纳米二氧化硅对秀丽线虫的毒性作用研究

为探讨二氧化硅纳米颗粒(SiNP)的毒性作用.以微米SiO2和空白做对照,将尺寸为20和60 nm的SiNP分别以0.2,1.0和5.0 g·L-13个浓度对模式生物秀丽隐杆线虫进行染毒.通过第一代和第二代线虫体长、身体弯曲频率、头部摆动频率以及第一代线虫后代数目、世代时间等发育、运动和生殖的相关评价指标,对SiNP毒...     

苏南地区部分饮用水源水的有机污染物研究

以美国EPA建议的多污染物分析与评价系统,对苏南地区部分饮用水源水质的危险度进行了评价。评价结果各水样健康危险度均>1,表明各水样对人健康均存在潜在危害,而生态风险度均<1。同时,采用人外周血淋巴细胞彗星试验,对各水样有机浓集物的生物毒性进行了研究,结果表明水样浓集物可对淋巴细胞DNA产生不同程度的损伤,存在一定的遗传毒性。试验结果与水质状况基本一致,表明上述两种方法对于评价水体有机物污染的有效性。     

天然水体腐殖质对双酚A光降解影响的研究

以中压汞灯模拟太阳光光源,研究了双酚A(BPA)在水体腐殖质中的光降解过程,探讨了不同来源的腐殖质、腐殖质浓度、BPA初始浓度、溶解氧等因素对BPA光解速率的影响,实验结果表明,BPA在纯水体系中直接光解很慢,但在腐殖质溶液中光解迅速,符合拟一级动力学反应,改变BPA初始浓度对BPA光解速率的影响不明显,增大溶解氧浓度会抑制BPA光解,通过活性氧分子探针鉴定了腐殖质吸收光辐射产生的羟基与单线态氧,利用GC-MS鉴定了双酚A在Nordic湖富里酸(NOFA)中的光敏化降解产物,推测出BPA敏化降解的可能历程为能量转移导致的直接光解、羟基加成和羟基氧化。     

淡水环境中短链氯化石蜡的预测无效应浓度及生态风险评估

短链氯化石蜡(short-chain chlorinated paraffins, SCCPs)是《斯德哥尔摩公约》增列的一类持久性有机污染物。搜集筛选出SCCPs对8种淡水生物的慢性毒性数据,构建了物种敏感度分布曲线(SSD),推导出SCCPs的淡水预测无效应浓度(PNECwater)为0.425μg·L~(-1),淡水沉积物预测无效应浓度(PNECsed)为992.5μg·kg-1。搜集了国内外部分淡水河流水体及沉积物中SCCPs环境暴露数据,运用商值法,评估SCCPs的生态风险。结果表明,长江中游和白洋淀水体风险商范围为2.6～154.4和3.7～132.5,处于高风险;国外河流SCCPs污染水平较低,北美地区与日本淡水河流SCCPs风险商小于1,处于低风险。长江中游沉积物的SCCPs的风险商高达400.6,呈现显著风险,欧洲工业区域淡水沉积物中SCCPs存在潜在风险。本研究为SCCPs水质标准制定与环境风险管理提供参考依据。     

新型抗氧化膜材料PSAA的研制

对聚亚磺酰氨基酰胺(PSAA)作为新型抗氧化反渗透膜材料的可能性,以及聚合条件和成膜条件对膜性能的影响作了初步研究。     

Residual levels of DDTs and PAHs in freshwater and marine fish from Hong Kong markets and their health risk assessment

Axial and ventral muscle from 10 each species of freshwater and marine fish purchased from markets in Hong Kong were analyzed for dichlorodiphenyltrichloroethane (total DDTs including DDE, DDD and DDT) and polycyclic aromatic hydrocarbons (PAHs). Among the 10 freshwater fish species, rice field eel (Monopterus albus) showed significantly higher levels of DDTs in both ventral (125 ng/g wet wt) and axial muscle (127 ng/g wet wt) than the other species. The highest concentration of PAHs was detected in catfish (Clarias fuscus), with 24.8 ng/g in ventral muscle and 9.1 ng/g in axial muscle. As to marine fish, snubnose pompano (Trachinotus blochii) showed significantly higher levels of DDT and its metabolites (1018 ng/g in ventral and 409 ng/g wet wt in axial tissues) than all other marine fish species. The overall concentrations of PAHs in marine fish species were 15.5-57.0 ng/g (axial muscle) and 18.1-118 ng/g wet wt (ventral muscle) where yellow seafin (Acanthopeyrus latus) and golden threadfin bream (Nemipterus virgatus) exhibited the highest concentrations of PAHs in the axial and ventral muscles, respectively. In general, results showed that levels of PAHs in Hong Kong market fish was low and do not expect to cause any concern for human consumption. However, the levels of DDTs in fish samples ranged from 1.10 to 1018 ng/g wet wt, and based on a fish consumption rate of 142.2g/day to calculate the screening value of 14.4 ng/g wet wt for human consumption (USEPA, 2000. Guidance for assessing chemical contaminant, data for use in fish advisories, vol. 1: fish sampling and analysis, third ed. EPA 823-R-95-007. Office of Water, Washington, DC), there were 9 out of 20 (45%) muscle samples of freshwater fish species and 14 out of 20 (70%) muscle samples of marine fish species had elevated levels of DDTs exceeded the screening value. It was also suggested to use ventral muscle for detecting concentrations of persistent organic pollutants in fish.     

基于污染物回收与资源化的新型城市污水生物净化工艺

现行城市污水生物处理系统能耗高、工艺复杂,而且污水中蕴含着能量的有机物、可作为肥料的氮和磷在处理过程中被转化、分解或以固废被处置,从而导致资源浪费.探讨了先通过生物吸附/吸收作用将污水有机物、氮、磷从水中转移到污泥中,达到污水净化的目的;再使污泥将污染物释放出来.把有机物转化为甲烷、氮、磷沉淀后回收,污泥经活化后再次用于吸附的城市污水资源化生物净化新工艺.该工艺可以最大限度地避免污染物的氧化,将极大降低能耗,同时实现资源的回收.在此论述了实现该途径的可能性与存在的问题.     

Removal of Ni(II) from strongly acidic wastewater by chelating precipitation and recovery of NiO from the precipitates

Strongly acidic wastewater produced in nonferrous metal smelting industries often contains high concentrations of Ni(II), which is a valuable metal. In this study, the precipitation of Ni(II) from strongly acidic wastewater using sodium dimethyldithiocarbamate (DDTC) as the precipitant was evaluated. The effects of various factors on precipitation were investigated, and the precipitation mechanism was also identified. Finally, the nickel in the precipitates was recovered following a pyrometallurgical method. The results show that, under optimised conditions (DDTC:Ni(II) molar ratio = 4:1; temperature = 25 °C), the Ni(II) removal efficiency reached 99.3% after 10 min. In strongly acidic wastewater, the dithiocarbamate group of DDTC can react with Ni(II) to form DDTCNi precipitates. Further recovery experiments revealed that high-purity NiO can be obtained by the calcination of DDTCNi precipitates, with the nickel recovery efficiency reaching 98.2%. The gas released during the calcination process was composed of NO₂, CS₂, H₂O, CO₂, and SO₂. These results provide a basis for an effective Ni(II) recovery method from strongly acidic wastewater.     

土壤中铜的形态及其转化

本文报告了使用连续提取方法研究加铜培育的黄棕壤、水稻土、红壤、砖红壤中铜的形态,并初步考察了土壤酸度、氧化还原状况等因素对铜形态的影响,对铜在不同矿物之间结合形态的转化进行了模拟。     

甲醛污染水的生物学效应

本实验研究甲醛污染的淡水和海水对细菌、植物和动物的生物学效应。甲醛的毒害作用是显著的。含0.036—0.36%甲醛的纯水能引起鼠伤寒沙门氏菌组氨酸缺陷型菌株TA100的回复突变,含0.036%、0.0036%、0.00036%甲醛的水溶液行短期(6h)处理紫露草花枝基部,24h休复后发现四分体细胞中微核率显著增高。含0.0018%、0.0036%、0.018%甲醛的水处理蚕豆根,引起根尖细胞中微核率明显增高。0.00018%甲醛的海水使马粪海胆幼虫在45min内死亡。0.0072%甲醛的海水使该幼虫在2min内死亡。0.0072%甲醛的海水能使贻贝担轮幼虫在5min内死亡。0.00018%甲醛的海水使贻贝幼虫在48h内死亡。0.000108%甲醛的海水使马粪海胆幼虫在72h内死亡。实验证明蚕豆根尖细胞和海胆幼虫是良好的监测淡水与海水污染的材料,甲醛能引起DNA中碱基对置换突变。甲醛在海水中产生增效效应。