黑麦草-不动杆菌组合体系对石油污染土壤的生物强化修复

以盆栽实验为基础,研究了植物（黑麦草,Lolium perenne L）-微生物（不动杆菌,Acinetobacter sp.）组合体系对石油污染土壤的修复效果。实验结果表明：在总石油烃含量为4 420.18 mg/kg、脱氢酶活性为230.52 μg/（g·d）、苯酚毒性当量浓度（TEQphenol）为1 633.21 mg/L的初始条件下,强化组总石油烃降解率最高为53.08%,是对照组的1.60倍;土壤的脱氢酶活性达到637.73 μg/（g·d）,是对照组的10.64倍;石油污染土壤的生物毒性大幅降低, TEQphenol最终降低至171.08 mg/L。说明该组合体系对石油污染土壤具有很好的修复作用,且微生物对土壤中有毒物质的降解起主要作用。     

Levels and congener profiles of polybrominated diphenyl ethers (PBDEs) in Zebra mussels (D. polymorpha) from Lake Maggiore (Italy)

Several congeners of polybrominated diphenyl ethers (PBDEs) were monitored in 14 different sampling stations of Lake Maggiore, the second largest Italian lake in regard to surface, volume and average depth, using the sentinel-organism Zebra mussel (Dreissena polymorpha). Results revealed a moderate contamination with summation operatorPBDE levels (BDE-17, -28, -47, -66, -71, -85, -99, -100, -138, -153, -154, -183, -190 and -209) ranging from 40 to 447ngg(-1) lipid weight which are similar to those found in environments polluted by deposition or atmospheric transport. The general order of decreasing congener contribution to the total load was BDE-47>-99>-100>-209, which closely reflected patterns observed in mussels collected in freshwater ecosystems worldwide.     

螯合型表面活性剂强化黑麦草修复Cd污染水体

采用水培试验,研究了新型螯合型表面活性剂N-十二酰基乙二胺三乙酸钠（LED3A）强化黑麦草修复Cd污染水体的效果,探讨了Cd或/和LED3A存在下黑麦草的生理响应以及LED3A对黑麦草除Cd性能的影响.结果表明：Cd显著抑制黑麦草生物量和光合色素含量,添加LED3A后抑制作用略有增强,CL100处理叶绿素和类胡萝卜素含量较CL0分别降低了15.50%和8.18%. LED3A对黑麦草的生长无显著影响,对黑麦草细胞的相对电导率（REC）有一定的提高,可使细胞膜渗透性增加以利于黑麦草对Cd的吸收.Cd胁迫下适量添加LED3A,能提高黑麦草植株超氧化歧化酶（SOD）和过氧化物酶（POD）活性,起到清除活性氧（ROS）、缓解Cd毒害和抑制丙二醛（MDA）积累的作用.最佳LED3A添加量下（50mg/L）,黑麦草植株的总Cd累积量和转移系数较Cd单独处理时分别提高了74.39%和67.96%,Cd的去除率达到55.98%.研究表明添加LED3A可有效提高植物对Cd的修复效率.     

蒽在黑麦草体内的代谢作用

以黑麦草(Lolium multiflorum Lam.)为供试植物,采用水培试验方法,研究了植物对蒽的代谢作用,并分析了其代谢产物.结果表明,经蒽培养液处理96h并转入无蒽培养液培养后0~16d,黑麦草体内蒽的含量由0.760mg/kg降为0.147mg/kg,减少80.6%,主要为植物所代谢;根部是代谢蒽的主要部位;蒽的一级代谢产物为蒽醌和蒽酮,0~16d,蒽酮在黑麦草体内总体上呈积累态势,而蒽醌则会被进一步代谢,蒽醌和蒽酮可以由根系向培养液中释放,也可由根向茎叶传输;黑麦草对蒽酮和蒽醌的传输系数(TF)分别为0.796~1.285和0.239~0.653,蒽酮更易在黑麦草体内传输.     

硅对镉、锌、铅复合污染土壤中黑麦草生理生化性质的影响

采用正交试验设计L9(34)对黑麦草(Lolium perenne L.)进行温室盆栽试验,观测Cd、Zn、Pb复合污染条件下,硅(Si)对黑麦草生物量、叶绿素含量以及保护酶系统的影响.结果表明,Cd使黑麦草根系发育受阻导致生物量下降,中等水平的Zn和Pb有利于黑麦草生物量的积累;Cd、Zn、Pb复合污染造成黑麦草叶绿体结构的破坏,使叶绿素含量减少;低水平的Cd、Zn、Pb复合污染对黑麦草CAT和POD活性起到激发作用,但随着添加水平提高,两种酶活性受到抑制.Si可以促进黑麦草根系生物量的增加,有利于根系对水分和养分的吸收,保证地上部分的养分供给,使叶片生物量增加;硅化细胞的形成有利于黑麦草叶片对光能的吸收利用,Si也使叶绿素含量增加;Si对CAT和POD有显著激活作用,从而减轻重金属复合污染对黑麦草产生的伤害.     

粉煤灰不同配比基质对黑麦草生长的影响

粉煤灰是燃煤电厂排出的固体废弃物,主要成分有SiO2,Al2O3,Fe2O3,CaO等。采用盆栽试验将粉煤灰分别与粘土、砂土、秸秆按3:1的比例混合作为基质种植黑麦草,并用纯粉煤灰基质做对照,研究黑麦草在粉煤灰不同配比基质上的生长状况,结果表明,粉煤灰+粘土为黑麦草的最佳生长基质。     

The combined use of electrokinetic remediation and phytoremediation to decontaminate metal-polluted soils: a laboratory-scale feasibility study

The use of a combination of electrokinetic remediation and phytoremediation to decontaminate two metal-polluted soils has been demonstrated in laboratory-scale reactors. One soil was heavily contaminated with copper, the other with cadmium and arsenic (2500 g g^-1 Cu; 300-400 g g^-1 Cd and 230 g g^-1 As, respectively). Test reactors with twoseparated chambers, each with a capacity of 5.25 kg soil, wereconstructed, then the respective chambers were filled with eithera mixture of the polluted soil and a control topsoil (75:25) ortopsoil alone. Reactors were sown with perennial ryegrass (Lolium perenne cv Elka) and a constant voltage of 30 V was applied continually across the soils in each reactor. Soil sampling took place at the start and the end of the test run, whilst plant foliage was sampled after approximately 3 weeks (both reactors) 6 weeks (Cd soil reactor only) and at the conclusion of each test run (98 days Cu soil, 80 days Cd soil). Soil and plant metal concentrations were measured, together withsoil pH. Results showed that in both soils there was a significant re-distribution of metals from anode to cathode in the test reactors, coupled with an enhancement of plant Cu uptakein the cathode region for the Cu soil. Patterns of plant Cd uptake were less clear cut and were not as clearly related to theredistribution of Cd measured in the soil. There was significant acidification of soil at the anode in each test reactor, but soilpH in other parts of the reactor changed little during the courseof the experiment. Plant growth was affected at the anode, but was not affected in other parts of the reactor. There was no visual evidence of metal toxicity in the ryegrass in either polluted soil. Some effects on soil fungi were apparent, with a stimulation of Fusarium infection of ryegrass in the cathode region of all reactors and the appearance of sporophoresof Coprinus in the same location. It is concluded that the combination of the two techniques represents a very promising approach to the decontamination of metal polluted soils that nowrequires validation in field conditions.     

生物质炭输入对污泥施用土壤-植物系统中多环芳烃迁移的影响

利用温室盆栽黑麦草实验,研究了生物质炭输入对污泥施用土壤性质、植物生长及土壤-植物系统中多环芳烃迁移性能的影响.结果表明,施用含炭堆肥污泥更有利于改善土壤的缓冲性能及增加土壤养分含量,与普通堆肥污泥处理相比,施用含炭堆肥污泥的黄棕壤和红壤中阳离子交换量分别提高了10%和5%,而2种土壤总氮含量则分别提高了13%和18%.同时,生物质炭的输入更有利于促进植物生长,与普通堆肥污泥处理相比,2种土壤中含生物质炭堆肥污泥处理黑麦草生物量均提高了23%,黄棕壤和红壤中种植的黑麦草叶绿素含量分别增加了8%和10%.生物质炭的输入还使得污泥-土壤体系中的多环芳烃转移到植株中的量明显减少,含炭堆肥污泥处理中多环芳烃在黑麦草中的累积量比普通污泥相应处理降低了27%~34%.因此,生物质炭作为污泥堆肥调理剂,不仅能进一步改良土壤性质,促进植物生长,还可以有效限制污泥-土壤体系中多环芳烃在环境中的迁移,降低潜在的污染风险.