A Toxicological Assessment of Endocrine Disrupting Chemicals Found in the BMW (Border, Midland and Western) Region of Ireland

A battery of tests was established to determine the oestrogenic, mutagenic and genotoxic potential of two categories of endocrine disrupting chemicals (EDCs), phthalates and alkylphenols. Diisononylphthalate (DINP), diethylhexylphthalate (DEHP), dibutylphthalate (DBP), diisododecylphthalate (DIDP) and 4-nonylphenol (4-NP) were oestrogenic in the yeast estrogen screen (YES) assay and potently oestrogenic in the MVLN and E-SCREEN assays at environmentally relevant concentrations. DINP and 4-NP were mutagenic in the Ames assay and also induced significant levels of unscheduled DNA synthesis and DNA strand breakage. Significant induction in the percentage of cells containing micronuclei was observed after treatment with DINP, DEHP and 4-NP. In addition, sewage effluents from sewage treatment plants (STPs) in the Border, Midlands and Western (BMW) region of Ireland were significantly oestrogenic in the YES assay. Moreover, analysis of levels of phthalates and alkylphenol identified in Irish rivers receiving treated effluent showed potent oestrogenicity in the YES assay. The proliferative and genotoxic ability of the phthalates and alkylphenol, and the oestrogenicity of the treated effluents reported here, is significant as these EDCs and EDCs within the effluent may play a role in the etiology of human abnormalities.

Screening for Genotoxicity and Oestrogenicity of Endocrine Disrupting Chemicals <i>in Vitro</i>

A diverse range of endocrine disrupting chemicals (EDCs) was examined, using an in vitro test system, for critical events required for the onset of carcinogenesis in vivo. The initiation stage of carcinogenesis is a genotoxic process. 4-Octylphenol (alkylphenol), bisphenol A (plasticiser), coumestrol and genistein (phytoestrogens), 2,4-dichlorophe- noxyacetic acid and toxaphene (pesticides) and ethinylestradiol (synthetic hormone) were investigated for potential mutagencicity, DNA strand breakage, clastogenicity and DNA repair. Significant induction in the percentage of cells containing micronuclei was observed for all the EDCs. Toxaphene and coumestrol were mutagenic in the Ames assay. They also induced significant levels of unscheduled DNA synthesis and DNA strand breakage. Bisphenol A induced low level DNA strand breakage in HepG2 cells in the comet assay. The EDCs, with the exception of toxaphene, induced transcriptional activation in the yeast estrogen screen (YES) assay. They were potently oestrogenic in the mammalian based MVLN (transactivation) and E-SCREEN (proliferation) assays. This report on the transactivational, proliferative and genotoxic ability of the EDCs suggests that these chemicals may play a role in the etiology of male and female reproductive cancers.

典型EDCs在A^2/O-MBR组合工艺中的迁移行为

以环境水体中21种典型内分泌干扰物(EDCs)为目标物,对其在某城市污水处理厂厌氧-缺氧-好氧与MBR的组合工艺(A^2/O-MBR)中的迁移和归趋进行了长期研究。结果表明,该工艺对21种EDCs有很强的去除能力。EDCs在A^2/O-MBR工艺中泥水两相的迁移行为用泥水分配系数(Kd)来表示,得到的较高的泥水分配系数表明污泥对EDCs有一定的吸附作用,水相中大部分EDCs是通过污泥吸附来去除。

城市污水中EDCs的活性污泥法去除特性研究

以4种(壬基酚(4-n-NP),双酚A(BPA),雌二醇(E2)、乙炔基雌二醇(EE2))内分泌干扰物(EDCs)为目标物,针对其在城市污水处理厂工艺流程中的分布与去除进行了研究,并进一步实验研究了其去除机理。所有EDCs在城市污水厂进出水中均被检出,进水中平均浓度分别为E2:64.8 ng/L,EE2:171.5 ng/L,4-n-NP:115.4 ng/L,BPA:920.7ng/L;出水中平均浓度分别为E2:22.8 ng/L,EE2:49.9 ng/L,4-n-NP:50.9 ng/L,BPA:84.3 ng/L。污水中EDCs目标物的去除主要来自于生物处理阶段,其去除机理主要是生物降解,生物降解速率与EDCs种类及污泥类型有关。污泥吸附对EDCs的去除可产生一定的影响。

Determination and occurrence of endocrine disrupting compounds, pharmaceuticals and personal care products in fish （Morone saxatilis）

Endocrine disrupting compounds （EDCs）, pharmaceuticals and personal care products （PPCPs） have attracted much attention due to widespread contamination in aquatic environment. In this study, we determined 13 EDCs and PPCPs in fish blood, bile and muscle by using gas chromatography-mass spectrometry （GC-MS）. The limits of quantitation （LOQ） were in the ranges of 0.23-2.54, 0.22-2.36ng·mL^-1, and 0.24-2.57 ng· g^-1 dry weight （dw） for fish blood, bile and muscle, respectively. Recoveries of target compounds spiked into sample matrices and passed through the entire analytical procedure ranged from 65% to 95%, from 60% to 92% and from 62% to 91% for blood, bile and muscle, respectively. The methods were applied to the analysis of fish from a lake in California. Target compounds were relatively low in bile, and only bisphenol A （BPA） and diclofenac were measurable near the LOQ. Seven of 13 compounds were detected in blood, with total concentrations up to 39 ng· g^-1. Only BPA was frequently found in muscle, with mean concentration of 7.26 ng· g^-1 dw. The estimated daily intake of BPA through fish consumption for U.S. resident was significantly lower than the tolerable daily intake recommended by the European Food Safety Authority. This study showed that the exposure to the bisphenol A from fish diet is unlikely to pose a health risk.

消费品中的环境内分泌干扰物(EDCs)及其对健康的危害

环境内分泌干扰物(EDCs)是一类化学品,可以冒充天然激素,混进人和动物的内分泌系统,模仿、阻断或干扰天然激素而引起内分泌紊乱,造成人类和动物体内内分泌失调、生殖能力下降、发育失衡,甚至引发恶性肿瘤和生物绝种。环境内分泌干扰物种类很多,已经确定的有邻苯二甲酸酯类、重金属类、双酚A以及溴化阻燃剂等。本文综述了近年来消费品中环境内分泌干扰物对健康危害作用的研究进展,主要包括环境内分泌干扰物的种类、环境内分泌干扰物在消费品中的分布,及其对人类健康的危害等研究进展。

Use of sub-micron sized resin particles for removal of endocrine disrupting compounds and pharmaceuticals from water and wastewater

Endocrine disrupting compounds（EDCs） and pharmaceuticals pose a challenge for water and wastewater treatment because they exist at very low concentrations in the presence of substances at much higher concentrations competing for adsorption sites.Sub-micron sized resin particles（approximately 300 nm in diameter）（SMR） were tested to evaluate their potential as a treatment for EDCs including：17-β estradiol（E2）,17-α ethinylestradiol（EE2）,estrone（E1）,bisphenol A（BPA）,and diethylstilbestrol（DES） as well as 12 pharmaceuticals.SMR were able to remove 98%of spiked E2,80%of EE2,87%of BPA,and up to 97%of DES from water.For a 0.5 ppm mixture of E2,EE2,E1,BPA and DES,the minimum removal was24%（E2） and the maximum was 49%（DES）.They were also able to remove the pharmaceuticals from deionized water and wastewater.Overall,SMR are a promising advanced treatment for removal of both EDCs and pharmaceuticals.

Tuning the primary selective nanochannels of MOF thin-film nanocomposite nanofiltration membranes for efficient removal of hydrophobic endocrine disrupting compounds

Metal organic framework(MOF)incorporated thin-film nanocomposite(TFN)membranes have the potential to enhance the removal of endocrine disrupting compounds(EDCs).In MOF-TFN membranes,water transport nanochannels include(i)pores of polyamide layer,(ii)pores in MOFs and(iii)channels around MOFs(polyamide-MOF interface).However,information on how to tune the nanochannels to enhance EDCs rejection is scarce,impeding the refinement of TFN membranes toward efficient removal of EDCs.In this study,by changing the polyamide properties,the water transport nanochannels could be confined primarily in pores of MOFs when the polyamide layer became dense.Interestingly,the improved rejection of EDCs was dependent on the water transport channels of the TFN membrane.At low monomer concentration(i.e.,loose polyamide structure),the hydrophilic nanochannels of MIL-101(Cr)in the polyamide layer could not dominate the membrane separation performance,and hence the extent of improvement in EDCs rejection was relatively low.In contrast,at high monomer concentration(i.e.,dense polyamide structure),the hydrophilic nanochannels of MIL-101(Cr)were responsible for the selective removal of hydrophobic EDCs,demonstrating that the manipulation of water transport nanochannels in the TFN membrane could successfully overcome the permeability and EDCs rejection trade-off.Our results highlight the potential of tuning primary selective nanochannels of MOF-TFN membranes for the efficient removal of EDCs.

污水中内分泌干扰效应化合物识别方法研究进展

内分泌干扰效应化合物(EDCs)对生态系统的不利影响已引起广泛关注,识别环境中的EDCs是进行风险评估和管控的前提,但目前对该类物质的识别方法还不明确。介绍了从识别化合物结构到甄别EDCs的自上而下识别和从甄别内分泌干扰效应再进行化合物结构鉴定的自下而上识别这2种策略。自上而下策略中,可疑物筛查方法和非靶向筛查方法是识别未知化合物结构的主要方法,构建可疑物清单是该方法的关键,可通过综合利用各种非靶向筛查软件工具,实现对环境样品中未知结构化合物的识别。自下而上策略中,效应导向分析是较成熟的识别方法。另外,近年来发展的机器学习算法可以基于环境样品质谱谱图预测获得内分泌干扰效应活性结果,这极大地简化了效应导向分析流程。该综述为全面识别环境中EDCs并采取有效的控制策略提供了参考方法。

超高效液相色谱-串联质谱法测定皮革中9种双酚类物质

建立了皮革中9种双酚类物质的超高效液相色谱-串联质谱测定方法。样品用甲醇超声提取,提取液经固相萃取柱净化后浓缩定容、过滤,采用Agilent ZORBAX Eclipse Plus C18色谱柱(100 mm×3.0 mm,3.5μm)进行分离,水-甲醇流动相梯度洗脱,采用四级杆质谱仪进行多反应监测分析,内标法定量。结果表明,9种双酚类物质在9 min内可完成分离,线性关系良好,相关系数R2均大于0.999 0,检出限为0.8~24μg/kg,定量限为4.0~80μg/kg,加标回收率在85.2%~105.6%范围内,精密度为2.6%~10.3%。鞋用皮革样品测定发现,双酚F、双酚S、双酚A、双酚E和双酚AF均有检出,双酚F和双酚S检出率最高。该法操作简单快速、灵敏度高、精密度好,可为皮革及其制品中双酚类物质的风险监测提供技术支持。

Development of an analytical method to determine phenolic endocrine disrupting chemicals in sewage and sludge by GC/MS

An analytical method has been developed to determine bisphenol A and five degradation products of al-kylphenol ethoxylates in sewage and sludge. The parameters of accelerated solvent extraction (ASE) were optimized. C18 cartridge was used to clean up the sewage and the extract of sludge. The sensitivity of the mass detector was improved by adjusting the voltage of the lens manually. The instrumental detection limit was 3.2―17.8 pg. The method detection limits were 2.5―11.4 ng/L and 0.3―2.1 ng/g for sewage and sludge analysis respectively. The recovery and relative standard deviation for sewage analysis were 79.2%―111.4% and 6.9%―12.6%; for sludge analysis were 68.5%―114.0% and 8.9%―16.0%. Finally this method was applied to determin-ing the phenolic endocrine disrupting chemicals in sewage and sludge from a sewage treatment plant in Beijing.

Occurrences of Glucocorticoids in Aquatic Environment and Their Removal during Wastewater Treatment

Glucocorticoids(GCs) are a group of endocrine-disrupting compounds(EDCs) frequently prescribed against various medical conditions.Recently,GCs have been shown to be effective in managing septic shock in patients infected with the 2019 novel coronavirus(COVID-19).Due to colossal consumption and potential risks to aquatic organisms,GCs have immensely attracted the focus of the scientific research community as a water pollutant.Therefore,the aim of this paper is to review the current knowledge on the occurrence of various GCs in the aquatic environment and their removal during wastewater treatment.A variety of GCs are ubiquitous in surface water,hospital wastewater,and sewage water worldwide.And the minimum concentration in volume is below 0.01 ng/L,and the maximum one is 10 000 ng/L,and enter the environment through hospital and urban wastewater discharging.Compared with natural GCs,higher risks to aquatic environments could be induced by synthetic GCs.The current activated sludge processes used in wastewater treatment plants(WWTPs) are not fully effective in eliminating GCs,some of which may further increase the risk of GC in the environment.In comparison with the aerobic process in WWTPs,the anaerobic and anoxic processes were found to be more efficient for GC degradation.Of the studied GCs,fluticasone propionate,clobetasol propionate,fluocinolone acetonide,and triamcinolone acetonide need more attention due to their low removal efficiencies and strong toxicity.Among the advanced treatment processes,reverse osmosis,ultraviolet irradiation,CaO_(2),and plasma could achieve significant GC activity removal while micro/ultra-filtration,chlorination,and ozonation were less efficient.

全氟烷基和多氟烷基类化合物对女性生殖内分泌的影响

全氟烷基和多氟烷基类化合物(PFAS)是一种常见的环境内分泌干扰物,广泛分布于全球,具有很强的毒性和一定的生物蓄积潜力。目前,PFAS已广泛用于医疗、家庭、食品储存和工业产品的制造生产过程中,如PVC塑料,食品包装以及塑料医用管及一些个人护理化学品。人们通常通过呼吸道及消化道接触摄入PFAS。PFAS可以通过干扰女性性激素的分泌、卵泡发育及月经周期的建立,进而损害女性的生殖功能。本文综述系统回顾了各种PFAS和PFAS混合物对女性生殖功能的影响及其可能的机制。

北京污水厂进、出水中内分泌干扰物的分布

以三种酚类化合物(4-OP、4-n-NP、BPA)、五种雌激素(E1、E2、E3、17α-E2、EE2)为目标物,对其在北京市三个污水处理厂进、出水中的浓度及工艺流程中的分布、迁移进行了研究。结果表明,污水处理厂出水中浓度最高的物质是BPA、EE2,分别为(56～140)、(78～115)ng/L。BPA和天然雌激素(17α-E2除外)主要被生物降解去除,而对EE2的去除主要发生在初级处理过程,去除率约为63%。两种烷基酚在污水处理厂并不能被有效去除。与欧美国家、日本等相比,北京市污水处理厂进、出水中的内分泌干扰物浓度偏高,尤其是出水中的雌激素浓度较高,具有一定的环境风险。

夏季海河与渤海湾中壬基酚和辛基酚污染的状况

对夏季海河与渤海湾表层水中溶解态的壬基酚(NP)和辛基酚(OP)的污染状况进行了调查.结果表明,海河中NP和OP的浓度分别为160～429ng/L和18～56ng/L;渤海湾中NP和OP的浓度分别为33～132ng/L和n.d.～14ng/L.污水排放是海河中NP和OP的重要来源.渤海湾中NP和OP的浓度要远远低于海河,但是海水稀释不是造成其浓度降低的唯一原因.研究还发现该地区NP和OP与CODMn和TP具有显著的正相关.与珠江三角洲相比,该地区NP和OP污染情况较为严重,与国外其他类似区域相比则处于中等或较低水平.

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.

我国饮用水水源内分泌干扰物的污染现状分析

我国作为饮用水水源的天然水体和部分饮用水水源地已受到内分泌干扰物的严重影响。文章分别从重金属类和有机类污染两个方面分析了我国饮用水源内分泌干扰物的污染现状,针对我国开展内分泌干扰物研究中存在的问题给出了建议对策并做出了展望。目前,我国七大水系以及华北、东南沿海地区的部分饮用水水源地都不同程度的受到了阿特拉津等有机氯农药污染为主,南方内分泌干扰物以多氯联苯(PCBs)、双酚(A)、邻苯二甲酸酯类、壬基苯酚等有机化工原料检出率最高。作为我国居民主要饮用水源的地下水,关于其内分泌干扰物的研究资料较少,还需引起高度重视。

再生水中内分泌干扰物的初步研究

目的研究再生水中内分泌干扰物的分布。方法用固相萃取-气相色谱-质谱联用(SPE-GC-MS)技术测定某再生水厂原水、混凝-絮凝处理后出水、微孔膜处理后出水和臭氧氧化处理后出水中的雌激素酮(estrone,E1)、17β-雌二醇(17β-estradiol,E2)、17α-乙炔基雌二醇(17α-ethynylestradiol,EE2)、4-叔-辛基酚(4-tert-octylphenol,OP)、4-壬基酚(4-nonylphenol,NP)、双酚A(bisphenolA,BPA)、邻苯二甲酸二异丁酯(diisobutylphthalate,DIBP)、邻苯二甲酸二正丁酯(di-n-butylphthalate,DnBP)、邻苯二甲酸二(2-乙基己基)酯犤di(2-ethylhexyl)phthalate,DEHP犦共9种内分泌干扰物。结果上述9种内分泌干扰物在原水、混凝-絮凝处理后出水、微孔膜处理后出水和臭氧氧化处理后出水中的浓度呈下降趋势。原水中上述9种内分泌干扰物的浓度均值分别为1.54、2.48、4.38、0.66、0.87、2.33ng/L和7.77、4.83、11.78μg/L;臭氧氧化处理后出水中浓度均值分别为0.39、1.73、0.40、0.18、0.34、1.02ng/L和5.39、2.54、3.92μg/L。结论内分泌干扰物在再生水处理过程中并未得到完全去除。

塑料包装物中邻苯二甲酸酯的分布统计分析

选取36种日用塑料包装物作为研究对象,采用方差分析和多重比较检验等统计方法,对其所含6种优先控制污染物—邻苯二甲酸酯(PAEs)的分布特点进行统计分析.结果表明,仅有2.78%的塑料样品没有PAEs被检出,50%的样品含有2种或2种以上PAEs;其中邻苯二甲酸二丁酯(DBP)和邻苯二甲酸二(2-乙基)己酯(DEHP)分布最为广泛,存在于97.22%的样品中.塑料包装袋的来源、色彩与其ΣPAEs具有较高的关联性,菜市场包装袋的ΣPAEs显著高于超市塑料包装袋和一次性塑料包装袋的ΣPAEs;彩色塑料包装袋中ΣPAEs高于非彩色塑料包装袋;在材质中加入颜料的塑料包装袋其ΣPAEs明显高于表面彩绘的塑料包装袋.

高级氧化技术降解双酚A的研究进展

对高级氧化技术降解污水中一种内分泌干扰物双酚A(BPA)的作用机理和研究现状进行了综合评述。针对高级氧化技术中最重要的5种技术,即芬顿氧化及光-芬顿氧化、电化学氧化、光分解及光氧化、超声辐射和光催化氧化,详述了各种氧化技术的作用机理、降解效果以及影响因素等。还对这5种高级氧化技术今后可能的发展方向做了初步展望,鉴于各种高级氧化技术降解BPA的条件不同,通过合理设计多种高级氧化技术复合作用并建立优化模型,开发低能耗、高效率以及广泛适用于内分泌干扰物及持久性有机污染物的处理技术。