Combination of the direct electro-Fenton process and bioremediation for the treatment of pyrene-contaminated soil in a slurry reactor

A combined treatment technology (DEF-BIO) using the direct electro-Fenton (DEF) process and bioremediation (BIO) was established in this study. The performance of the DEF-BIO process on the remediation of a pyrene (PYR)-contaminated soil was evaluated in a slurry reactor. The appropriate order of application was to conduct the DEF process followed by BIO, evaluated through analysis of the degradation characteristics of each process individually. In addition, the application time of the DEF process affected the efficiency of the combined process. The optimum time to apply the DEF process was determined through an analysis of the induced changes in PYR intermediates, pH, soil organic matter (SOM) and bacteria. The optimum application time of the DEF process was 6 h. All the induced changes were beneficial for the BIO phase. The removal of PYR was 91.02% for DEF–BIO after 72 h, and the efficiency was almost 50% increased, compared with the individual DEF and BIO treatments. Therefore, the combined process of DEF–BIO process may be an efficient and promising method for the remediation.     

乙酸钙不动杆菌对富营养化景观水体的净化作用

利用乙酸钙不动杆菌(Acinetobacter calcoaceticus),在室内采用投菌法对富营养化景观水体进行预处理试验研究.通过不同的投菌量ф=0.05×10-3、0.1×10-3、0.2×10-3,对水体进行处理,结果表明,乙酸钙不动杆菌对富营养化水体中的总氮(TN)、总磷(TP)、CODcr,均有一定的去除效果,其中在投菌量为O.1×10-3时处理效果最好.通过进一步的连续投菌净化试验,水体中的TN、TP、CODcr显著降低,处理后,水体中叶绿素a的质量浓度为19.1 mg·m-3,去除率为83.7%,藻类基本得到控制.由此可见,乙酸钙不动杆菌能够有效性地去除水体中的有机物、氮、磷,因此具有净化富营养化水体的作用.     

菌根生物修复技术在沈抚污水灌区的应用前景

本文简述了沈抚污水灌区遗留的主要环境问题———芳烃、挥发酚、重金属污染和盐渍化 ,并从菌根真菌的耐旱性、耐盐性、菌根及其根际微生物对重金属的吸收固定和对有机污染物的降解等四个方面 ,论述了菌根生物修复技术能针对性地解决沈抚污水灌区的主要环境问题 ,并展望了其在沈抚灌区的应用前景。     

Impact of edible oil injection on the permeability of aquifer sands

Recent laboratory and field studies have shown that food-grade edible oils can be injected into the subsurface for installation of in-situ permeable reactive barriers. However to be effective, the oil must be distributed out away from the oil injection points without excessive permeability loss. In this work, we examine the distribution of soybean oil in representative aquifer sediments as non-aqueous phase liquid oil (NAPL oil) or as an oil-in-water emulsion. Laboratory columns packed with sands or clayey sands were flushed with either NAPL oil or a soybean emulsion followed by plain water, while monitoring permeability loss and the final oil residual saturation. NAPL oil can be injected into coarse-grained sands. However NAPL injection into finer grained sediments requires high injection pressures which may not be feasible at some sites. In addition, NAPL injection results in high oil residual saturations and moderate permeability losses. In contrast, properly prepared emulsions can be distributed through sands with varying clay content without excessive pressure buildup, low oil retention and very low to moderate permeability loss. For effective transport, the emulsion must be stable, the oil droplets must be significantly smaller than the mean pore size of the sediment and the oil droplets should have a low to moderate tendency to stick to each other and the aquifer sediments. In our work, oil retention and associated permeability loss increased with sediment clay content and with the ratio of droplet size to pore size. For sandy sediments, the permeability loss is modest (0-40% loss) and is proportional to the oil residual saturation.     

The Potential Use of Chicken-Drop Micro-Organisms for Oil Spill Remediation

An examination of chicken-drop micro-organisms for oil spill remediation is presented in this work. The chicken droppings contained aerobic heterotrophs (1.2×10⁸ CFU g^–1), total fungi (3.4×10⁴ CFU g^–1) and crude oil (transniger pipeline crude, TNP) degrading bacteria (1.5×10⁶ CFU g^–1). The crude oil degraders were identified as species of Micrococcus, Bacillus, Pseudomonas, Enterobacter, Proteus, Klebsiella, Aspergillus, Rhizopus, and Penicillium. Pseudomonas aeruginosa CDB-06 and species of Bacillus CDB-08 and Penicillium CDF-10 degraded the crude oil at exceedingly high rates. Pseuedomonas aeruginosa CDB-06 degraded 65.5 percent of the crude oil after 16 days, while Bacillus sp. CDB-08, and Penicillium sp. CDF-10 degraded 65.3 percent, and 53.3 percent, respectively of the crude oil over the same period. The chicken droppings also had a pH 7.3, 18.5 percent moisture content, 2.3 percent total nitrogen, and 0.5 percent available phosphorus. Addition of oil polluted soil (10 percent (v/w) pollution level) with chicken droppings enhanced degradation of the crude oil in the soil. 68.2 percent of the crude oil was degraded in the soil amended with chicken droppings, whereas only 50.7 percent of the crude oil was degraded in the unamended soil after 16 days. The amendment raised the acidic reaction (pH 5.7) of the oil-polluted soil to alkaline (pH 7.2) within 16 days. Chicken droppings could, therefore, be used in an integrated oil pollution abatement program.     

脂肽类生物表面活性剂产生菌的分离及特性研究

从石油污染土壤中分离筛选获得一株产生生物表面活性剂菌株Y8A,经生理生化实验、16S rDNA序列分析等将其鉴定为芽孢杆菌属（Bacillus sp.）.Y8A能在22h内将发酵液的表面张力从68.3mN·m-1降到23.5 mN·m-1.经TLC和傅立叶红外光谱分析, 菌株Y8A产生的生物表面活性剂为脂肽类.20mg·L-1 Ca2+和Fe2+能显著促进其生长和表面活性剂的产生;菌株Y8A在20～30℃,pH 5～12范围内产生表面活性剂的能力较强;LB培养基中添加1%乳糖对生长的影响不大,但能够明显促进Y8A产生生物表面活性剂,而葡萄糖、蔗糖抑制表面活性剂的产生.Y8A能够促进石油降解菌Y1D和F11对石油的降解和功夫菊酯降解菌ZZH对功夫菊酯的生物降解.     

菌根在污染土壤生物修复中的作用

菌根是土壤真菌 -植物根系形成的共生体 ,广泛存在于自然界中 ,它能增强植物的吸收能力 ,改善植物的生长 ,提高植株的抗逆能力和耐受能力等。所以 ,菌根化植物可作为很好的生物修复载体。本文主要从无机、有机以及放射性污染 3方面对国内外关于菌根在污染土壤生物修复中的作用进行了综述     

生物表面活性剂强化疏水性有机污染物生物降解研究进展

介绍了生物表面活性剂的类型、理化性质、生物表面活性剂提高疏水性有机污染物生物可利用性的机理及其在污染场地生物修复中应用方面的研究进展。生物表面活性剂不仅具有乳化、增溶、降低表／界面张力等功能,而且低毒、对环境友好、易于生物降解,因而在环境污染的生物治理方面具有极大的应用潜力。     

Combined bioremediation for lead in mine tailings by Solanum nigrum L. and indigenous fungi

Lead-contaminated mine tailings were bioremediated using microbial/phyto remediation. The optimum lead accumulation and tolerance capacity of the plant–microbe partnership were investigated, and their mechanisms were evaluated further under varied levels of lead contamination through a flowerpot experiment in a greenhouse. Enzymes activities revealed that bioremediation has improved fertility and metabolism of tailing soil. The removal efficiency of lead was in the order of microbial/phytoremediation?>?phytoremediation. Solanum nigrum L. was not shown to be a hyperaccumulator for lead. Mucor circinelloides significantly enhanced the growth response and lead accumulation in plants more than Mortierella and Trichoderma asperellum. Moreover, Mortierella was discovered to have good metal tolerance capacity under high Pb concentrations (1200 and 1600?mg?kg^?1). The results for lead bioavailability showed that phytostabilisation serves as a major repair pathway for S. nigrum L. Effective fractions were immobilised for decreased bioavailability by T. asperellum and M. circinelloides. On the contrary, an increased amount of lead was mobilised for increased bioavailability by Mortierella. This study provides new insights into the feasibility of using S. nigrum L. and the aforementioned indigenous fungus strains for large-scale bioremediation of mine tailings.     

甲氰菊酯降解菌Sphingomonas sp.JQL4-5对污染土壤的生物修复

JQL4-5(Sphingomonas sp.)是1株从长期受农药污染土壤中分离的甲氰菊酯降解菌,考察了其在实验室模拟条件下对甲氰菊酯污染土壤的生物修复能力及其影响因素.结果表明,降解菌株在灭菌土壤中的降解效果要略好于未灭菌土壤,在土壤外源添加降解菌10⁶ CFU·g^-1,温度20～40 ℃, pH为6.5～7.5的条件下,该菌株能有效降解土壤中10～200 mg·kg^-1的甲氰菊酯.可以将其应用于甲氰菊酯污染土壤的生物修复.