底泥原位洗脱过程中氮磷含量与形态变化特征

随着城市化进程的不断推进,城市河流底泥中内源氮磷污染问题日益突出.为研究原位洗脱技术对污染底泥中氮、磷物质和成分的作用效果,以北京市凉水河作为研究对象,分别比较了现场试验洗脱与对照组0~30 cm分层底泥以及实验室模拟洗脱处理前后0~10 cm底泥中pH、E_h（氧化还原电位）、容重、含水率、OM（有机质）、TN、TP和氮、磷形态分布的变化特征.结果表明:①现场洗脱对0~5 cm厚度底泥的处理和模拟洗脱处理均对底泥中pH、E_h、含水率的改变以及其中TN、TP的去除效果表现显著,其中,现场试验洗脱组0~5 cm范围底泥中w（TN）、w（TP）分别较对照组降低了66.4%±17.4%、40.8%±24.4%,模拟洗脱处理对底泥中OM、TN、TP的去除率分别达70.1%±4.8%、66.8%±2.0%、43.1%±3.1%.②原位洗脱技术对底泥中TN的去除主要通过对PON（颗粒态有机氮）的去除来实现,现场和模拟试验过程中PON对TN去除的贡献率分别达55.0%和73.6%.③原位洗脱对底泥中TP的去除主要通过对Al-P（铝结合态磷）、OP（有机磷）的去除来实现,现场和模拟试验中Al-P、OP对TP去除的贡献率分别达37.0%、66.2%和31.3%、43.7%.研究显示,原位洗脱技术可有效去除城市河流底泥处理层中的氮磷物质,并以有机氮、磷物质的去除为主.      

洞庭湖近30年水环境演变态势及影响因素研究

水量、泥沙和污染物交换作为河流与湖泊之间的关键过程,对湖泊生态环境演变具有复杂而深远的影响.以长江中游典型通江湖泊洞庭湖为研究对象,着眼于“江湖”“河湖”“人湖”三重作用关系变化,从水文情势、水质、富营养化3个层面剖析了近30年洞庭湖水环境演变态势及主控因素.结果表明:①“江湖”关系变化影响了洞庭湖水沙交换及其年内分配,是湖泊枯水期提前和延长、水沙关系突变等现象的主控因素;“河湖”“人湖”关系变化协同加剧了该现象.②“河湖”关系的失衡和“河湖”统筹管理措施缺位,造成入湖河流长期输送大量营养物质,是湖体氮磷污染较重的根源;“江湖”“人湖”关系变化协同影响着营养盐分布格局,但影响范围及程度有限.③在“江湖”“河湖”作用关系复合影响下,藻类生长条件更为有利,增加了洞庭湖富营养化及水华风险.为保障洞庭湖水环境安全,建议:针对“江湖”作用主导的低枯水位问题,以水资源调控为核心,推进长江与流域上游水库联合生态调度,保障湖泊生态流量;针对“河湖”作用主导的水质恶化问题,以水污染防治为核心,强化流域污染控制,统筹“河湖”一体化监测管理模式,保障湖泊水环境质量;对于“人湖”作用主导的生态破坏问题,以生态空间管控为核心,划定并坚守生态红线,保障生态空间.      

辽河流域河流栖息地评价指标与评价方法研究

建立了由底质、栖息地复杂性、速度-深度结合特性、堤岸稳定性、河道变化、河水水量状况、植被多样性、水质状况、人类活动强度和河岸土地利用类型所构成的河流栖息地评价指标体系,确定了各指标的等级划分以及栖息地综合指数的计算方法.结合2005年辽河流域河流生态调查结果,对流域内所调查的28个河段的栖息地质量状况进行了具体评价,并进一步分析了河道栖息地综合指数与河流理化因子、底栖生物以及小流域土地利用状况的相关关系.结果表明:①辽河流域28个河段的栖息地质量状况差异显著,其中10个河段达到了较好等级以上,6个仅为中等水平,12个河段为较差等级以下;②栖息地质量与理化因子、底栖生物指标具有显著相关性,表明栖息地质量是影响水质与生物状况的重要因素;③小流域的人类未利用土地比例与栖息地质量显著相关,表明小流域土地利用程度对栖息地环境质量影响较大,是恢复与保护河流栖息地质量的重要条件.     

Distribution characteristics of poly- and perfluoroalkyl substances in the Yangtze River Delta

In this work, a method was developed and optimized for the analysis of polyfluoroalkyl and/or perfluoroalkyl substances(PFASs) content in surface water and sediment samples with high instrumental response and good separation. Surface water and sediment samples were collected from the Yangtze River Delta(YRD) to analyze the distribution characteristics of perfluoroalkyl carboxylic acids(PFCAs), perfluoroalkane sulfonic acids(PFSAs), perfluoroalkyl phosphonic acids(PFPAs), perfluoroalkyl phosphinic acids(PFPiAs), and polyfluoroalkyl phosphoric acid diesters(di PAPs). The results showed that the total concentrations of PFCAs and PFSAs in YRD varied from 31 to 902 ng/L. PFCAs(≥ 11 carbons) and PFSAs(≥ 10 carbons atoms) were not detected in any surface water samples. The mean concentrations of all PFCAs and PFSAs in surface water from the sampling areas decreased in the following order:Yangtze river(191 ng/L) ≈ Taihu lake(189 ng/L) Huangpu river(122 ng/L) ≈ Qiantang river(120 ng/L) Jiaxing urban river(100 ng/L). Strong significant(p 0.05) correlations between the concentrations of many of the compounds were found in the sampling areas, suggesting a common source for these compounds. Only perfluorooctanoic acid(PFOA) was observed in all sediment samples, at concentrations varying from 0.02 to 1.35 ng/g. Finally, detection rates of two di PAPs were only 8% and 10%, respectively and the concentration of di PAPs was two to three times lower compared to PFCAs and PFSAs.     

Eutrophication development and its key regulating factors in a water-supply reservoir in North China

Yanghe Reservoir is an important source of drinking water for Qinhuangdao City,North China;however,in recent decades this water source has been eutrophic with recurrent summer cyanobacterial blooms.The trophic grade of the system in summer was mesotrophiceutrophic in 1990 and became hypertrophic in 2011.The nutrient availability is extremely high during the entire year,and the water temperature should be the primary driver of the summer blooms.In May-October of 2010 and 2011,abrupt variations were observed in the Secchi depth(SD) and chlorophyll a(Chl-a),and both the correlated analysis of Chl-a-SD and trophic status indices(TSI) deviation(TSI Chl-a-TSI SD) showed that algal cell density dominated light attenuation.During the algal bloom outbreak,the microcystin concentration was found to vary between 0.35-2.12 μg/L in 2010 and 0.11-1.86 μg/L in 2011.The maximum microcystin content was more than two times the safety limit required for drinking water.Inflow discharges were most concentrated in the summer,with periods of lower residence time and the largest water level fluctuation over the entire year.When a high availability of nutrients promoted a high Chl-a concentration in the whole system,it appeared that the instability caused by the decrease in residence time could not produce effective changes in the cyanobacterial abundance.The results indicated that nutrient enrichment in the aquatic systems of Yanghe Reservoir is the most serious problem and that the status would not been modified effectively by increasing hydrological fluctuations(e.g.,decreasing the residence time).Therefore,decreasing the nutrient concentrations is the only route to improve the water quality of this reservoir.     

倭肯河着生硅藻群落结构及其与环境因子的关系

为了合理的评价倭肯河水生态健康状况,2018年8月（丰水期）,调查了19个点位的着生藻类群落结构和水环境特征.使用Mcnaughton优势度分析、聚类分析和生态型分析3种方法研究了倭肯河着生藻类群落结构和清洁度,使用Spearman相关分析、除趋势对应分析和典范对应分析等方法研究了倭肯河着生硅藻群落和环境因子的响应关系.结果表明：倭肯河共鉴定出着生硅藻89种,物种丰富,不同采样点位之间生物多样性差异较大,Nitzschia palea等富营养指示种是倭肯河的优势种.聚类分析结果表明,倭肯河采样点位可分为3组,从组1到组3,优势种清洁度逐渐下降,低度需氧型、中腐-高度腐生型和极度富营养型硅藻比例逐渐上升.影响倭肯河着生硅藻群落结构的主要水环境因子为TN、DO和pH,其中DO和TN是组3着生硅藻群落的主要影响因子,pH是组2着生硅藻群落的主要影响因子.由此可见,除河流源头区域外,倭肯河水生态环境质量状况较差,着生硅藻群落可以有效的指示倭肯河水体营养状况和腐生状况.     

Integrated assessment of river health based on water quality, aquatic life and physical habitat

The health conditions of Liao River were assessed using 25 sampling sites in April 2005, with water quality index, biotic index and physical habitat quality index. Based on the method of cluster analysis (CA) for water quality indices, it revealed that heavily polluted sites of Liao River are located at estuary and mainstream. The aquatic species surveyed were attached algae and benthic invertebrates. The result showed that the diversity and biomass of attached algae and benthic index of biotic integrity (B-IBI) were degrading as the chemical and physical quality of water bodies deteriorating. Physiochemical parameters, BOD5, CODCr, TN, TP, NH3-N, DO, petroleum hydrocarbon and conductivity, were statistically analyzed with principal component analysis and correlation analysis. The statistical results were incorporated into the integrated assessing water quality index, combining fecal coliform count, attached algae diversity, B-IBI and physical habitat quality score. A comprehensive integrated assessing system of river ecological health was established. Based on the systimetic assesment, the assessed sites are categorized into 9 “healthy” and “sub-healthy” sites and 8 “sub-sick” and “sick” sites.     

Phragmites australis and Typha orientalis in removal of pollutant in Taihu Lake, China

Two plant populations of Phragmites australis and Typha orientalis grown in gravel and sediment substrate were studied to assess their capabilities for purifying polluted water in Taihu Lake, China. The substrate displayed most significant effects on the suspended matter (P < 0.01), with the reduction of 76%-87% and 52%-63% for P. australis, and 83%-86% and 45%-62% for T. orientalis in gravel substrate and sediment substrate, respectively. Both species and substrates significantly decreased the N and P conc...     

城陵矶综合枢纽工程建设对洞庭湖水动力影响模拟研究

受流域降雨量偏枯以及三峡工程蓄水运行等综合影响,洞庭湖季节性干旱问题近年来日益突出.为缓解洞庭湖旱情,湖南省和湖北省政府提出了建设城陵矶综合枢纽工程.枢纽工程的建设,将改变洞庭湖水动力特征,影响湖区生态环境.该研究基于MIKE 21模型构建了洞庭湖二维水动力模型,模拟预测了枢纽工程建设前后洞庭湖湖体水位、流速等水动力参数变化特征.验证结果显示:水动力模拟结果与实测值吻合较好,模型计算结果有效可靠.模拟结果显示:城陵矶综合枢纽调度运行后,能够有效抬升全湖水位0.78~1.06 m,增加湖泊面积5.96%~10.84%,增加湖容31.18%~39.69%.枢纽工程对缓解洞庭湖秋季旱情、春季旱情作用明显,能够在一定程度上解决洞庭湖枯水期提前、枯水期延长、枯季水位偏低等问题.随着水位的抬升,湖体流速有不同程度的减小,退水期、枯水期平均流速由0.30 m·s-1和0.23 m·s-1降至0.28m·s-1和0.19 m·s-1,分别降低了6.67%、17.39%.城陵矶综合枢纽运行后,水流速度减缓、水体滞留时间延长,将加大湖体富营养化风险.     

基于中巴地球资源1号卫星的太湖表层水体水质遥感

利用CBERS 1的CCD数据和准同步地面监测数据,结合水体组分的光谱特征,建立了太湖表层水体叶绿素a和总氮的遥感信息模型.将模型用于2000 09 16太湖表层水体,所得结果较客观地反映了叶绿素a和总氮的分布趋势,表明利用CBERS 1的CCD数据进行湖泊表层水体水质指标监测具有重要的现实意义和应用前景.由于地面监测站位有限,模型在浅水草型湖泊———东太湖的适用性受到一定限制,说明同步性好、覆盖广的地面监测对于水质遥感信息模型的准确性和适用性至关重要.