生物炭改良剂对小白菜生长及低质土壤氮磷利用的影响

生物炭技术是近年来新兴的具有多重农业和环境效益的土壤改良技术.本研究以宁夏低质淡灰钙土为研究对象,以"中白78"小白菜(Brassica chinensis)为供试作物,分别按0、1.5%、3%和5%(质量分数)的比例添加花生壳生物炭(Biochar,BC)和基于花生壳生物炭研发的生物炭改良剂(BC-based amendment,AD),系统研究了BC和AD对小白菜植株生长、产量及土壤养分利用有效性的影响.结果表明:BC和AD的添加均增加了小白菜的株高和产量,与BC相比,AD对小白菜的增产效果更为显著(BC和AD处理的产量分别为对照的2.34~3.77倍和4.37~4.60倍).各剂量BC处理中,小白菜地上部、根系生物量的顺序为1.5%BC3%BC≈5%BC;而对于AD处理,3种添加量处理的小白菜生物量无显著性差异.增产的主要原因包括两方面:第一是两种材料中主要养分对小白菜生长的直接贡献;第二则是两种材料均促进了小白菜根系的生长,增强了根际效应,从而改变了N、P等土壤养分的利用有效性.BC和AD的加入均增加了小白菜对N的利用有效性,AD促进了小白菜对P的利用有效性.可见,BC和AD均可作为土壤改良剂,改善宁夏低质淡灰钙土的养分状况,提高作物产量.     

人工湿地污水处理系统的蛭石缓冲单元及缓冲能力生物再生研究

针对当前人工湿地污水处理中普遍存在的冬季处理效果差等问题,研究了在处理系统中构建天然蛭石缓冲单元及其吸附饱和后进行生物再生的可行性.结果表明,在水力负荷为1.4 m3·m-2·d-1(COD:150～350mg·L-1、NH 4-N:10～30 mg·L-1、TP:1.0～4.5 mg·L-1)和蛭石层填充高度≥60cm的条件下,无植物天然蛭石缓冲单元可至少在45d内保持出水各项水质指标达到一级排放标准(GB 18918-2002),从而可基本满足人工湿地在植物换季时期的处理需要,而且,增加系统含氧量和蛭石用量可提高体系缓冲性能.在夏秋季温度较高的条件下(25～30℃),利用微生物的硝化与反硝化作用和植物根系的吸收与复氧功能,可有效提高蛭石再吸附的能力,其中有植物的湿地单元90d后蛭石吸附容量的再生率可达88.2%～91.3%,生物再生过程的动力学方程符合指数关系,植物种类、干湿交替时间和碳源对蛭石生物再生过程有较为显著的影响.     

Enhanced electrokinetic remediation of lead-contaminated soil by complexing agents and approaching anodes

Optimizing process parameters that affect the remediation time and power consumption can improve the treatment efficiency of the electrokinetic remediation as well as determine the cost of a remediation action. Lab-scale electrokinetic remediation of Pb-contaminated soils was investigated for the effect of complexant ethylenediaminetetraacetic acid (EDTA) and acetic acid and approaching anode on the removal efficiency of Pb. When EDTA was added to the catholyte, EDTA dissolved insoluble Pb in soils to form soluble Pb–EDTA complexes, increasing Pb mobility and accordingly removal efficiency. The removal efficiency was enhanced from 47.8 to 61.5 % when the EDTA concentration was increased from 0.1 to 0.2 M, showing that EDTA played an important role in remediation. And the migration rate of Pb was increased to 72.3 % when both EDTA and acetic acid were used in the catholyte. The “approaching anode electrokinetic remediation” process in the presence of both EDTA and acetic acid had a higher Pb-removal efficiency with an average efficiency of 83.8 %. The efficiency of electrokinetic remediation was closely related to Pb speciation. Exchangeable and carbonate-bounded Pb were likely the forms which could be removed. All results indicate that the approaching anode method in the presence of EDTA and acetic acid is an advisable choice for electrokinetic remediation of Pb-contaminated soil.     

昆虫抗菌肽及其基因工程研究进展

昆虫抗菌肽是一类具有免疫效应的小分子多肽,它具有热稳定、抗菌谱广、无免疫原性、作用机制独特等特性,是昆虫能够抵御自然界中许多有害微生物侵染的重要因素.近年来,随着有关抗菌肽作用机理及功能研究的深入,其在医药领域的应用越来越引起人们的关注.本文就昆虫抗菌肽的分类、生物功能、基因工程研究进展等作一综述.参33     

基于层次分析法评估长江上游宜宾段工业园区环境风险

长江宜宾段工业园区中分布着众多化工企业,对周边流域生态环境具有潜在风险.选择环境风险源、管控机制、风险受体3个准则层,包括行业类型、园区企业生产工艺、环境管理体系、环境风险管理体系、受纳水体环境等13个指标层建立评估模型体系;采用层次分析法(AHP)评估了宜宾市6家工业园区(A～F)的环境风险评.结果表明,6家工业园区...     

固定化微生物法处理氨氮废水

通过固定消化菌处理氨氮废水和研究，着重从凝胶颗粒的机械强度、缩水性能、化学稳定性微生物活性等４个方面来选择包埋剂。结果表明海藻酸钠、卡拉胶、聚惭烯醇和丙烯酰胺是较理想的微生物载体。在选用丙烯酰胺凝胶颗粒固定硝化菌的氨氮废水处理工艺中，用正交试验与实验方法列出了影响氨氮去除率诸因素主次顺序，依次为ＰＨ值，颗普重量、丙烯酰胺量、菌体量。交得出丙烯酰胺含量１２．５％，包埋菌体含量５％、颗粒重量４ｇＰＨ值     

焦化废水生物处理技术研究

采用PACT—硝化—-反硝化工艺,处理焦化废水。结果表明,排放水的COD可降至100 mg/l、NH_3-N浓度可达15mg/l,基本达到排放标准。该工艺适合于现有焦化厂废水处理设备的改造。     

Degradation of carbon tetrachloride in thermally activated persulfate system in the presence of formic acid

The thermally activated persulfate (PS) degradation of carbon tetrachloride (CT) in the presence of formic acid (FA) was investigated. The results indicated that CT degradation followed a zero order kinetic model, and CO ₂ ^– · was responsible for the degradation of CT confirmed by radical scavenger tests. CT degradation rate increased with increasing PS or FA dosage, and the initial CT had no effect on CT degradation rate. However, the initial solution pH had effect on the degradation of CT, and the best CT degradation occurred at initial pH 6. Cl^– had a negative effect on CT degradation, and high concentration of Cl^– displayed much strong inhibition. Ten mmol·L^–1HCO ₃ ^– promoted CT degradation, while 100 mmol·L^–1NO ₃ ^– inhibited the degradation of CT, but SO ₄ ^2– promoted CT degradation in the presence of FA. The measured Cl–concentration released into solution along with CT degradation was 75.8% of the total theoretical dechlorination yield, but no chlorinated intermediates were detected. The split of C-Cl was proposed as the possible reaction pathways in CT degradation. In conclusion, this study strongly demonstrated that the thermally activated PS system in the presence of FA is a promising technique in in situ chemical oxidation (ISCO) remediation for CT contaminated site.     

Enhanced degradation of trichloroethene by calcium peroxide activated with Fe(III) in the presence of citric acid

Trichloroethene (TCE) degradation by Fe(III)-activated calcium peroxide (CP) in the presence of citric acid (CA) in aqueous solution was investigated. The results demonstrated that the presence of CA enhanced TCE degradation significantly by increasing the concentration of soluble Fe(III) and promoting H₂O₂ generation. The generation of HO? and O₂^-? in both the CP/Fe(III) and CP/Fe(III)/CA systems was confirmed with chemical probes. The results of radical scavenging tests showed that TCE degradation was due predominantly to direct oxidation by HO?, while O₂^-? strengthened the generation of HO? by promoting Fe(III) transformation in the CP/Fe(III)/CA system. Acidic pH conditions were favorable for TCE degradation, and the TCE degradation rate decreased with increasing pH. The presence of Cl^-, HCO₃^-, and humic acid (HA) inhibited TCE degradation to different extents for the CP/Fe(III)/CA system. Analysis of Cl^- production suggested that TCE degradation in the CP/Fe(III)/CA system occurred through a dechlorination process. In summary, this study provided detailed information for the application of CA-enhanced Fe(III)-activated calcium peroxide for treating TCE contaminated groundwater.