Vertical and temporal distribution of nitrogen and phosphorus and relationship with their influencing factors in aquatic-terrestrial ecotone： a case study in Taihu Lake, China

Vertical and temporal distributions of N and P in soil solution in aquatic-terrestrial ecotone （ATE） of Taihu Lake were investigated, and the relations among N, P, ORP （oxidation reduction potential）, TOC, root system biomass and microorganism were studied. As a whole, significant declines in TN, NO3^--N, DON （dissolved organic nitrogen） and TP concentration in soil solution have occurred with increase of the depth, and reached their minima at 60 cm depth, except for NH4^＋-N, which increased with depth. The concentration of TP increased gradually from spring to winter in the topsoil, the maximum 0.08 mg/L presented in the winter while the minimum 0.03 mg/L in spring. In the deeper layer, the concentration value of TP fluctuated little. As for the NO3^--N, its seasonal variation was significant at 20 cm depth, its concentration increased gradually from spring to autumn, and decreased markedly in winter. Vertical and temporal distribution of DON is contrary to that of NO3^--N. The results also show that the variation of N and P in the percolate between adjacent layers is obviously different. The vertical variation ofTN, TP, NO3^--N, NH4^＋-N and DON is significant, of which the variation coefficient of NO3^--N along the depth reaches 100.23%, the highest; while the variation coefficient of DON is 41.14%, the smallest. The results of correlation analysis show that the concentration of nitrogen and phosphorus correlate significantly with TOC, ORP, root biomass and counts of nitrifying bacteria. Most nutrients altered much from 20 to 40 cm along the depth. However, DON changed more between 60 and 80 cm. Results show that soil of 0-60 cm depth is active rhizoplane, with strong capability to remove the nitrogen and phosphorus in ATE. It may suggest that there exists the optimum ecological efficiency in the depth of above 60 cm in reed wetland. This will be very significant for ecological restoration and reestablishment.     

Organochlorine compounds and polycyclic aromatic hydrocarbons in surface sediment from Baiyangdian Lake, North China： Concentrations, sources profiles and potential risk

Organochlorine pesticides(OCPs),polychlorinated biphenyls(PCBs),and polycyclic aromatic hydrocarbons(PAHs) were determined in nineteen surface sediment samples collected from Baiyangdian Lake and its inflowing river(Fuhe River) in North China.Total concentrations of OCPs,PCBs and PAHs in sediments ranged from 5.4 to 707.6 ng/g,2.3 to 197.8 ng/g,and 101.3 to 6360.5 ng/g,respectively.The levels of contaminants in Fuhe River were significantly higher than those in Baiyandian Lake.For hexachlorocyclohexane(HCHs) and dichlorodiphenytrichloroethanes(DDTs),α-HCH and p,p-DDT were predominant isomers;while for PCBs,PCB 28/31,PCB 40/103,PCB 60,PCB 101,and PCB 118 were predominant congeners.Possible sources derived from historical usage for OCPs and incomplete combustion fuel,wood,and coal and exhaustion of boats or cars for PAHs.Risk assessment of sediment indicated that sediments in Fuhe River were likely to pose potential biological adverse impact.     

Distribution and health risk assessment of organochlorine pesticides （OCPs） in industrial site soils： A case study of urban renewal in Beijing, China

A field survey was conducted in a contaminated industrial site of southern Beijing,China to investigate the contents and distribution of the organochlorine pesticides(α-,β-,γ-,δ-HCH,p,p-DDT,p,p-DDE,p,p-DDD and o,p-DDT) in the profiles of soil,and a health risk assessment was carried out with CalTOX multimedia exposure model.Results showed that mean concentrations of total hexachlorocyclohexane isomers(HCHs) and total dichlorodiphenyltrichloroethane isomers(DDXs) in soils were in the range of 13.20-148.71 mg...     

天津地区土壤多环芳烃在剖面中的纵向分布特征

在天津市北部山区、中部农田和东南部油田采油作业区分别采集了土壤样品 ,研究了土壤中多环芳烃 (PAHs)的纵向分布特征 ,并对土壤中多环芳烃的来源进行了分析 .结果表明 ,PAHs含量峰值一般位于土壤表层或次表层 ,并随着土壤剖面的加深而减少 .农田菜地土壤PAHs在 4 0cm深处含量仍然较高 ,而油田仅表层 3cm富集PAHs ,这与耕作土壤表层常受到人为扰动有关 .与高环物质相比 ,低环物质更容易向下迁移 .土壤中有机碳的含量、土壤的性质以及土壤的粒度均是影响PAHs迁移的重要因素 .山区和菜地土壤中PAHs主要来自燃烧源 ,而油田则显示为石油源和燃烧源的混合源 .     

哈尔滨市大气中多环芳烃的初步研究

利用改进型的大流量主动采样器,于2008年5月7~20日对哈尔滨市大气样品进行采集,并检测了气相和颗粒相中的多环芳烃(PAHs)的浓度.结果表明,哈尔滨市大气中总PAHs的浓度为8.1~37.2ng/m3,平均值为18.2ng/m3.通过特征分子比值法推断出哈尔滨市大气中PAHs主要来自于煤的燃烧.低环PAHs主要集中在气相,而高环PAHs则吸附在颗粒相上.气粒分配系数与过冷饱和蒸气压具有很好的相关性,但PAHs并没有达到气粒分配平衡,这可能与冬季取暖用煤燃烧产生的新多环芳烃有关.     

天津滨海工业区土壤中多环芳烃的污染特征及来源分析

采集天津滨海工业区38个表层土壤样品,利用GC/MS分析技术,研究了土壤中16种优控多环芳烃的含量和组分特征,运用主成分因子载荷方法分析了其污染来源,并初步评价了其风险水平.结果表明,该区域内94.7%土壤已被污染,其中重污染土壤占39.5%,最高污染样点PAHs含量高达5991.7 ng·g-1,平均含量为1148.1 ng·g-1,且城区土壤残留水平明显高于乡村土壤;PAHs的组分特征为以毒性水平较高的高环化合物为主;其污染来源主要是煤、天然气和汽油燃烧组成的混合源.     

官厅水库周边蔬菜地表土中多环芳烃的污染

为掌握北京市备用水源地——官厅水库周边的蔬菜地表土中多环芳烃(PAHs)的污染状况及来源,于2008年11月在延庆县小丰营蔬菜产地采集了48个表土样品(0～20cm)测定PAHs含量,并综合特征化合物比值法和因子分析/多元线性回归两种方法推断了土壤中PAHs来源.结果表明,土壤中15种PAHs单体(PAH15)的含量均服从正态分布或对数正态分布,∑15PAH几何均值为(118.71±28.63)ng.g-1(干重含量,下同),算术均值为(139.57±85.65)ng.g-1.以荷兰土壤标准衡量,71%的样点归类PAHs弱污染,与文献报道的大多数国内外农业土壤相比,尚属于较清洁的水平.成分谱分析表明,研究区域土壤中的PAHs分布谱以3环～4环化合物为主,优势化合物为PHE、FLA、FLO、PYR.校正后的FLA/(FLA+PYR),ANT/(ANT+PHE)比值表明该研究区域PAHs主要来自燃烧源.通过因子分析提取了3个主成分,分别代表①燃煤和交通燃油;②生物质燃烧和炼焦;③燃油.多元线性回归分析的结果表明,这3种来源对官厅水库周边蔬菜地表土中PAHs的贡献分别是54.0%,39.9%和6.1%.结合两种源解析方法和排放源分析,除该区域存在明显生物质燃烧源以外,其它来源的PAHs经过了一定距离的大气迁移和沉降.     

高级氧化技术修复多环芳烃污染土壤研究进展

多环芳烃（PAHs）是由2个或2个以上苯环组成的碳氢化合物,其致癌、致突变、致畸等特性对人类健康和生态环境产生不利的影响。由于PAHs具有低水溶性、高疏水性和难降解性等特点,导致PAHs污染土壤修复具有巨大挑战。高级氧化技术是处理PAHs污染土壤的有效手段。对高级氧化技术在PAHs污染土壤修复领域的研究进展进行了总结,对臭氧氧化、芬顿氧化和过硫酸盐氧化等高级氧化技术的优劣进行了分析;此外,探讨了表面活性剂在提升高级氧化效果方面的作用以及土壤理化环境条件对氧化过程的影响,分析了氧化过程对土壤微环境的潜在影响;最后,指出了高级氧化修复PAHs污染土壤的研究难点和未来方向。

     

厦门马銮湾养殖海区多环芳烃的污染特征

通过两个航次对厦门马銮湾养殖区及厦门西海域非养殖区的表层海水及沉积物中的多环芳烃的含量，组成进行调查。结果发现：马銮湾养殖区表层海水中多环芳烃的含量已达到生态毒理评价标准，马銮湾养殖海区的表层海水中多环芳烃的含量及组成存在明显的时间差异；马銮湾养殖海区沉积物中的多环芳烃含量明显高于非养殖区，并且在养殖海区的沉积物中检测到苯并（b)荧蒽，吲哚芘和苯并（ghi)Bei等没有最低安全值的高分子量多环芳烃的存在，直接威胁养殖水体的安全。此外，还对马銮湾养殖海区中多环芳烃污染的来源进行了分析。     

城市建筑物对周围土壤中多环芳烃含量与分布的影响

为探讨城市建筑物对其周围土壤中多环芳烃(PAHs)含量与分布的影响,对建筑物勒脚或散水边缘(B)和距建筑物5m(B-5)处20个表层土壤样品中16种优控PAHs进行了检测分析.结果表明,B处土壤中?16PAHs含量为824~8960ng/g,平均为2649ng/g;B-5处土壤中?16PAHs含量为637~1706ng/g,平均为1297ng/g,B处PAHs含量远高于B-5.各样点主要以4环和5环PAHs为主,B处3环PAHs含量高于B-5处.其中?4PAHs(Fl、Pyr、InP和BghiP)含量分别占B和B-5土壤中?16PAHs的48%和45%.参照Maliszewska-Kordybach建立的土壤PAHs污染标准,HJ-5、AJ、AJ-5、EB-5和TC-5属于中等污染程度(600~1000ng/g),其余各样点均属于重度污染(>1000ng/g).B处土壤中TOC相对B-5处有富集趋势,B和B-5处土壤中PAHs与TOC无明显的相关性.BaA、Chry、B(b/k)F、BaP、InP和DahA是B 和B-5处土壤中TEQBaP浓度的主要贡献者.溯源结果表明B和B-5处土壤中PAHs主要来源于煤炭、汽油和柴油的燃烧; B-5土壤中PAHs部分可能来源于石油类的泄漏.     

多环芳烃的微生物降解与生物修复

生物修复在治理多环芳烃污染环境中的作用日益突出，其应用越来越受到重视。文中概述了生物修复技术发展的基础－多环芳烃微生物降解，论述了降解微生物分离、驯化、咱类、降解机制等，探讨了提高多环芳烃降解速率的途径及其存在的一些问题，并对今后的发展进行了展望。     

拉萨市城区大气和拉鲁湿地土壤中的多环芳烃

对拉萨城区大气及郊区湿地土壤中多环芳烃的研究表明,大气中的多环芳烃,颗粒物占27.69%,气相状态占72.31%;由于高原高强度的紫外线辐射,无论是颗粒相还是气相状态存在的多环芳烃含量均是夜晚高于白天;颗粒物中的多环芳烃主要为3个苯环数以上的,而气相状态的多环芳烃多为2和3个苯环数的芳烃及芘.湿地土壤中的多环芳烃主要来自于大气,其中气相状态占52.56%,颗粒物占47.44%.     

滇池流域宝象河水库沉积物中多环芳烃的垂直分布特征及来源解析

采用GC-MS检测了滇池宝象河水库沉积物中16种美国环保署(US EPA)优先控制的多环芳烃(PAHs)的含量,并对其垂直分布特征及来源进行分析,以此了解宝象河水库近年来PAHs的变化.结果表明,水库沉积物中16种PAHs均有检出,其含量范围为162.26~762.24ng·g~(-1),平均值为423.30 ng·g~(-1).自底层50 cm至表层,沉积物中PAHs含量呈上升趋势.从多环芳烃环数来看,沉积物中的PAHs以2~3环为主,其含量为128.34~518.81 ng·g~(-1),平均值为279.88 ng·g~(-1),占PAHs总量的42.2%~84.1%,平均值为67.6%.FLA/(FLA+PYR)、Ba A/(Ba A+CHR)和Icd P/(Icd P+Bghi P)3组比值及PAHs各组分的分析结果表明,燃烧过程是沉积物中PAHs的主要来源,主要为煤炭、生物质的燃烧.PAHs含量与总有机碳(TOC)之间有显著正相关关系,TOC影响宝象河水库沉积物中PAHs的分布.