecular weight present in soil interact with selenium and may act as active binding agents affecting its availability in soil, and, consequently, selenium uptake by plants. This study is aimed at investigating the effects of polysaccharides on selenium speciation in soil and on selenium absorption by Lactuca sativa L. plants. Three-week-old seedlings were transplanted into pots filled with soil, and sodium selenite at rates of 1.5 and 5mgSekg(-1) of soil, or sodium selenate at a rate of 1.5mgSekg(-1) of soil were applied. Carboxymethylcellulose (CMC) was added to the soil at rates of 0, 3 and 30mgkg(-1) of soil. After 48 and 110d from transplanting plants were harvested, separated into root and shoot, and fresh and dry matter weights were recorded. Total selenium was determined in both soil and plant samples. A sequential extraction was used to investigate the different Se oxidation states and assess the availability of Se in soil after the final harvesting. Both selenite and selenate were absorbed by roots, but plants amended with Se(VI+) showed higher selenium concentration than plants amended with Se(IV+). Selenite appears to be less mobile than selenate both in soil and plants. The addition of carboxymethylcellulose to soil decreased the amount of selenium absorbed by plants. CMC interacted with Se, making it less mobile as evidenced by the increase in the insoluble fractions. The insoluble Se forms in soil may represent environmental Se sinks potentially available for plants if the substrate is re-used for subsequent growth cycles and selenium species are mobilized as a result of biological and chemical processes.     

亚铁离子活化过硫酸氢钾复合盐降解水溶液中萘普生

在不同pH值、Fe2浓度和过硫酸氢钾复合盐(PMS)浓度下,探究降解萘普生(NPX)的最佳条件,并通过分批投加Fe2+和改变投加顺序的方式,提高降解NPX的效率.结果表明,NPX在pH =3的条件下,降解效果最好;Fe2+浓度改变时,PMS/Fe2+/NPX=1/0.75/1条件下,NPX去除率最高;分批投加Fe2+和先投加Fe2+均可大幅提高NPX去除率.缓慢少量的产生硫酸根自由基(SO4--)更利于处理有机物,Fe2+的浓度则在产生自由基方面起着重要作用.     

Treatment of phenolic wastewater by horseradish peroxidase immobilized by bioaffinity layering

Horseradish peroxidase was immobilized by bioaffinity layering and used for the treatment of wastewater containing p-chlorophenol. For this purpose, lectin Concanavalin A was bound to Sephadex beads. The glycoenzyme peroxidase was layered upon this Con A layer. Subsequently, alternate layers of the enzyme and Con A were applied. The most efficient design consisted of three layers of Con A and peroxidase each. This immobilized enzyme preparation retained 80% of the activity of the free peroxidase used for immobilization. PEG at the concentration of 0.1 mg ml(-1) was found to prevent enzyme inactivation by the products, although it increased the process time. Thus 60 U ml(-1) of enzyme completely converted the p-chlorophenol (into products) in 4 min in the absence of PEG. On the other hand, only 0.05 U ml(-1) of enzyme was required for this purpose in the presence of PEG but the process required 60 min. Peroxidase converts phenol molecules into free radicals. These free radicals then polymerize and get precipitated. As a further means of minimizing exposure of the enzyme to free radicals and enhancing the reusability, it was decided to remove the enzyme from reaction medium after 10 min. With this strategy, the bioaffinity layered peroxidase preparation could be reused five times without any loss of activity.     

Effect of soil sterilization by mercuric chloride on herbicide sorption by soil

Microbial inhibitors such as mercuric chloride are frequently used to sterilize soil or soil-water slurries in experimental studies on the fate of xenobiotics in the environment. This study examined the influence of mercuric chloride additions to soil-water slurries on the sorptive behaviour of a phenoxy herbicide (2,4-D) in soil. The results demonstrated that mercuric chloride strongly decreased the capacity of the soil to retain herbicides, and that the interference of mercuric chloride with herbicide sorption increased with increasing soil organic carbon contents. Because of the competitive sorption between mercuric chloride and the phenoxy herbicide, we conclude that mercuric chloride may not be a good soil sterilization procedure for use in xenobiotic fate studies.     

海藻酸钠固化香蕉皮粉吸附染料废水

利用海藻酸钠固化农业废弃物-香蕉皮粉制备成吸附剂,以甲基紫为例,对有机染料废水进行吸附研究,考察吸附时间,温度和甲基紫/吸附剂用量比对吸附的影响。实验结果表明,该吸附剂能有效地吸附掉溶液中的甲基紫,其吸附率随温度的增加而下降,最佳吸附时间为2 h,甲基紫/吸附剂的最佳用量比为1∶5。在25℃、pH 7、甲基紫起始浓度10 mg/L,吸附剂浓度50 mg/L的条件下,吸附2 h,吸附率为92.64%,吸附量为185.3 mg/g。研究了相应的Langmuir、Freundlich吸附等温线和准一级、准二级动力学方程,结果表明甲基紫的吸附动力学数据与Freundlich吸附等温线和准二级动力学方程有更好的相关性,同时该吸附剂具有较好的重复利用率。