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1.
张士灌区细河流域地下水及土壤中有机污染严重,其中多环芳烃菲超标。从研究区污染土壤中取土著微生物,控制实验条件与研究区潜水环境一致,通过实验室选择性富集培养分离出20株以菲为唯一碳源和能源的细菌。经降解实验,在温度为10℃、pH值为7.5的环境条件下筛选出1株在9天内对菲(50mg/L)的降解率达到85%以上的菌株BC。该菌株在温度为5~30℃,pH为6.0~9.0条件下15天内对菲的降解率可达到96%以上。研究结果为张士污灌区及相似地区地下水和土壤环境中菲的原位生物降解法的应用提供了技术依据。 相似文献
2.
为了探究热活化过硫酸盐(PS)技术对水中氧氟沙星(OFX)的氧化降解作用,考察了反应温度、体系的初始pH、PS的初始浓度、OFX的初始浓度对OFX降解效果的影响;并在单因素实验的基础上,选取反应时间、体系的初始pH、PS的初始浓度和OFX的初始浓度4个因素进行了响应面优化实验。结果表明:最佳降解条件为,反应温度60℃、PS初始浓度4.0 mmol/L、pH=4.7、OFX初始浓度0.03 mmol/L、反应时间60 min,此时OFX的降解率为81.29%;4个因素对热活化PS降解OFX均有影响,其影响显著性从大到小为反应时间、OFX的初始浓度、PS的初始浓度、初始pH。利用响应曲面法模拟出反应体系的最佳条件,经实验验证,OFX降解率为93.78%,与预测最佳结果95.00%基本相符,表明模型可靠有效。 相似文献
3.
从长期受硝基苯严重污染场地中筛选出一株以硝基苯为唯一碳源和氮源的降解菌,命名为ZG。对ZG 进行了16S rDNA 和nbzA 基因克隆与序列分析,并研究了该菌的降解特性。结果表明,ZG 菌为革兰氏阴性细菌,初步鉴定该菌株为pseudomonas putida。ZG 菌含有nbzA 基因,并且该基因在质粒上,说明该菌降解硝基苯是通过半还原途径。ZG 菌对硝基苯浓度、培养温度、pH 值等外界环境因素具有一定的适用范围,但随着硝基苯浓度升高,硝基苯的降解速率和降解率表现出下降的趋势。在最佳降解条件下,即硝基苯浓度300 mg /L、温度20℃、pH 为7,ZG 菌对硝基苯的降解率达到99. 98%。 ZG 菌可适用于不同的硝基苯污染场地。 相似文献
4.
阿特拉津低温降解菌的筛选及降解机理研究 总被引:1,自引:1,他引:0
以阿特拉津为唯一氮源, 在低温条件下(10℃),从吉林市污水处理厂的活性污泥中分离、筛选出1株能够高效降解地下水中阿特拉津的菌株W4.通过16S rDNA碱基测序和比对,初步确定该菌为假单胞菌属;通过室内降解条件优化,确定W4的最佳降解条件:初始pH范围为7~9,最佳碳源为蔗糖和乳糖,最佳碳源加入量为0.4 g/L.在最佳降解条件下,W4对初始质量浓度为34 mg/L、22 mg/L和10 mg/L的阿特拉津的生物降解反应符合零级反应动力学方程,对初始质量浓度为5 mg/L的阿特拉津的生物降解反应符合一级反应动力学方程.GC/MS分析结果显示,菌株W4降解阿特拉津遵循氯水解途径,代谢产物为2-羟基-4-乙胺基-6-异丙胺基-1,3,5-三嗪. 相似文献
5.
在18℃的低温条件下,从不同菌源中富集、驯化、筛选得到两株高效苯酚降解菌株A4和B14,在转速为150r·min-1、温度为18℃、pH为6~9的条件下,两株菌对苯酚起始浓度为300mg/L的苯酚降解率分别为90.43%和99.02%.在中性条件下,对苯酚起始浓度小于300mg/L的苯酚降解率均保持在98%以上.经形态特征观察及生理生化实验初步鉴定,结果显示,A4为微球菌属,B14为假单胞菌属.对菌株的降解特性研究表明两株菌最适生长的pH值为6~9,A4菌株比B14菌株具有更广泛的pH适应性;菌株对苯酚的降解率随着生物投加量的增加而升高,在投菌量大于5mL·100 mL-1时,苯酚降解率接近100%;两株菌在通气状况良好的条件下,对苯酚的降解率及其生长情况明显优于缺氧条件.通过对比实验,A4菌株对外界环境的适应性明显强于B14,而后者的生长速率明显高于前者. 相似文献
6.
降解多氯联苯嗜盐菌的分离和降解特性 总被引:4,自引:0,他引:4
从深海底泥中提取出生长盐度在15%~20%的十二株嗜盐菌,对其进行分离、纯化和富集,进行了形态观察和革兰氏染色,最终选取了一株生长状态良好的菌株进行降解多氯联苯的影响实验。通过改变菌株降解PCBs的条件——pH值、接种量以及多氯联苯的浓度,得到降解多氯联苯的最适条件:在30℃下此菌株降解的最适pH值为7~8,最佳接种量为5 mL,多氯联苯的浓度为3 mg/L以下时,72 h的降解率可以达到90%以上。 相似文献
7.
采用30 W石英紫外灯作为光源,研究了乐果在二氧化钛悬浮体系中光催化降解反应的动力学规律。考察了乐果起始浓度、TiO2用量、溶液pH值及温度对乐果光催化降解速率的影响,结果表明,乐果光催化降解符合表观零级动力学规律。由于速率常数k与乐果起始浓度有关,表明乐果光催化降解反应不是一个简单的零级反应。 相似文献
8.
采用活性污泥法处理人工味精废水。实验前污泥进行驯化培菌 ,在驯化所得污泥指标适宜情况下 ,再对废水处理。结果表明 ,在曝气时间 12h ,搅拌时间 15min ,温度 2 5℃ ,pH值为 7.0 ,污泥体积为 80 % ,污泥指数为 42 %的工艺条件下 ,此方法对生化处理浓度为 2 0 0 0~ 40 0 0mg·L- 1 的味精废水的主要污染指标CODCr和氨氮都具有较好的降解能力 ,能达到排放标准的要求 相似文献
9.
10.
针对我国东北某石油烃污染场地地下水中的萘污染,筛选出了Acinetobacter和Pseudomonas菌属的高效萘降解菌群。该菌群对萘的耐受性较高,且具有良好的乳化性,能够自动调节细胞表面疏水性和自聚集性。不同pH值、萘初始浓度、温度和菌接种量对萘降解效率的影响研究表明:最适菌群生长的pH范围为7.08.0;萘降解效率和速率在1.005.00 mg/L范围内与其初始浓度成正比;在1030 ℃温度范围内均表现出较高的萘降解效率。在此基础上,利用Guass、GuassAmp、LogNomal、Poisson和Pulse数学模型对萘的降解过程进行拟合,其降解速率更符合GuassAmp模型。通过将降解动力学模型中的常数与影响因素相关联,推导出了拟合度较高的多因素影响下的萘降解动力学方程。 相似文献
11.
J. Reyes-Avila T. Roldán-Carrillo G. Castorena-Cortés I. Zapata-Peñasco P. Olguín-Lora 《International Journal of Environmental Science and Technology》2013,10(3):551-558
Oily sludge from gas processing facilities contains components that are major environmental pollutants. Biodegradation is an alternative treatment, but can be affected by other components of the sludge, such as sulphur compounds, so it is important to evaluate the effect of these on oil biodegradation in order to prevent negative impacts. This work studied the transformation of sulphur compounds in oily sludge biodegradation systems at the microcosm level. The predominant sulphur compounds in the original sludge were elemental sulphur and pyrite (9,776 and 28,705.4 mg kg?1, respectively). In the biodegradability assays, hydrocarbon concentrations decreased from 312,705.6 to 186, 760.3 mg kg?1 after 15 days of treatment. After this time, hydrocarbon degrading activity stopped, corresponding with a decrease in hydrocarbon degrading bacteria. These changes were related to a reduction in pH that inhibits biodegradation. During the assay, sulphur compounds were gradually oxidized and transformed. The concentration of sulphate increased from 5,096 to 64,868.3 mg kg?1 after 30 days in the assay, although controls were unchanged. Therefore, it is important to determine changes to the main compounds of the waste in order to assess their impact. 相似文献
12.
Haniyeh Jalayeri Faramarz Doulati Ardejani Reza Marandi Saeed Rafiee pur 《Arabian Journal of Geosciences》2013,6(10):3847-3852
Phenol is one of the aromatic hydrocarbons. Phenol and its derivatives are highly toxic. These pollutants can be observed in the effluents of many industries. This research investigates the removal of phenol by the use of activated sludge in a batch system. The effects of influencing factors on biodegradation efficiency have been evaluated. The main factors considered in this study were the volume of acclimatized activated sludge inoculation, pH, temperature, and initial concentration of phenol. The inoculation volumes of 1, 3, and 5 mL of acclimatized activated sludge were taken into account. Different pH values of 3, 5, 7, 9, and 11 were examined. The experiments were conducted for temperatures of 25, 30, 35, and 40 °C and initial phenol concentrations of 400, 800, 1,000, and 1,500 ppm. The results show that the acclimatized activated sludge has a high capacity for the removal of phenol. From a 100-mL aqueous solution was removed 1,500 ppm of phenol after 80 h. Furthermore, maximum phenol removal was observed for an inoculation volume of 5 mL for three different phenol concentrations of 100, 400, and 800 ppm. The best pH was 7 for the biodegradation process, and the optimum temperature was 30 °C. It was further found that an increase in the phenol concentration increased its removal time. Moreover, the activated sludge could effectively remove about 99.9 % of phenol from a synthetic aqueous solution in a batch system. 相似文献
13.
Congying Wang Fang Wang Qing Hong Yinping Zhang Fredrick Orori Kengara Zengbo Li Xin Jiang 《Environmental Earth Sciences》2013,70(4):1765-1773
A phenanthrene-degrading strain PHE3, identified as the genus of Sphingobium, was isolated using a two-liquid-phase partitioning bioreactor. More than 96 % of the initial amount (up to 100 mg l?1 silicone oil) of phenanthrene was removed within 77 h by PHE3. Degradation of phenanthrene by PHE3 at pH 7 was also observed in the presence of Cu (II), Zn (II) and Cd (II) ions. Cu (II) showed the highest toxicity to PHE3, followed by Cd (II) and Zn (II). Tolerance to Cu (II) by PHE3 was up to 20 mg l?1 in terms of total aqueous concentration, and up to 40 mg l?1 for both Zn and Cd. Interestingly, 20 mg l?1 of Zn (II) stimulated phenanthrene degradation after 20 h incubation. Its high tolerance to toxic metals and phenanthrene degradation ability of PHE3 highlights its significance in the study of microbial remediation in soils co-polluted by PAHs and metals. 相似文献
14.
1, 3, 5-TMB (trimethylbenzene) has been considered as priority pollutant by several environmental agencies due to its high toxicity, carcinogenicity and mutagenic activity. Two bacteria with ability of degrading 1, 3, 5- TMB were isolated from crude oil contaminated soil. The optimal pH value and temperature for the growth of these bacteria were 7.0 and 30℃. 1, 3, 5- TMB was used as sole carbon and energy source by both strains. Strain A was identified as Staphylococcus sciuri and Strain C was Microbacterium schleiferi, both of which were facultative anaerobic bacteria. 1, 3, 5-TMB was degraded by strain C with efficiency of 41.2±1.8%. The bacteria offered new source for biodegradation of BTEX and bioremediation of oil-contaminated soil and groundwater. 相似文献
15.
Hui Xie Lusheng Zhu Qifeng Xu Jun Wang Wei Liu Jinhui Jiang Yan Meng 《Environmental Earth Sciences》2011,62(1):93-99
A 1,1,1-trichloro-2,2-bis(4-chlorophenyl)ethane (DDT)-degrading bacterium was isolated from soil samples that had been enriched
with DDT over a prolonged period of time; these samples were collected from the sewer sludge of a pesticide factory and from
DDT-contaminated fields. This consortium was acclimated by repeated passage through a mineral salt medium containing increasing
concentrations of DDT. We examined the effects of various factors such as the pH, temperature, concentration of DDT, and the
presence of an additional carbon source on the degradation rate of DDT. Based on the analysis of the phenotype, physiological
and biochemical characteristics, and 16S rDNA, the strain KK was identified to belong to the bacteria Alcaligenes. The results showed that at the end of 10 days, the rate of degradation of DDT by the strain KK was 66.5%. When the additional
carbon source concentration, pH, concentration of DDT, and cultivation temperature is 0.5%, 6, 10 mg l−1, and 30°C, respectively, the biodegradation rate peaks. The results also suggested that (1) bacterial growth increases positively
with an increase in the carbon source concentration; (2) the appropriate pH is between 8.0 and 10.0; and (3) the optimal temperature
and DDT concentration are 30°C and 10 mg l−1, respectively. 相似文献
16.
《Applied Geochemistry》2001,16(11-12):1419-1428
The effect of nonionic surfactants on the solubility and biodegradation of polycyclic aromatic hydrocarbons (PAHs) in the aqueous phase and in the soil slurry phase, as well as the fate of these surfactants, were investigated. The PAH solubility was linearly proportional to the surfactant concentration when above the critical micelle concentration (CMC), and increased as the hydrophile–lipophile balance (HLB) value decreased. Substantial amounts of the sorbed phenanthrene in the soil particles were desorbed by non-ionic surfactants into the liquid phase when the ratio of soil to water was 1:10 (g/ml). Brij 30 was the most biodegradable surfactant tested, showed no substrate inhibition up to a concentration of 1.5 g/l, and was definitely used as a C source by the bacteria. Naphthalene and phenanthrene were completely degraded by phenanthrene-acclimatised cultures within 60 h, but a substantial amount of naphthalene was lost due to volatilization. The limiting step in the soil slurry bioremediation was bioavailability by the micro-organisms for the sand slurry and mass transfer from a solid to aqueous phase in the clay slurry. 相似文献
17.
R. Surkatti M. H. El-Naas 《International Journal of Environmental Science and Technology》2018,15(2):301-308
Phenol and its methylated derivatives, cresol isomers, are hazardous pollutants that are commonly present in various industrial effluents and known to have detrimental effect on aquatic life as well as human health, due to their toxic and carcinogenic nature. It is essential, therefore, to reduce the concentration of these contaminants in industrial effluent to acceptable levels prior to being discharged into the environment. Bacterial cells of the strain Pseudomonas putida, with excellent biodegradation capabilities and high tolerance of cresols, were extracted and immobilized in polyvinyl alcohol (PVA) gel for cresols biodegradation. The biodegradation was carried out at different operating conditions, in both batch and continuous modes, using a cylindrical spouted bed bioreactor. Factors affecting o-cresol and m-cresol degradation were studied in batch experiments, and the results showed that the immobilized bacteria could tolerate cresols concentration up to 200 mg/l. Moreover, the experiments indicated that the biodegradation rate was highly affected by the operating parameters such as pH and temperature, with optimum ranges of 6–8 for pH and 30–35 °C for temperature. However, the optimum conditions were different for each cresol isomer. The potential of P. putida in degrading binary and ternary mixtures of cresols was also examined in the continuous process and compared with single component biodegradation. The experimental results revealed that the biodegradation of o-cresol was highly inhibited by the presence of p-cresol and m-cresol. 相似文献
18.
Hong-Yan Zeng Xiao-Li Cao Long-Bin Xiong Xi-Ling Cai Li-Qun Huang Cun-Ying Zhang Yu-Qin Li 《Environmental Earth Sciences》2014,71(3):1339-1348
Phenol biodegradation in an aerobic batch reactor was investigated using mixed two co-aggregating strains (Flavobacterium sp. and Acetobacter sp.). Response surface methodology by the Box–Behnken model was used to evaluate the optimal cell growth and phenol degradation conditions. The optimum temperature, pH value and inoculum size were found to be 33 °C, 6.06 and 13 %, respectively. In the conditions, phenol degradation rate and biomass were predicted to be 96.97 % and 410.78 mg/L within the range examined, respectively. Less toxic acetaldehyde, ethanol and acetic ether were identified as main intermediate products from the degraded samples using GC–MS. Substrate inhibition was calculated from experimental biomass growth and phenol degradation parameters using the Haldane equation. Kinetic parameters derived from nonlinear regression with correlation factors (R 2) were 0.9682 for phenol degradation and 0.9594 for biomass growth, respectively. The phenol concentration to avoid substrate inhibition was 278.17 mg/L. 相似文献
19.
Biodegradation of Cypermethrin by a newly isolated actinomycetes HU-S-01 from wastewater sludge 总被引:2,自引:1,他引:1
Q. S. Lin Ph.D. S. H. Chen M. Y. Hu M. R. Ul Haq Ph.D. L. Yang H. Li 《International Journal of Environmental Science and Technology》2011,8(1):45-56
A new cypermethrin degrading strain was isolated from wastewater sludge using enrichment technique. On the basis of morphological, physiological, biochemical characteristics tests and 16S rDNA sequence analysis, the strain was determined to be a Streptomyces species, probably a strain of Streptomyces parvulus, so it was designated as Streptomyces sp. HU-S-01. The strain Streptomyces sp. HU-S-01 is aerobic and optimum growth temperature for the strain was found to be 26–28 °C with initial pH range 6.0-9.0 and pH 7.5 was found to be the optimum. This strain can also completely degrade 3-phenoxybenzoic acid within 96 h at the concentration of 50 mg/L. The kinetic constants Vmax, Km, Kcat and Kcat/ Km of enzyme for cypermethrin were 1.236 ?mol/min, 6.418 ?mol/mL, 13.493 min and 2.102 mL/mol.min, respectively. The degradation products of cypermethrin were identified using gas chromatographmass spectrometric (GC-MS) analysis. The degradation pathway followed by HU-S-01 involves oxidative as well as hydrolyzing. Biodegradation ability of strain Streptomyces sp. HU-S-01 without toxic byproducts reveals its potential for further study as a biological agent for the remediation of soil, water or crops, contaminated with cypermethrin. 相似文献
20.
S. Jilani M. Altaf Khan 《International Journal of Environmental Science and Technology》2006,3(4):371-380
The biodegradation of Cypermethrin (20 to 125 mg/L) in an effluent using batch activated sludge was studied. Degradation was found to occur to a great extent only in the presence of Pseudomonas (IES-Ps-1) culture. Under aerobic conditions using mechanical aerators, Cypermethrin (20 mg/L) was almost completely degraded in just over 48 h at ambient temperature. Further loading of organic compound in subsequent experiments demonstrated that IES-PS-1was capable to degrade 82 % Cypermethrin at 40 mg/L dose in approximately 48 h. When the concentration was increased to 80 mg/L, 50% degradation of this compound was observed. Over this time period the cells could utilize only 17 % of Cypermethrin when it was given 125 mg/L, respectively. These findings indicate that increased concentration of Cypermethrin has a marked effect on biodegradation performance of IES-Ps-1 with a modest increased in the duration of lag phase, but did not lead to complete inhibition or cell death. These results proved that IES-Ps-1 is responsible for Cypermethrin degradation. Such finding may be useful in designing a scale-up in situ or on-site hazardous waste bioremediation process for field application. 相似文献