Gridded inventories of historical usage for selected organochlorine pesticides in Gansu Province, China

HCHs and DDTs were banned in 1983 in China; however, they are still remaining in various environmental media. Since endosulfan was introduced in China in 1994, it is widely used in agriculture. In this study, temporal and spatial uses of endosulfan, HCHs, and DDTs in Gansu province of China have been presented. It is estimated that the total usage is 701 tons for endosulfan between 1994 and 2007, 1,712 tons for HCHs between 1952 and 1983, and 462 tons for DDTs between 1951 and 1983, respectively. Endosulfan usage increased dramatically in 1998 due to its application on other crops except on cotton. The HCH and DDT usage displayed a rapid increase after 1972, reaching the peak in 1976 and in 1975, respectively; since then, they declined until being banned in 1983. The gridded usage inventories of these three kinds of organochlorine pesticides in Gansu province, with a 1/4° longitude by 1/6° latitude resolution, have been created by using different crops for endosulfan and the area of dry farmland for HCHs and DDTs as surrogate data. The most intensive use was in northwestern regions for endosulfan and southeastern regions for HCHs and DDTs in Gansu province.     

The effects of Herba Andrographitis hedgerows on soil erodibility and fractal features on sloping cropland in the Three Gorges Reservoir Area

To evaluate if hedgerows could improve the soil physicochemical properties and enhance the soil anti-scouring and anti-shearing capabilities, the effects of Herba Andrographitis hedgerows on soil erodibility and fractal features on sloping cropland in the Three Gorges Reservoir Area were investigated. Results showed that: (1) the clay particle accumulation around the hedgerows was significantly affected by the hedgerows; (2) the fractal dimension of soil particles was positively correlated with both silt and clay contents and had a negative linear correlation with sand content; (3) fine-grained content significantly influenced fractal dimension of the soil particles; (4) soil erodibility K was significantly and positively correlated with the sand content (correlation coefficient r?=?0.870), but significantly and negatively correlated with the silt content (r?=??0.538), clay content (r?=??0.739), organic carbon content (r?=??0.603), the aggregation degree (r?=??0.486), and soil fractal dimension (r?=??0.538); and (5) the contents of organic matter and clay particles in the soil were found to be the effective indicators for soil erodibility at the Three Gorges Reservoir Area. The hedgerows may improve soil fractal features and decrease soil erodibility. The effective distance between hedgerows on a slope of 10° was less than 6 m.     

高效石油烃降解菌SKD-1的分离、筛选及其降解性能

从孤岛油田石油污染土壤中分离到一株高效石油降解菌,命名为SKD-1。该菌株菌落表面湿润光滑、边缘整齐、圆形、不透明、乳黄色,能够利用葡萄糖和淀粉作为其生长的碳源和能源,其最适生长环境为碱性（pH8-10）,在分别以正十六烷烃和原油为惟一碳源,温度为30℃,摇床（180r／min）培养的条件下,菌株SKD-1的降解率分别为66．1％和36．9％。16SrRNA基因序列分析表明,菌株SKD-1与不动杆菌AcinetobactercalcoaceticusSY-1同源性达99％。结合菌株SKD．1菌落形态、理化性质以及系统发育分析,可以鉴定菌株SKD-1属于不动杆菌属（Acinetobactersp．）,序列登录号为AB774229。     

一株高效MC—RR降解菌的分离鉴定及其降解特性

为了得到一株具有降解微囊藻毒素一RR（MC—RR）特性的产芽孢菌株,采用加热富集芽孢菌的方法,从太湖分离到一株MC．RR降解菌CMl,该菌对MC—RR具有强烈的降解特性。通过形态学特征、生理生化特征及16SrDNA序列分析鉴定该菌株属于耐硼赖氨酸芽孢杆菌（Lysinibacillusb oronitolerans）。通过研究温度和pH值对菌株CMl降解MC—RR能力的影响,发现菌株CMl在60h将MC—RR由12．77μg／mL降解到1．67μg／mL,降解率达86．90％,最适降解温度为37℃,最适pH值为7．0。CMl菌株的胞外物质和胞内物质均能降解MC—RR,但胞内物质具有更强烈的降解特性,12h可以将7．27μg／mL的MC-RR完全降解。为丰富MC-RR降解菌纯菌种研究以及在去除水体中MC—RR应用研究方面提供了理论基础。     

磁性纳米吸附剂Fe3O4·ZrO(OH)2的合成及对水中氟和砷的吸附性能

用共沉淀法将ZrOCl2·8H2O包裹在磁性纳米Fe3O4表面,合成了一种针对高浓度含砷含氟废水的高效新型磁性纳米吸附剂Fe3O4·ZrO(OH)2.研究考察了吸附剂对氟和砷的吸附容量、反应平衡时间以及pH对吸附效果的影响.实验表明,磁性纳米Fe3O4·ZrO(OH)2吸附剂对水中F-和As(Ⅲ/Ⅴ)等温吸附模型符合Langmuir和Freundlich模型.对溶液中总氟和总砷的吸附容量分别可达70.42 mg/g和133.33 mg/g.通过拟二级动力学方程可得知吸附过程在20 min左右即可达到平衡.随着pH的不断增加,吸附剂对氟的吸附容量逐渐降低,而对砷的吸附量则是先增加后减少.     

一株荧蒽降解菌的筛选鉴定及降解特性

采用富集培养方法,从多环芳烃污染的土壤中分离筛选到一株能以高分子量的多环芳烃荧蒽为惟一碳源和能源且生长状况良好的菌株DN002。通过形态观察、生理生化指标及16S rRNA同源序列分析比对,结果表明,该菌株为木糖氧化产碱菌(Achromobacter xylosoxidans),最适生长温度为32℃,最适生长pH为7～7.5。该菌株对荧蒽有较强的降解能力,在14 d内对500 mg/L的荧蒽的降解率为92.8%。菌株细胞蛋白SDS-PAGE结果显示,经荧蒽诱导后,在分子量为18～66 kDa范围内有显著的差异蛋白条带。     

固定化活性污泥实现短程硝化反硝化处理畜禽废水

以畜禽废水为处理对象,通过分别控制水力停留时间(HRT)、溶解氧(DO)、pH值、温度和碳氮比(C/N)等影响亚硝化的主要单因子,以使固定化活性污泥颗粒实现短程硝化反硝化反应,在连续流运行模式下进行废水脱氮实验,实验结果表明,单因子HRT为10 h,溶解氧为4 mg/L,pH值为8.5,温度为30℃,碳氮比为10时,对TN和COD的去除率分别为81.98%、93.79%;87.32%、98.35%;83.82%、93.93%;85%、97%;85.37%、97.28%,达到了理想的去除效果。     

醌介体催化强化酸性红B生物脱色

考察了5种结构相似的醌介体(AQS、2,7-AQDS、AQDS、1,5-AQDS和α-AQS)对酸性红B生物脱色的催化强化作用。结果表明,反应进行至5 h,在0～0.24 mmol/L AQS的浓度范围内,最高脱色率达89%(0.24 mmol/L),相对于空白组(28%)提高约3.2倍,且零级反应速率常数K与介体浓度呈正相关线性关系,K=56.571CAQS+22.616(R2=0.9012);最适实验条件为AQS浓度0.24 mmol/L,0.25%NaCl,温度35℃,pH 7;在此实验条件下,5种醌介体相对于空白组脱色效率分别提高了1.14～1.53倍,体系氧化还原电位降低了38～87 mV。本研究为解决偶氮染料生物脱色技术存在的降解速率低的问题提供了新的思路。     

降解菌ZQ5与紫茉莉对芘污染土壤的联合修复

在温室盆栽条件下,通过单独种植紫茉莉、单独接种多环芳烃(PAHs)模式化合物芘的专性降解菌ZQ5和两者的联合修复的3种处理,对芘污染土壤的修复效果进行了研究。结果表明,经90 d修复后,植物-微生物联合修复可将人工污染土壤中的芘降解81.1%,将石油污染土壤中的芘降解50.3%,其修复效率明显高于其他2种处理,是紫茉莉修复的1.98倍,是降解菌ZQ5修复的1.39倍。ZQ5的不同接菌量对于修复60 d后的降解率影响不大。外源生物修复条件下,10～20 cm土壤的修复效率要高于5 cm土壤;自然降解条件下,5 cm土层降解率略高于其他土层。     

不同纳米修复剂对污染土壤中胡萝卜吸收、转运Cd的影响

通过盆栽实验研究不同纳米修复剂(羟基磷灰石HAP、赤泥RM、Fe3O4、胡敏酸-Fe3O4)对2种不同污染土壤Cd吸收、转运的影响。结果表明,上述纳米修复剂均可显著增加胡萝卜植株生物量,显著提高植株Cd胁迫的耐受指数;不同土壤施用不同纳米修复剂均显著降低胡萝卜植株Cd的含量,并且随着修复剂施加浓度的增加而显著降低;与对照相比,植株茎叶Cd含量最大降低达78.8%,根中Cd的含量最大降低67.8%;添加不同修复剂能不同程度地降低了土壤中Cd的转运系数和富集系数,这可能与施用不同纳米修复剂促进了土壤中非残留态Cd向残留态Cd的转化有关,总体而言,不同纳米型修复剂对降低Cd的有效性顺序为:RM～HAP>胡敏酸-Fe3O4>Fe3O4。