Dimethyl phthalate biodegradation by Dunaliella tertiolecta

ＤｉｍｅｔｈｙｌｐｈｔｈａｌａｔｅｂｉｏｄｅｇｒａｄａｔｉｏｎｂｙＤｕｎａｌｉｅｌａｔｅｒｔｉｏｌｅｃｔａＹａｎＨａｉ，ＬｉｕＹｕｎｘｉａＲｅｓｅａｒｃｈＣｅｎｔｅｒｆｏｒＥｃｏＥｎｖｉｒｏｎｍｅｎｔａｌＳｃｉｅｎｃｅｓ，ＣｈｉｎｅｓｅＡｃａｄ...     

斜生栅藻降解邻苯二甲酸二甲酯和苯胺的动力学研究

斜生栅藻降解邻苯二甲酸二甲酯和苯胺的动力学研究阎海雷志芳叶常明（中国科学院生态环境研究中心，北京１０００８５）关键词斜生栅藻；邻苯二甲酸二甲酯；苯胺；降解动力学邻苯二甲酸酯类是广泛使用的人工合成有机物，主要作为塑料和橡胶等化工产品的增塑剂，我国和...     

Activated sludge-mediated biodegradation of dimethyl phthalate under fermentative conditions

The biodegradation of dimethyl phthalate(DMP)was investigated under fermentative conditions in this study.The nature of the intermediate compounds and the extent of mineralization were probed using high-pressure liquid chromatography(HPLC)and liquid chromatography-mass spectrometry(LC-MS)methods.The fermentative bacteria were able to biodegrade the DMP under anaerobic conditions,with the biodegradation rate of 0.36 mg DMP/(L·h).The results demonstrated that the DMP degradation under fermentative conditio...     

Anoxic biodegradation of dimethyl phthalate （DMP） by activated sludge cultures under nitrate-reducing conditions

Worldwide extensive use of plasticized plastics has resulted in phthalates pollution in different environment. Nitrates from industry and agriculture are also widely disseminated in the soils, natural waters and wastewaters. Dimethyl phthalate (DMP) biodegradation by activated sludge cultures under nitrate-reducing conditions was investigated. Under one optimized condition, DMP was biodegraded from 102.20 mg/L to undetectable level in 56 h under anoxic conditions and its reaction fitted well with the first-order kinetics. Using the high-performance liquid chromatography (HPLC) and liquid chromatography mass spectrometry (LC-MS) analysis, mono-methyl phthalate (MMP) and phthalic acid (PA) were detected as the major intermediates of DMP biodegradation. When combined with the determination of chemical oxygen demand (CODCr) removal capacity and pH, DMP was found to be mineralized completely under anoxic conditions. The biodegradation pathway was proposed as DMP → MMP → PA → … → CO2 H2O.The molar ratio of DMP to nitrate consumed was found to be 9.0:1, which agrees well with the theoretical stoichiometric values of DMP biodegradation by nitrate-reducing bacteria. The results of the non-linear simulation showed that the optimum pH and temperature for the degradation were 7.56 and 31.4℃, respectively.     

微囊藻毒素降解菌的分子鉴定和特性研究

在成功筛选出1株能够降解微囊藻毒素(Microcystins,MCs)菌株的基础上,利用16S rDNA的PCR扩增和序列分析对其进行了分子鉴定。由BLAST序列比对及进化树分析可将该菌株定属至鞘氨醇单胞菌USTB-01(Sphingopyxissp.USTB-01),这是我国首次筛选出高效降解MCs的鞘氨醇单胞菌。在鞘氨醇单胞菌USTB-01降解MC-RR和MC-LR活性研究方面发现,温度30℃和pH7.0条件下该菌降解MCs的速率最大,日均降解MC-RR和MC-LR分别达到了23.4mg/L和7.9mg/L,在进一步去除水体中的MCs的基础和应用研究方面都具有非常重要的意义。     

邻苯二甲酸二甲酯对植物-活性污泥复合系统的影响及其去除研究

为探索植物-活性污泥复合系统(vegetation-activated sludge process,V-ASP)对邻苯二甲酸二甲酯(dimethyl phthalate,DMP)的去除效果,设置了50 mg/L、5 mg/L、500 μg/L、50 μg/L、0 μg/L 5个进水浓度梯度的DMP,考察V-ASP中常规污染物出水浓度、植物和微生物菌群的变化,以及其对DMP的去除作用。结果表明:DMP对V-ASP去除常规污染物的影响不大,仅在DMP浓度≥500 μg/L时可提升V-ASP对TN的去除效果。进水浓度DMP为50 mg/L、5 mg/L、500 μg/L和50 μg/L时在V-ASP中的去除率分别为99.97%、99.51%、94.19%和83.68%。DMP在V-ASP中的主要去除途径为微生物分解代谢,植物吸收占比不超过1.12%。当进水DMP浓度达到5 mg/L时,V-ASP中植物生长受到明显抑制。高通量测序结果显示,DMP会对V-ASP中活性污泥和根际污泥的微生物多样性产生一定影响。微生物群落中Proteobacteria(变形菌门)的相对丰度最高,Rhodococcus(红球菌属)的相对丰度随DMP浓度的升高而增加。     

干旱区城市邻苯二甲酸酯湿沉降及其环境意义

本文以新疆昌吉市为研究区,选择2012年6月至2012年12月期间的12场次降水进行采集,利用气相色谱法测定样品中主要PAEs,以对干旱区城市大气邻苯二甲酸脂湿沉降进行初步探讨。研究表明:大气湿沉降中DBP的含量最高,其次是DEHP,DMP与DEP含量较低;DEHP、DBP、DMP以及DEP在雨沉降中平均含量分别为0.10(0.07~0.13)mg/L、0.32(0.03~0.93)mg/L、0.004(未检出~0.02)mg/L、0.006(未检出~0.05)mg/L;在雪沉降中平均含量分别为0.04(0.008~0.13)mg/L、0.13(0.05~0.40)mg/L、0.002(未检出~0.005)mg/L、0.08(未检出~0.04)mg/L。昌吉市湿沉降中PAEs含量远超出《地表水环境质量标准》,也超出了城市生活污水与工业污水,说明其存在较大的环境风险。PAEs的湿沉降具有较为明显的季节变化,雪沉降(冬季)中PAEs含量普遍低于雨沉降(其他季节),人类在室外生产、生活活动的季节变化及气温对PAE挥发的影响是主要原因。计算结果显示,大气湿沉降每年向昌吉市城区地表环境输入DBP、DEHP、DMP、DEP分别达到1994.28、652.69、27.14、57.86kg,输入的上述4种PAEs总和达到2731.97kg。     

蛋白核小球藻与DEP的相互作用

运用评价化学品对藻类毒性的标准实验方法,得出邻苯二甲酸二乙酯抑制蛋白核小球藻生长的９６ｈＥＣ５０为８０ｍｇ／Ｌ。实验结果表明,蛋白核小球藻对ＥＤＰ有明显的富集与降解作用,富集量和浓缩系数（ＢＣＦ）都在１２ｈ达到最大,分别为９．８ｍｇ／ｇ和２０５。此后富集量随时间的延长而逐渐降低,９６ｈ降到１．８ｍｇ／ｇ。ＢＣＦ在７２ｈ内也随时间的延长而逐渐减小,并在７２ｈ降到最小８０,７２ｈ以后又随时间的延长而升     

降解微囊藻毒素菌种的筛选和活性研究

研究了滇池底泥和表层水体中的微生物菌群降解微囊藻毒素(Microcystins, MCs)的能力差异,发现底泥中的微生物菌群对MCs有更强的生物降解能力.采用从滇池水华蓝藻细胞中提取提纯的微囊藻毒素作为微生物生长的唯一碳源和氮源,先后经过液体和固体培养基培养后,通过挑取单克隆菌落,分别从底泥中筛选出了能够降解MC-RR和LR的5种不同微生物菌种.其中筛选的菌种D降解MCs的能力最强,在3 d内可将初始浓度分别为60.1 mg·L^-1和38.7 mg·L^-1的MC-RR和LR全部降解,日均降解MC-RR和LR的速率分别高达20.0 mg·L^-1和12.9 mg·L^-1.     

单歧藻富集和降解烷基酚类化合物的动力学过程

选择单歧藻(Tolypothrix)研究其对苯酚、邻甲酚、间甲酚和4-辛基酚的生物富集过程及生物降解动力学。5d内单歧藻的生长经历了停滞期、对数期、静止期3个阶段;苯酚、邻甲酚、间甲酚、4-辛基酚的生物富集因子(BCF)平均值为4 59,3 87,5 82,292 48,与KOW值线性相关;单歧藻平均每天降解苯酚、邻甲酚、间甲酚、4-辛基酚分别为2 54,3 17,1 84,0 16mg L;用新近提出的二级反应动力学方程拟合其降解过程,得到它们的生物降解二次动力学常数K分别为0 386,0 500,0 254,0 023,K值由污染物的初始浓度决定并与分子量(M)线性相关,K=-0 003M+0 69,R=0 87,N=4。      

6种挥发性有机物在甲苯驯化微生物中的好氧生物降解性能

利用振荡摇瓶法测定了6种典型挥发性有机物,甲苯、邻二甲苯、间二甲苯、对二甲苯、苯和氯苯在甲苯驯化微生物中的好氧生物降解性能.结果表明,在本研究的液相浓度范围内(甲苯＜174mg/L,邻二甲苯＜149mg/L,间二甲苯＜129mg/L,对二甲苯＜133mg/L,苯＜234mg/L,氯苯＜146mg/L),3种二甲苯、苯和氯苯的降解速率随其初始浓度的增大而增加,符合一级反应,这5种VOCs未对微生物产生明显的抑制或毒害作用;甲苯的液相浓度大于85mg/L时,其降解速率不随初始浓度的增大而改变,其降解规律符合Monod方程.     

颗粒活性炭对水中邻苯二甲酸二甲酯的吸附特性

研究了颗粒活性炭(GAC)对水中邻苯二甲酸二甲酯(DMP)的静态与动态吸附特性.结果表明,Freundlich和Langmuir等温线模型可以较好的拟合GAC对DMP的吸附.GAC对DMP的吸附容量较大,溶液初始浓度为200mg/L时,GAC对DMP的动态和最大静态吸附容量分别为484.60,450.89mg/g.考察了不同流速条件下(0.65～4.00mL/min)GAC吸附DMP的穿透特性,Yoon-Nelson模型能很好地拟合DMP在GAC柱中的穿透曲线,根据试验数据和Yoon-Nelson模型计算出穿透参数K′、T和穿透点t1以及平衡点t2.在建立了进水流量与Yoon-Nelson穿透模型的参数之间的关系基础上,得到了活性炭柱出水浓度与进水流量和穿透时间之间的动态关系模型.     

鞘氨醇单胞菌USTB-05对微囊藻毒素的生物降解

研究了云南滇池水华蓝藻细胞中微囊藻毒素(MCs)的分析和鞘氨醇单胞菌USTB-05在细胞水平和酶水平下对MC-YR、RR和LR的生物降解.结果表明,云南滇池水华蓝藻细胞中MC-YR、RR和LR的含量分别为0.16, 0.96, 0.47mg/g.在初始浓度分别为19.5mg/L MC-YR、79.5mg/L MC-RR和43.6mg/L MC-LR下,鞘氨醇单胞菌USTB-05在2d内可将上述3种MCs全部降解,鞘氨醇单胞菌USTB-05粗酶液可以以更快的速率对MC-YR、MC-RR和MC-LR进行高效酶催化降解,在10h内可以将初始浓度分别为14.8mg/L MC-YR、28.4mg/L MC-RR和19.5mg/L MC-LR全部降解.同时发现了MC-YR降解过程中的2个中间和1个最终代谢产物.     

邻苯二甲酸酯的摇瓶生物降解规律研究

用好氧活性污泥对 9种邻苯二甲酸酯进行了摇瓶生物降解研究 ,结果表明 ,邻苯二甲酸酯的摇瓶降解速率符合一级动力学 ,速率常数 (kb)与化合物的分子结构之间存在相关关系 ,其表达式为lnkb=0 0 2 6 2x2 - 0 6 6 7x +2 15 2 (r =0 976 ) ;降解半衰期与烷基链之间也存在相关性 ,表达式为t1 2 =0 0 391x2 +0 0 95 3x - 0 0 2 5 9(r=0 972 ) .邻苯二甲酸二甲酯 (DMP)浓度超过 6 0mg·L-1时 ,其自身降解速率下降 ,邻苯二甲酸盐浓度超过 5 0 0mg·L-1时 ,对邻苯二甲酸二乙酯 (DEP)的降解有抑制作用     

以吲哚为燃料的微生物燃料电池降解和产电特性

以铁氰化钾为电子受体,在两极阴阳室内使用碳毛刷纤维为电极材料构建了循环式微生物燃料电池(MFC),研究了以吲哚为单一燃料和吲哚+葡萄糖为混合燃料条件下MFC的产电特性以及对吲哚和COD的去除效果.结果表明,以1000mg/L葡萄糖+250mg/L吲哚为混合燃料时,MFC的最高电压和最大功率密度分别为660mV和51.2W/m3(阳极),MFC运行10h对吲哚和COD的去除率分别为100%和89.5%;分别以250,500mg/L吲哚为单一燃料时,MFC的平均最高电压分别为115,118mV,最大功率密度分别为2.1,2.3W/m3(阳极).在MFC中,250,500mg/L吲哚被完全降解的时间分别为6,30h.MFC能够利用吲哚为燃料,在实现高效降解吲哚的同时对外产生电能,可用于处理含有毒且难降解有机物的焦化工业废水.     

Enhanced anaerobic biodegradability of real coal gasification wastewater with methanol addition

Coal gasification effluent is a typical refractory industrial wastewater with a very poor anaerobic biodegradability due to its toxicity.Methanol was introduced to improve anaerobic biodegradability of real coal gasification wastewater,and the effect of methanol addition on the performance was investigated in a mesophilic upflow anaerobic sludge bed reactor with a hydraulic retention time of 24 hr.Experimental results indicated that anaerobic treatment of coal gasification wastewater was feasible with the addition of methanol.The corresponding maximum COD and phenol removal rates were 71% and 75%,respectively,with methanol concentration of 500 mg COD/L for a total organic loading rate of 3.5 kg COD/(m3 ·day) and a phenol loading rate of 0.6 kg/(m3 ·day).The phenol removal rate was not improved with a higher methanol concentration of 1000 mg COD/L.Substrate utilization rate (SUR) tests indicated that the SURs of phenol were 106,132,and 83 mg phenol/(g VSS·day) at methanol concentrations of 250,500,and 1000 mg COD/L,respectively,and only 45 mg phenol/(g VSS·day) in the control reactor.The presence of methanol could reduce the toxicity of coal gasification wastewater and increase the biodegradation of phenolic compounds.     

小球藻对新杀虫剂HNPC-A9908的富集与降解

HNPC-A9908[O-(3-苯氧苄基)-2-甲硫基-1-(4-氯苯基)丙基酮肟醚]是国家南方农药创制中心湖南基地研制成功的具有自主知识产权的一种新型杀虫剂.作者研究了蛋白核小球藻对HNPC-A9908的富集与降解.结果表明,蛋白核小球藻具有降解HNPC-A9908的能力,在20,100,400mg/L的浓度下,5d内HNPC-A9908的降解率分别为90.50%、66.02%和43.19%,日平均降解速率分别为3.60,13.20,34.55mg/L,其降解动力学方程可用二级反应动力学方程很好地拟合,拟合度达到83%以上.此外,蛋白核小球藻对HNPC-A9908也具有一定的富集能力,当浓度为20,100,400mg/L时达到最大富集的时间分别为24,48,48h,富集量分别为11.58,15.15,16.42mg/gFW,此后随时间的延长而逐步降低.     

某石油污染含水层降解能力地球化学评估

含水层降解能力是石油类污染场地监控自然衰减需获取的重要参数.通过测定某石油污染场地地下水电子供体（苯系物、化学耗氧量）和电子受体/产物（DO、NO₃^-、Mn²⁺、Fe²⁺、SO₄^2-和HCO₃^-）等地球化学指标,分析了电子供受体分布规律,确定了电子受体背景值,采用传统地球化学评估法,计算了所有单井降解能力;在此基础上,引入累积概率曲线法,更科学的评估了场地含水层降解能力,结合地下水更新能力,估算了污染物降解速率;同时,划分了含水层降解能力强弱区.结果显示：该场地单井降解能力为36.49~70.05mg/L,其累积概率拟合曲线符合F（x）=0.008e^0.07x指数模型,以此评估含水层降解能力为57.83mg/L.以径流量132m³/d估算地下水更新能力,估算污染物降解速率为2790kg/a;强降解能力区位于下游源区,面积约为5100m²,占场地总面积的5.3%;地下水中硫酸盐、硝酸盐消耗严重,强化硫酸盐还原和反硝化作用可能是该场地管理修复的一个有效方法.     

Toxicity of the xenoestrogen nonylphenol and its biodegradation by the alga Cyclotella caspia

Alkylphenols (APs), the breakdown products of alkylphenol polyethoxylates that are widely used as surfactants, have been proven to exert estrogenic effects. With industrial development, higher concentrations of APs are discharged into aquatic environments. Nonylphenol (NP), the most noxious AP, is included in the blacklist of several countries. The toxicity of NP to the alga Cyclotella caspia and the biodegradation of NP by C. caspia were studied in the laboratory. The median effective concentration at 96 hr (96 hr EC50 ) of NP for C. caspia was found to be 0.18 mg/L. Five toxicity and three degradation indices were selected for toxicity and biodegradation experiments, respectively, in five or three concentrations of NP set by the 96 hr EC50 of NP. The algal growth rate and chlorophyll a contents decreased as NP concentration increased. The main manifestations of morphological deformity of the cells included volume expansion and the presence of cytoplasmic inclusions (lipid droplets). The abnormality rate of the cells increased with NP concentration and time, and was 100% at 0.22 and 0.26 mg/L of NP after 192 hr of culture. Superoxide dismutase activity initially increased and then declined at a higher NP toxicity of greater than 0.18 mg/L. After 192 hr of culture, the biodegradation rates of NP by C. caspia with initial concentrations of 0.14, 0.18, and 0.22 mg/L were 37.7%, 31.7%, and 6.5%, respectively. The kinetic equation of C. caspia biodegradation on NP was correlated with algal growth rate and initial NP concentration.     

Biodegradation of geosmin in drinking water by novel bacteria isolated from biologically active carbon

Three strains of Gram-negative bacteria capable of removing geosmin from drinking water were isolated from biologically active carbon and identified to be Chryseobacterium sp., Sinorhizobium sp. and Stenotrophomonas sp. based on physio-biochemistry analysis and 16S rRNA gene sequence analysis. Removal e ciencies of 2 mg/L geosmin in mineral salts medium were 84.0%, 80.2% and 74.4% for Chryseobacterium sp., Sinorhizobium sp. and Stenotrophomonas sp., respectively, while removal e ciencies of 560 ng/L geosmin in filter influent were 84.8%, 82.3% and 82.5%, respectively. The biodegradation of geosmin was determined to be a pseudo first-order reaction, with rate constants at 2 mg/L and 560 ng/L being 0.097 and 0.086 day??1, 0.089 and 0.084 day??1, 0.074 and 0.098 day??1 for the above mentioned degraders, respectively. The biomass of culture in the presence of geosmin was much higher than that in the absence of geosmin.