纳米零价铁在应用中存在的问题及提高反应活性的方法

纳米零价铁对多种污染物质均有较好的去除效果,在污染的水体、土壤及底泥中被广泛研究与应用。前人对纳米零价铁的制备、在污染治理各方面的应用、作用的机理等方面进行了较为详细的总结,针对纳米零价铁在应用中存在的问题虽有提及,但少有人集中进行整理。本文主要针对纳米零价铁在环境治理方面存在的问题进行论述并对提高其反应活性的常用方法进行了总结,以期为纳米零价铁实际应用领域的深入研究提供借鉴并拓展新的思路。     

Bacterial colonization of the phyllosphere of nineteen plant species and antimicrobial activity of their leaf secondary metabolites against leaf associated bacteria

Summary. The scope of this work was to examine whether leaf constitutive secondary metabolites play a role in determining bacterial colonization of the phyllosphere. To this aim, we surveyed nineteen native or cultivated plant species that share a common bacterial pool in a North Mediterranean area, and estimated the size of total and ice nucleation active (INA) bacterial populations on their leaves. Large differences in the colonization of their phyllosphere were found; the population size of epiphytic bacteria ranged from 7.5 × 10² to 1 × 10⁶ CFU/g fresh weight, in eucalypt and celery, respectively. Species native in Mediterranean-type climate areas, particularly those belonging to the group of aromatic plants, are characterized by scarce presence of INA bacteria. The antibacterial activity of essential oils, surface phenolics and leaf tissue extracts was also estimated against the INA strains P. syringae and E. herbicola, isolated from two of these plant species. E. herbicola proved more sensitive than P. syringae. Of the species examined, oregano [Origanum vulgare L. subsp. hirtum (Link.) Ietswaart], an aromatic plant, had the highest antimicrobial activity, whereas six species showed no activity at all. Further experiments were performed with oregano and bean (Phaseolus vulgaris L.) that represent two extremes in their secondary metabolite content. Both plants were inoculated with P. syringae. By the end of incubation, the bacterial population on bean plants was about 100 times higher than that on oregano leaves. Scanning electron micrographs showed that bacterial growth on oregano leaves was confined to sites away from glandular hairs. Results from the bacterial colonization survey together with those from the toxicity tests showed that all species rich in antibacterial secondary metabolites harbored low leaf bacterial populations. These results provide substantial evidence that leaf secondary metabolites function as constitutive defense chemicals against microbial invasions. However, the fact that species with non- or moderately active leaf secondary metabolites are not always highly colonized suggests mediation of other unknown factors, the contribution of which requires further investigation.     

环氧化PVA载体固定漆酶的最佳工艺条件研究

在T=35℃,HAc-NaAc缓冲溶液pH为4的条件下,用环氧化PVA载体对漆酶进行固定化,固定后酶活为游离酶活的95%。用该固定化漆酶处理制浆造纸废水,反复使用6次后,酶活仍保持为初始酶活的45%,且每次COD去除率在40%以上,处理后的废水BOD增大了50%,废水可生化性得到很大提高。     

四环素类抗生素对不同蔬菜生长的影响及其富集转运特征

本研究探讨了四环素类抗生素(TCs)对两种蔬菜生长的影响及其在蔬菜体内的富集和转运特征,以期为四环素类抗生素的植物毒性和对人体健康的风险评价提供理论基础.采用土培试验研究了不同水平(0、50和150 mg·kg-1)的四环素类抗生素(四环素TC、土霉素OTC、金霉素CTC)对生菜和小白菜生长、抗生素含量及其富集转运特征的影响.结果表明,TCs总体上抑制了生菜的生长,地上部和地下部鲜重分别较CK降低了1.56%~26.84%和17.36%~51.04%,小白菜地上部和地下部鲜重反而较对照提高了3.7%~7.3%和3.1%~82.2%.TCs在一定程度上增加了生菜和小白菜的气孔导度(Gs)和蒸腾速率(Tr),抑制了生菜的净光合速率(Pn),Pn在TCs为150 mg·kg-1时较CK降低了32.43%~82.43%.TCs还抑制了生菜和小白菜的SOD活性,较CK降低了29.17%~223.12%,以OTC的抑制作用最强.生菜和小白菜的MDA含量在TCs为150mg·kg-1时达到最大值(生菜地上部除外).小白菜地上部和地下部TCs的含量均高于生菜,以CTC处理的小白菜和生菜TCs含量较高.种植生菜的土壤TCs残留量高于小白菜土壤,以OTC处理的土壤TCs残留量最高.小白菜对TCs的富集系数和转运系数分别是生菜的1.07~7.35倍和1.15~2.25倍.3种四环素类抗生素中以OTC和CTC的生态风险较大.     

成都市典型非道路工程机械排气烟度分析

采用不透光烟度计采集了成都市典型工程机械(挖掘机、装载机、叉车和压路机)排气烟度,研究了机械功率对其活动水平(燃油消耗量和年均工作时间)的影响,同时也研究了机械发动机构造和机械排放标准对其排气烟度的影响;同时,采用氮硫测定仪分析了机械油品硫含量,研究了硫含量对其排气烟度的影响.试验结果表明:机械功率越大的工程机械,燃油消耗量和年均工作时间数越高.成都典型工程机械排气烟度排放水平最低的为装载机,最高的为压路机;同时,超高排放装载机与叉车的占比较高.工程机械排气烟度受机械发动机排量、机械发动机构造、机械发动机排放标准和机械用油的综合影响,通过对工程机械装配电控发动机、提高原机排放标准和使用低硫燃油均能直观反映出机械排气烟度不同程度的改善.此外,油品中硫含量越高,机械排气烟度越大.     

闽江口秋茄红树林凋落物产量及分解动态

于2017年以闽江口粗芦岛秋茄(Kandelia obovata)红树林为研究对象,分别采用凋落物收集框和分解袋法,研究秋茄凋落物产量及其碳(C)、氮(N)、磷(P)含量月动态及凋落叶分解过程中C、N、P含量与水解酶活性.结果表明:①秋茄凋落物年产量为618.79 g·m~(-2)·a~(-1),其中,叶占61.2%,果、枝和花分别占23.7%、10.5%和4.6%.②凋落叶总氮(TN)含量8月显著高于其他月份(p0.05),而TP含量在1—3月显著高于其他月份;C/N在8月显著低于其他月份(p0.05),而C/P及N/P在9月显著升高(p0.05).③在凋落叶分解过程中,C、N、P含量及其化学计量比随时间存在明显差异(p0.01),并且地上组TC、TN、C/N和C/P明显不同于地下组(p0.05).④在分解过程中,4种水解酶随时间存在明显差异(p0.01).⑤凋落叶酸性磷酸酶活性与土壤温度、电导率和凋落叶TP含量存在显著相关关系(p0.01).这些结果说明,秋茄凋落物产量及元素含量随季节变化存在明显差异;沉积作用对凋落叶分解过程中元素含量有显著影响,水解酶活性主要受凋落叶元素含量和土壤环境因子的控制.     

不同浓度蓝藻水华在好氧条件下的光合作用

为研究不同浓度蓝藻水华在曝气形成的好氧条件下的光合作用,本文按叶绿素a（Chla）浓度32.5,346.8,1413.7和14250.0μg/L设4个处理组（从低到高编号依次为I、Ⅱ、Ⅲ和IV）进行实验.结果表明,各处理Chla浓度均总体呈下降趋势,但均未出现发黑或发褐现象;各处理溶氧、pH值、NH₄⁺-N浓度和最大光合作用能力F_v/F_m均有一定差异（P<0.05）.快速光响应曲线的特征参数α、ETR_max和I_k表明,处理I、Ⅱ和Ⅲ中出现较高的绿藻、硅/甲藻的光能利用效率（P<0.05）,而处理IV中所有藻类的光能利用效率较低（P<0.05）.曝气增氧可以防止高浓度蓝藻水华形成黑水团;蓝藻水华初始Chla浓度约为32.5、346.8、1413.7μg/L时,在曝气形成的好氧条件下,蓝藻水华中会出现其它藻类如绿藻、硅/甲藻的生长,即藻类群落结构朝着多样化变化,对蓝藻水华形成控制.     

微生物-生物促生剂协同修复河道底泥——促生剂投量对修复效果的影响

采用5个110L的模拟河道反应器,在投加菌剂的基础上（底泥稳定后向底泥和水中分别注射浓度为0.09%和0.03%的菌剂）,生物促生剂投量分别设计为0.08,0.09,0.10和0.11g/L,单独投加菌剂组作为空白实验.通过为期四十余天的实验研究微生物与促生剂协同作用时的修复效果.结果表明,促生剂投量为0.10g/L时,上覆水COD去除率69%高于其余各组;各协同修复组上覆水中NO₃^--N基本无积累,且促生剂投量为0.11g/L时NO₃^--N去除率最高,可达96%;40d内各组底泥TOC,TN含量变化不显著,延长反应时间至84d,各协同修复组底泥TOC,TN去除率均有明显提升.各协同修复组脲酶活性均波动下降,蛋白酶活性在15d左右时达到峰值,增幅可达106%~237%.通过高通量测序技术发现,43d时Desulfuromonas,Pseudomonas,Treponema_2,Blvii28_wastewater-sludge_group等主要功能菌群的相对丰度与空白实验组相比均增加,且促生剂投量为0.10g/L可使微生物群落向更适宜降解去除氮素及有机质的方向演替,有效改善底泥环境.协同修复对底泥,上覆水水质及微生物群落有良好改善效果,且促生剂投量为0.1g/L时整体修复情况更为理想.     

ANAMMOX富集与优化停曝比对MBR-SNAD工艺的影响

采用膜生物反应器（MBR）研究了厌氧氨氧化细菌在富集过程中的活性变化,在启动全程自养脱氮（CANON）工艺中以恒定曝气量,通过优化停曝比实现氨氧化细菌（AerAOB）和厌氧氨氧化细菌（AnAOB）协同脱氮并且有效抑制亚硝酸盐氧化菌（NOB）的活性,然后添加有机物（乙酸钠）逐步启动同步亚硝化-厌氧氨氧化耦合异养反硝化（SNAD）工艺.结果表明,在厌氧氨氧化细菌富集过程中,通过不断缩短水力停留时间（HRT）提高进水氮负荷的方式强化厌氧氨氧化细菌活性,其平均活性由0.603mgN/（h·gVSS）提高到了8.1mgN/（h·gVSS）;当恒定曝气量为50mL/min,停曝比为4：10（min：min）时,AerAOB和AnAOB对氨氮的去除量分别占总氨氮去除量的58.8%和41.2%,NOB氧化亚硝态氮的量占总硝态氮生成量的15.3%,成功抑制了NOB的活性;当C/N比为0.5,调整停曝比为4：15后,反硝化过程氮去除量占总氮去除率的20.9%,厌氧氨氧化过程氮去除量占总氮去除率的79.1%,实现了AerAOB、AnAOB和反硝化细菌（DNB）协同脱氮的目的.     

Response of the sediment geochemistry of the Changjiang River (Yangtze River) to the impoundment of the Three Gorges Dam

Based on the measurement of major and trace elements in suspended sediments in the low reaches of the Changjiang River during throughout a whole hydrologic year, the origins, seasonal variations, and fluxes of multielements and the human impacts on multielements transport processes have been analyzed along with the influence of weathering in the Changjiang River basin. The results show that most element contents were high in both autumn and winter and low in summer, which was largely caused by the dilution of discharge. Weathering detritus in the Changjiang River basin is the main source of most elements in suspended sediments. However, riverine pollution could bring more loadings of Cd, Pb, As and Zn into river water than it did a few decades ago. The annual average fluxes of Cd, Pb and Zn, which are major contamination elements, to the sea were 179 ± 21 tons/year, 7810 ± 675 tons/year, and 12,000 ± 1320 tons/year,respectively, in which approximately 8.7%, 11.9% and 2.7% of their loadings, respectively,were contributed by pollution inputs. Element exports mainly occurred in the summer(44.4%–57.4%) in the lower part of the Changjiang River. A general relationship between sediment retention and element content suggests a positive feedback mechanism for the decreased number of particles, in which element riverine loadings are reduced due to the enhanced trapping effect by the Three Gorges Dam(TGD). Compared to those in 1980,current element shares of the Changjiang River compared to the global budget have declined due to the construction of the TGD.