苏州河市郊段底泥中COD_(Cr)和NH_3-N的空间分布特征

对苏州河截流区外河段(城郊段)东大盈河口—北新泾,按河道形态,支流与城镇分布等因素,沿程采集24个底泥柱样,测定其不同部位不同深度底泥中COD_(Cr)和NH_3-N含量,分析COD_(Cr)和NH_3-N在沿程和垂向上的分布特征及其成因。结果表明,底泥中污染沿程分布呈不规则波状起伏,东大盈河、蕴藻浜、盐铁塘、封浜、华漕港、新槎浦等支流口,浮泥层中COD_(Cr)含量达2万mg/kg,超过背景值2—3倍,支流口下游200m范围内均较高;黄渡小支流口、华漕港支流口浮泥层中NH_3-H含量达250mg/kg,超过背景值3倍。在垂向分布上,底泥柱样都出现峰值分布,在某些弯道及支流口出现递减分布。底泥耗氧污染程度主要与支流及其排污量有关,其次是弯道凸岸处污染物易于沉积富集。这为苏州河市郊段环境综合治理、底泥疏浚和处置提供了科学依据。     

基于MIKE11模型的南淝河及其支流内分泌干扰风险评价与调控

为寻求评价和调控城市河流内分泌干扰风险的有效方法,以城市河流典型代表―南淝河及其支流水系为例,运用MIKE11水动力学和对流扩散模块构建南淝河流域城市河流雌激素迁移转化模型.同时,利用该模型对南淝河水系雌激素类物质引起的内分泌干扰风险进行评价,并基于未来可达水污染控制目标提出风险控制措施.结果表明,在最优雌激素排放率情景下,约50%以上的河段具有潜在内分泌干扰风险;仅在最高排放率情景下,丰、平、枯水期分别有19%、53%和67%河段存在高风险,高风险河段集中在南淝河城区段及其支流二十埠河、板桥河和店埠河.3种削减内分泌干扰风险远近期可达情境方案分析表明:仅依靠单一的点源截污控制方案,即使在最优排放率情景下仍有近50%的河段具有潜在风险水平;通过点源截污和70%的面源排污控制相结合的调控措施,在最优排放率情景下能使所有河段处于无风险水平;在将点源和面源排污完全截留控制的远期目标下,可以基本实现预期情景下90%以上河段处于无内分泌干扰风险水平.     

北京官厅水库中农药类内分泌干扰物分布和来源

研究了北京官厅水库中农药类内分泌干扰物污染水平、分布特点和来源.结果表明,官厅水库及其支流水体受到农药类内分泌干扰物轻度污染.从农药在官厅水库中的分布推断,官厅水库以及各支流周边地区及农田排水渠是水库中农药的重要来源.底泥中农药通过底泥孔隙向表面水扩散,是表面水农药的1个污染源.由于水库周边较多的农业活动,可能导致水中农药浓度提高.为了减少污染和水生生物对内分泌干扰物的暴露,需要进行定期监测,减少农药的使用和农事操作.     

苏州河底泥的耗氧特征及其与水质的关系

苏州河上海区段底泥中SOD的数据分析表明,市区河段底泥中SOD的大小,与上层河水中COD_(Mn)、DO、BOD_5、NH_3-N的含量均有密切的相关性。在流动水相作用下,研究了水温及流速等主要环境因素对底泥耗氧的影响。提出了市区河段水质模式中的底泥耗氧表达式。指出在市区河段中,底泥耗氧在总的耗氧过程中灵敏度最大,占主要地位。若河流两旁无污染源排入时,约占该河流总耗氧的51％;     

彭越浦苏州河河口底泥沉积特征与意义

在对彭越浦-东茭泾河道污染底泥分布的调查过程中，发现大部分河道底泥的垂直分布与苏州河及其支流大多数河道的底泥分布一致。而彭越浦交通路桥到中山北路桥段的河道底泥，却出现了特有的垂向分布。这种河道底泥从垂向上，其表层污染物含量较低，接近河道自然底泥的背景值。它是由于苏州河河水流入彭越浦，流速降低而形成的拥水沉积，其形成与彭越浦及苏州河的水文条件密切相关。这种特殊的河道底泥的发现，为苏州河支流及类似河道的治理提供了新思路。     

牡丹江中游底栖动物分布及其与栖境因子的关系

2013年秋季对牡丹江中游的3条河流(牡丹江、蛤蟆河、卧龙溪)150km河段进行大型底栖动物野外采样,共采集到大型底栖动物18种,隶属于3门5纲11目16科,其中昆虫纲(Insecta)、腹足纲(Gastropoda)和寡毛纲(Oligochaeta)物种居多.通过典范对应分析(CCA),研究大型底栖动物群落结构与主要的栖息地环境因子之间的相关关系,并通过香农-威纳(Shannon-Wiener)指数等生物多样性指数分析评价河流等级对物种多样性的影响.研究表明,流速、溶解氧、底质中的砾石含量是牡丹江中游影响大型底栖动物分布的关键栖息地环境因子,河流等级对底栖动物群落结构有一定影响,牡丹江干流底栖动物物种多样性高于支流,平均生物密度低于支流,且河流间等级差距越大,差异越显著.     

苏州河市郊段底泥中CODCr和NH3-N的空间分布特征

对苏州河截流区外河段（城郊段）东大盈河口－北新泾，按河道形态，支流与城镇分布等因素，沿程采集２４个底泥柱样，测定其不同部位不同深度底泥中ＣＯＤｃｒ和ＮＨ３－Ｎ含量，分析ＣＯＤｃｒ和ＮＨ３－Ｎ在沿程和垂向上的分布特征及其成因，结果表明，底泥中污染沿程分布呈不规则波状起伏，东大盈河、蕴藻浜、盐铁塘、封浜、华漕港、新槎浦等支流口浮泥层中ＮＨ３－Ｎ含量达２５０ｍｇ／ｋｇ，超过背景值３部。在垂向分布上，底泥     

北京市再生水与地表水中的内分泌干扰物分析

文章以北京己投入运行的再生水厂及北京地区典型地表水为研究对象,利用液相色谱-质谱分析相结合的方法对环境内分泌干扰物壬基酚、双酚A和雌醇类物质进行调查,结果显示,再生水中所含内分泌干扰物与地表水没有明显差异。壬基酚在再生水和地表水中都有检出,其浓度在30~300 ng/L之间,而双酚A除方庄和吴家村再生水厂外,其余各水样均有检出,其浓度在0~30 ng/L之间。各水样中均有雌醇类物质检出,但含量极低。再生水处理工艺对内分泌干扰物浓度水平影响很大。     

壬基酚的环境生物地球化学研究进展及对新污染物管理的建议

近年来,我国大气环境、水环境和土壤环境质量得到一定的改善,“碧水蓝天”已经成为常态.但随着持久性有机污染物、内分泌干扰物、抗生素和微塑料等新污染物在环境中不断被检出,新污染物正逐步受到广泛的关注,壬基酚作为一种典型的内分泌干扰物也备受研究人员的关注.系统地概括了我国水体中壬基酚的环境行为和暴露水平,并基于风险商法和联合概率曲线法对壬基酚可能造成的生态风险进行了评估.结果表明,壬基酚对水生生物的毒性效应主要包括急性毒性、生长发育毒性、雌激素效应和繁殖毒性;壬基酚在我国主要流域水体中普遍存在,其浓度平均值在60～1 000 ng·L^-1,浓度最高值可达4 628 ng·L^-1;基于风险商法和联合概率曲线法的风险评估结果表明,壬基酚对我国主要流域里的水生生物均存在一定的风险.最后,总结了目前比较常用的壬基酚处理处置和风险管控技术,比较了国际上内分泌干扰物的监管方法,针对我国在新污染物环境管理中存在的问题,提出了针对性政策建议,研究结果可以为我国新污染物管理和管控提供参考.     

上海市苏州河景观公众偏好研究

通过构建城市河流景观评价指标体系和评分标准,从水系结构、河道管理等级和行政区域3个方面分析了苏州河景观现状情况,且运用照片调查问卷法调查了苏州河景观的公众偏好,并分析了不同类型受访者对苏州河景观偏好的异质性。结果表明:苏州河景观整体现况较差,大部分河段处于"一般"至"差"等级,且部分河段两岸景观差异明显;苏州河不同类型河段的河流景观现况与优劣势指标有所不同;受访者对河流景观概念和保护认知情况较好,对河流景观满意度较差;环境协调性,人文景观,卫生维护,活动设施,土地利用类型依次从大到小正向影响苏州河公众景观偏好,而河流形态,建筑密度和亲水空间,为负向影响;仅性别与教育程度对苏州河公众景观偏好呈显著负影响;提出了苏州河景观总体和区段对策建议。     

太湖流域宜溧河酚类内分泌干扰物的空间分布及风险评价

以NP(nonylphenol,壬基酚)、4-t-OP(4-t-octylphenol,辛基酚)和BPA(bisphenol A,双酚A)为目标物质,研究酚类EDCs(内分泌干扰物)在太湖流域宜溧河地表水体和悬浮物中的空间分布特征及风险评价. 结果表明,太湖流域宜溧河地表水体中ρ(NP)、ρ(4-t-OP)和ρ(BPA)分别为156.2～434.0、11.8～19.4和89.8～353.8 ng/L,悬浮物中w(NP)、w(4-t-OP)和w(BPA)分别为520.0～9 818.2、52.0～454.5和39.0～2 454.5 ng/g. 流域内生活及工业污水排放可能是宜溧河流域水体中酚类EDCs的主要来源,ρ(NP)与ρ(NO₃-)呈显著正相关(R=0.860,P<0.01). 宜溧河水系中酚类EDCs在水相-悬浮物相的有机碳标准分配系数为4.14～6.41,表明悬浮颗粒物的吸附是水体中EDCs迁移的一个重要途径. 研究区域中NP、4-t-OP和BPA的入湖量分别为506、57.9和297 kg/a. 风险评价结果表明,该地区部分河段ρ(EDCs)具有潜在的生态风险.      

基于文献计量学的环境内分泌干扰物研究热点分析

进入21世纪以来,环境内分泌干扰物(endocrine disrupting chemicals, EDCs)逐渐引起全世界的关注. 为系统梳理EDCs领域文章的知识结构与研究脉络,探究EDCs的研究热点与未来趋势,以中国知网(China National Knowledge Infrastructure, CNKI)与Web of Science (WoS)数据库中关于EDCs的文章为原始数据,分别检索到1 952与11 646篇相关文章,检索截止日期为2021年6月25日. 采用文献计量学方法,使用CiteSpace软件对文献进行可视化分析,分析文章的关键词、来源期刊、学科领域、国家机构和引用文献等,结果表明:①国际上对EDCs的研究已有近30年的历史,大致可分为早期探索(1991—2000年)、深入研究(2001—2011年)和扩展研究(2012—2021年)3个阶段,其研究热度与每年发文量均呈稳定增长趋势. ②EDCs的环境行为与毒理效应机制是国内外研究的焦点,尤其是双酚A类似物和苯甲酸酯类物质. ③美国和中国发表的EDCs相关文章较多,发文量分别为2 483和1 822篇. 关注EDCs研究的国家以欧美地区的发达国家为主;中国科学院大学与美国环境保护局为发表相关文章较多的机构,发文量分别为319和222篇. ④Environmental Health Perspectives是发文量最多的期刊,“环境科学”与“毒理学”是发文量最多的学科领域. 研究显示,国内外在EDCs领域的研究脉络大致相同,主要集中在双酚A、壬基酚等EDCs的毒性效应、机制以及环境检测领域,未来还应加强EDCs复合暴露及毒性修复的研究.      

Toxics Use Reduction in the Home: Lessons Learned from Household Exposure Studies

Workers and fence-line communities have been the first to benefit from the substantial reductions in toxic chemical use and byproducts in industrial production resulting from the Massachusetts Toxics Use Reduction Act (TURA). As TURA motivates reformulation of products as well as retooling of production processes, benefits could extend more broadly to large-scale reductions in everyday exposures for the general population. Household exposure studies, including those conducted by Silent Spring Institute, show that people are exposed to complex mixtures of indoor toxics from building materials and a myriad of consumer products. Pollutants in homes are likely to have multiple health effects because many are classified as endocrine disrupting compounds (EDCs), with the ability to interfere with the body’s hormone system. Product-related EDCs measured in homes include phthalates, halogenated flame retardants, and alkylphenols. Silent Spring Institute’s chemical analysis of personal care and cleaning products confirms many are potential sources of EDCs, highlighting the need for a more comprehensive toxics use reduction (TUR) approach to reduce those exposures. Toxics use reduction targeted at EDCs in consumer products has the potential to substantially reduce occupational and residential exposures. The lessons that have emerged from household exposure research can inform improved chemicals management policies at the state and national levels, leading to safer products and widespread health and environmental benefits.     

三峡库区(重庆-宜昌段)沉积物中钒的污染特征及生态风险评价

为全面了解三峡库区(重庆—宜昌段)干支流沉积物中钒的含量水平、空间分布、赋存形态、污染程度,在三峡库区采集水体沉积物样品67个,测定了沉积物中钒的含量及其化学赋存形态,并采用地积累指数法和潜在生态危害指数法进行分析和评价.结果表明:1三峡库区研究区范围内沉积物中钒的含量范围为89.4~175.2 mg·kg-1,平均值为123.7 mg·kg-1,略高于长江沉积物背景值;2库区沉积物中钒的空间分布特征主要呈现库区干流含量大于支流,干流下游沉积物中钒含量高于上游;3沉积物中钒含量的极值点出现在较发达县(区)附近,考虑其来源可能是人为源汇入;4库区沉积物中钒的赋存形态主要以残渣态为主,所占质量分数为80%~89%,并与总量呈现显著正相关关系;5沉积物中钒污染程度较小,潜在环境危害影响较弱.     

松花江流域某自来水厂中内分泌干扰物的调查

利用固相萃取-高效液相色谱法调查了松花江流域某自来水厂原水、传统净水工艺各处理单元出水及管网水中的13种内分泌干扰物(EDCs).结果表明,固醇类雌激素物质除管网水中未检出外,其他各水样均有检出,浓度为4-44 ng·L-1;4种邻苯二甲酸酯(PAEs)、双酚A(BPA)及3种烷基酚(APs)在各水样中几乎100%检出,浓度为2～163 760 ng·L-1,其中以邻苯二甲酸二丁酯(DBP)与邻苯二甲酸二(2-乙基己基)酯(DEHP)为主.研究还发现,尽管有个别EDCs出水浓度高于进水浓度,但混凝沉淀工艺对EDCs的去除在该水厂中占主导作用,平均去除率为63%;砂滤与氯消毒工艺出水不稳定,只能对部分EDCs起到一定程度去除作用.此外,出厂水经管网输送后其中的绝大多数EDCs含量升高,说明进入管网水中的EDCs除水源水污染外,还有一个重要途径就是输水管材中相应污染物的渗析.     

水中壬基酚的去除研究进展

壬基酚是环境内分泌干扰物质中具有代表性的物质,非离子表面活性剂壬基酚聚氧乙烯醚在环境中的降解产物,对生物体造成很大危害。目前检测水样中壬基酚的主要方法是采用GC—MS和HPLC,预处理主要采用固相萃取和液一液萃取。研究表明自来水厂的常规处理工艺对于水中壬基酚的去除有限;近年来倍受关注的深度处理工艺如活性炭吸附等物理方法...     

Exposure to endocrine disrupting chemicals perturbs lipid metabolism and circadian rhythms

A growing body of evidence indicates that exposure to environmental chemicals can contribute to the etiology of obesity by inappropriately stimulating adipogenesis as well as perturbing lipid metabolism and energy balance. One potential mechanism by which chemical exposure can influence lipid metabolism is through disturbance of circadian rhythms, endogenously-driven cycles of roughly 24hr in length that coordinate biochemical, physiological, and behavioral processes in all organisms. Here we show for the first time that exposure to endocrine disrupting compounds (EDCs), including the pesticide tributyltin, two commercial flame retardants, and a UV-filter chemical found in sunscreens, can perturb both circadian clocks and lipid metabolism in vertebrates. Exposure of developing zebrafish to EDCs affects core clock activity and leads to a remarkable increase in lipid accumulation that is reminiscent of the effects observed for longdaysin, a known disruptor of circadian rhythms. Our data reveal a novel obesogenic mechanism of action for environmental chemicals, an observation which warrants further research. Because circadian clocks regulate a wide variety of physiological processes, identification of environmental chemicals capable of perturbing these systems may provide important insights into the development of environmentally-induced metabolic disease.     

Spatial-temporal distribution and potential ecological risk assessment of nonylphenol and octylphenol in riverine outlets of Pearl River Delta, China

The aquatic environments of the Pearl River Delta in Southern China are subjected to contamination with various industrial chemicals from local industries. In this paper, the occurrence, seasonal variation and spatial distribution of alkylphenol octylphenol （OP） and nonylphenol （NP） in fiver surface water and sediments in the runoff outlets of the Pearl River Delta were investigated. NP and OP were detected in all water and sediment samples and their mean concentrations in surface water during the dry season ranged from 810 to 3366 ng/L and 85.5 to 581 ng/L, respectively, and those in sediments ranged from 14.2 to 95.2 ng/g dw and 0.4 to 3.0 ng/g dw, respectively. In surface water, much higher concentrations were detected in the dry season than those in the wet season. In sediments, the concentrations in the dry season were also mostly higher. High concentrations of NP and OP were found in Humen outlet, likely due to high levels of domestic and industrial wastewater discharges. An ecological risk assessment with the use of hazard quotient （HQ） was also carried out and the HQvalues ranged from 3.6 × 10^-5 to 35 and 64% of samples gave a HQ 〉 1, indicating that the current levels of NP and OP pose a significant risk to the relevant aquatic organisms in the region.     

Profile and removal of endocrine disrupting chemicals by using an ER/AR competitive ligand binding assay and chemical analyses

An estrogen receptor (ER)/androgen receptor (AR) ligand competitive binding assay (ER/AR-binding assay) and chemical analyses were used to evaluate the endocrine disrupting chemicals (EDCs) behavior of two municipal wastewater treatment plants (WWTPs) (K and S). In the influents, estrone (E1), androsterone (A), androstenedione (AD), BPA (bisphenol A), NP (nonylphenol) and daidzein (DZ) were detected in high amounts with subsequent 24 h-average concentrations of 350, 1000, 29, 1300, 3900, and 5700 ng/L in K-WWTP and of 310, 620, 59, 1600, 2600, and 8400 ng/L in S-WWTP. The estrogenic (androgenic) activity as 17 -estradiol (E2) equivalents (EEQ) or testosterone (Te) equivalents (TEQ) was consequently 620 ng E2/L (570 ng Te/L) and 580 ng E2/L (800 ng Te/L) for the two WWTPs. The removal e ciencies of the above mentioned sole target chemicals were 51%–100% for K-WWTP and 55.6%–100% for S-WWTP. The removal e ciencies of EEQ were about 73% for both WWTPs, while the removal e ciencies of TEQ were 62.1% for K-WWTP and 98.4% for S-WWTP. In addition, chemical-derived EEQ were about 1.2%–52.4% of those by ER-binding assay for K-WWTP and the corresponding ratios were 1.3%–83.3% for S-WWTP, while chemical derived TEQ were less than 3% of values measured by the AR-binding assay for both WWTPs.