辽河表层沉积物重金属生态风险与综合毒性表征

采用ICP-MS测定了辽河26个支流表层沉积物间隙水中7种重金属(Pb、Cu、Cr、Zn、Ni、As、Cd)的含量,并应用间隙水毒性基准单位(IWCTU)和Nemeraw指数(NI)对间隙水重金属生态风险进行了评价;同时利用摇蚊幼虫活体生物毒性测试方法评估了辽河流域26个支流表层沉积物的综合毒性。研究结果显示,辽河支流表层沉积物间隙水7种重金属平均含量为:Pb 3.92μg·L-1,Cu 5.73μg·L-1,Cr 7.21μg·L-1,Zn 4.33μg·L-1,Ni 4.48μg·L-1,As 5.89μg·L-1,Cd 0.29μg·L-1,根据IWCTU值和NI值,柴河、养息牧、亮子河、凡河、付家窝堡、接官厅具有潜在的生态风险;综合毒性表征结果表明,柴河、长沟子河、付家窝堡、柳河、一统河、潮沟河表层沉积物对摇蚊幼虫具有较高毒性。结合重金属毒性和综合毒性分析,认为辽河流域支流表层沉积物毒性应该是由复合污染形成,而不仅仅是重金属污染。     

沉积物中六氯苯在均匀电动力学作用下的迁移

分析了六氯苯在沉积物中吸附特性,研究了影响沉积物中六氯苯在均匀电动力学作用下的迁移.结果表明,均匀电动力学过程能有效地促进沉积物中HCB的解吸和迁移,其作用效果与反应时间、沉积物初始pH值、电极电压和电解质投加量等密切相关.     

全氟烷基物质在胶州湾海水、沉积物及生物中污染特征

为探明胶州湾全氟烷基物质(perfluorinated alkyl substances,PFASs)的污染水平及特征,本研究于2018年4月在胶州湾近岸海域采集了海水、沉积物及菲律宾蛤仔样品,采用高效液相色谱-串联质谱法测定35种PFASs的含量.结果表明,海水中检出12种PFASs,PFASs总质量浓度(ΣPFASs)范围为21. 1～38. 0 ng·L-1,沉积物中检出10种PFASs,ΣPFASs含量(以干重计)范围为0. 459～1. 20μg·kg-1,菲律宾蛤仔中检出19种PFASs,ΣPFASs含量(以干重计)范围为15. 5～27. 5μg·kg-1;与国内外报道的其他地区相比,胶州湾ΣPFASs污染处于中等或偏高水平.全氟辛酸(perfluorooctanoic acid,PFOA)是胶州湾PFASs的首要污染因子,6∶2全氟辛烷二磷酸酯(6∶2 fluorotelomer phosphate diester,6∶2 di PAP)是海水及沉积物中检出的主要前驱物,全氟辛烷磺酰胺(perfluorooctanesulfonamide,PFOSA)是菲律宾蛤仔中检出的主要前驱物.此外,PFASs的沉积物-海水分配系数(Kd)、有机碳归一化分配系数(KOC)及生物累积因子(bioaccumulation factors,BAF)随碳链的增加而增加,而生物-沉积物累积因子(bioaccumulation factors between organism and sediment,BSAF)随碳链(C8～C13)的增加呈现下降趋势.     

用若干固体废弃物改良土壤的可行性研究

合理利用粉煤灰、水库淤积物和污泥三种废弃物对保护环境有重要意义。选择干旱半干旱地区 ,联合施用上述三种废物进行土壤改良 ,兼有建设生态环境的作用。盆栽试验结果表明 :粉煤灰、水库淤积物、污泥按适当比例配合施用 ,对改良贫瘠土壤、促进植物生长有明显效果。     

基于31P-NMR与SMT方法的海河流域典型河流沉积物中磷形态特征研究

利用液相~(31)P核磁共振分析方法和SMT分级方法,对比研究了海河流域典型人工河流子牙新河和滏阳新河、自然河流子牙河表层沉积物中磷形态.结果发现,两条河流沉积物中TC、TN、TP含量均很高,且相关性显著,污染较重且具有同源性.沉积物中总磷在568.2~9171.9mg·kg-1之间,其中以HCl-P为主,占总磷的25.5%~81.8%之间,其次为NaOH-P,所占比例为9.3%~55.5%.使用~(31)P-NMR技术在沉积物中共检测到7类磷化合物:正磷酸盐(Ortho-P)、磷酸单酯(Mono-P)、磷脂(Lipid-P)、DNA磷(DNA-P)、焦磷酸盐(Pyro-P)、膦酸盐(Phon-P)及多聚磷酸盐(Poly-P).Ortho-P和Mono-P分别为总磷和有机磷的主要组成成分,含量分别在113.8~6226.1 mg·kg~(-1_和27.0~1991.9 mg·kg~(-1)之间.子牙河、子牙新河和滏阳新河两条河流在沉积物磷组成方面存在很大的差异子牙新河和滏阳新河沉积物中总磷明显高于子牙河.     

兰州市城区河道表层沉积物磁性特征研究

通过系统的环境磁学测定,分析了兰州市城区河道表层沉积物的磁学性质及其对城市污染的指示意义.结果表明,兰州市城区河道表层沉积物样品磁性特征以亚铁磁性矿物的磁铁矿为主导,同时存在少量赤铁矿和针铁矿贡献.根据参数χFD、χARM、χFD/MS和χARM/MS所指示的人为活动排放物对不同河段沉积物的贡献量将兰州市河流分为3类:末端集中型(排洪沟、寺儿沟、鱼儿沟、水磨沟),源头集中型(七里河、烂泥沟),影响较小型(罗锅沟、大沙沟).与有机质测量结果比较发现,兰州市河道沉积物样品有机质含量与超顺磁颗粒及单畴晶粒具有十分显著的正相关关系,说明了细颗粒磁性矿物对有机碳的富集作用,显示了超顺磁颗粒及单畴颗粒含量作为兰州市城区河道表层沉积物有机质含量的代用指标具有良好的指示意义.     

韩国西海岸地区停车场径流携带沉积物的粒径分布及污染特征研究

为了解沿海地区城市停车场内径流携带沉积物的粒径分布及污染特征,于2011年4—6月在韩国西海岸12个不同停车场采集了沉积物样品,分别分析了其粒径分布和各粒径中污染物质的含量.结果表明,不同采样点的废弃物形态差异较大,主要表现在较大的植物茎叶、烟蒂及动物粪便等废弃物和含水率等方面.不同采样点的颗粒物粒径大小不同,其颗粒物的均一性也有所差异.总体来讲,106～500μm之间的颗粒物是径流携带沉积物的主要组成部分,其平均质量分数占总体(<2360μm)颗粒物的59.9%.对不同粒径中污染物质的含量分析得出,颗粒物中污染物质的含量随粒径增大而减小.其中,<106μm的颗粒物中总氮、总磷、COD和挥发性物质的质量分别占各污染物总量的18.9%、17.8%、20.41%和18.9%,而该部分颗粒物本身的平均质量分数只有3.9%.可见<106μm的颗粒物处于高度污染状态.因此,在城市停车场面源污染管理中,应该对该部分高度污染的颗粒物给以足够的重视.对于不同污染特征的颗粒物应该采用不同的去除方法.     

白石水库颗粒有机物及沉积物中碳、氮稳定同位素的空间分布特征

于2013年10月对辽宁省白石水库水质、颗粒有机物及底泥沉积物中δ~(13)C和δ~(15)N值的空间分布特征进行了研究.结果表明:白石水库POC的平均浓度为(1.76±0.98)mg·L~(-1);TP的平均浓度为(0.04±0.03)mg·L~(-1);TN的平均浓度为(1.80±0.08)mg·L~(-1),TP和POC从上游到下游呈现逐渐降低的趋势;TN的水平分布变化不大.小型颗粒有机物的δ~(13)C值平均为(-24.6±0.9)‰;δ~(15)N值平均为(4.8±0.4)‰.大型颗粒有机物的δ~(13)C值平均为(-22.5±0.9)‰;δ~(15)N值平均为(6.7±0.5)‰,颗粒有机物的δ~(13)C和δ~(15)N变化范围都很广,小型颗粒有机物的δ~(13)C和δ~(15)N值最大差异可达4.6‰和2.7‰,大型颗粒有机物的δ~(13)C和δ~(15)N值最大差异分别为3.3‰和1.8‰.底泥沉积物的δ~(13)C值平均为(-24.2±1.2)‰;δ~(15)N值平均为(4.1±0.7)‰.大型颗粒有机物与小型颗粒有机物之间的δ~(13)C和δ~(15)N值存在极显著正相关关系(P0.01).颗粒有机物和底泥沉积物中δ~(13)C和δ~(15)N值的水平分布具有由上游到下游逐渐增大的规律,颗粒有机物与沉积物之间的δ~(13)C和δ~(15)N值存在显著正相关关系(P0.05).垂直分布中,颗粒有机物的δ~(15)N值是表层大于底层,TN和大型颗粒有机物的δ~(15)N值呈显著正相关(P0.05),POC与颗粒有机物的δ~(15)N值呈极显著正相关关系(P0.01).白石水库水中和沉积物中的有机质主要来源于浮游生物和土壤有机质,颗粒有机物的δ~(13)C值与POC和TP呈显著负相关(P0.05).     

梳子坝淤砂形态特征试验研究

通过室内水槽试验,探讨梳子坝淤砂的形态特征、淤砂长度和回淤坡度等,初步得到:(1)梳子坝在全闭塞时,淤砂形态与实体坝相似,在淤砂区的前部,淤砂高度大致等于坝体高度,在淤砂区的尾部,都有一个明显的陡坎;梳子坝在部分闭塞时,淤砂形态与不闭塞情况下淤砂形态相似,在淤砂区的前部,都有一个缓坡。不闭塞时形成的缓坡坡度稍大于部分闭塞时的缓坡坡度,但都明显小于水下休止角,表明梳子坝淤砂形态异于狭缝坝。(2)梳子坝淤砂长度与切口宽度有关,大致有随着切口宽度的增大而减短的趋势;切口密度和泥石流浓度对淤砂长度有影响,淤砂长度有大致随切口密度的增大而堆积长度减短的趋势。(3)在相同试验条件下,梳子坝回淤坡度与实体坝相比大致相近,波动范围很小;在相同的切口宽度条件下,切口密度对回淤坡度有一定的影响,同时证明沟床坡度和泥石流的物质级配、容重及规模对回淤坡度也有一定影响。     

Bacterial community structure analyses to assess pollution of water and sediments in the Lake Shkodra/Skadar, Balkan Peninsula

- Goal, Scope, Background. Lake Skadar is the largest lake in Balkan Peninsula, located on the Montenegro-Albanian border. The unique features of the lake and wide range of endemic and rare or endangered plant and animal species resulted in the classification of the Skadar as a wetland site of international significance. In spite of its importance the Lake is influenced by inflowing waters from river Morača and other regional rivers contaminated by the industry, municipal and agricultural activities in the area. Therefore, the Lake has been subject of various physical, chemical, biological and toxicological examinations. However, community-level analyses are most relevant to assess the effect of stressors on aquatic ecosystems. In the present study bacterial community structure among differently polluted sites of the lake was compared by genetic fingerprinting technique. Methods Water and sediment samples were collected from five differently polluted sampling sites on the Lake Skadar in spring and autumn of the same year. The bacterial community structure in the samples was characterized and compared by temporal temperature gel electrophoresis (TTGE) analysis of polymerase chain reaction-amplified bacterial 16S rRNA genes. Results and Discussion The TTGE analysis resulted in many distinguishable and reproducible band patterns, allowing reliable comparison of bacterial communities among sampling sites. Results on the bacterial community structure revealed that three of the selected locations can be considered as sites that have not shown any pollution degradation determined by our method, due to similar structure of bacterial community in the sediment samples. On the other hand, significant shifts in bacterial community structure in the mouth of the river Morača and Plavnica were shown. Since the results coincide with some of the bioassays and chemical analysis performed previously, the changes in bacterial community structure are explained as an effect of antropogenic pollution on the lake ecosystem by waters of river Morača and stream Plavnica. Conclusion The TTGE has proven to be an efficient and reliable method to monitor bacterial dynamics and community shifts in aquatic environment, especially in the sediments. Within the variety of environmental quality assessments the use of TTGE analyses of bacterial community is strongly recommended, particularly as an initial investigation. However, in any conclusion on the state of the environment, the TTGE results should be combined to some other biological, chemical and hydrological data. Recommendation and Outlook Since prokaryotes are a crucial group of organisms in the biosphere, the ecosystem function studies are largely based on bacterial communities. Therefore, bacterial community structure analysis should be a part of an integrated weight of evidence approach in pollution assessment. In case of Triad approach, consisting of chemical analyses, bioassays, and community studies in the field, the TTGE bacterial community structure analyses should be placed in the later Triad leg. In comparison to other community studies, based on various biotic indices, the TTGE bacterial community analysis has proven to be very sensitive, reliable and less time consuming.