Predicting the Relative Retention Time (RRT) of Polybrominated Diphenyl Ethers (PBDEs)

Using the molecular electronegativity distance vector descriptors derived directly from the molecular topological structures, the relative retention time （RRT） of polybrominated diphenyl ethers （PBDEs） were predicted. A four-variable regression model （M30） with the correlation coefficient of 0.9816 and the root mean square errors of 0.061 was developed using a training set including 30 PBDEs. The correlation coefficient of 0.9841 and the root mean square errors of 0.054 between the values of RRT predicted by M30 and the RRT observed for 16 external PBDEs show a good predictive potential of M30. The descriptors included in the M30 represent four interactions between four pairs of atom types, i.e., atom -C= and -C=, -C= and 〉C=, 〉C= and 〉C=, -C= and -Br.

Polybrominated Diphenyl Ethers in Surface Sediment from Songhua River Basin,Northeast of China

Sixty sediment samples were collected from the main Songhua River in three years. Twelve polybrominated diphenyl ether( PBDE) congeners( BDE17,28,47,66,99,100,153,154,138,183,and BDE-209) were detected to state the pollution situation. The results showed that the total concentration of total PBDEs ranges from 0. 424 to 23. 0 ng / g dry weight,with the mean of 3. 02 ng / g,and the total PBDEs concentration is at relative low level compared with those worldwide. The congener profile showed that BDE-209 is the dominant congener that accounts for more than 80. 1% of total PBDEs in sediments,followed by BDE-47 and BDE-99. These profiles are consistent with a high consumption of Deca-BDEs for the brominated flame retardant market in China. The results of spatial and seasonal observations indicated that local sources,temperature variation, and hydrologic conditions are significant factors on PBDEs concentrations. Hazard quotients suggested that PBDEs pose no potential risk to benthic organisms in detected area at present.

Bioaccumulative Characteristics of Polybrominated Diphenyl Ethers in Channel Catfish and Fish Feeds from China

PBDEs are widely used brominated flame retardant, which are increasingly reported in the environment. Concentrations of thirteen PBDEs in a large number of channel catfish and fish feeds collected from Hubei province of China were investigated in this study. A fast isotopic dilution GC-MS method was firstly developed to simultaneously determine thirteen PBDEs in channel catfish and fish feeds in this study, and especially for the first time PBDEs in fish feeds. Pressurized liquid extraction and multi-layer silica gel column chromatography cleanup were used, some important steps and crucial parameters were modified and intensified compared with other literatures, and GC and MS conditions were optimized. The limits of quantitation values of 0.25 - 5 μg·kg-1 wet weight in channel catfish were calculated for PBDEs;so did 1 - 20 μg·kg-1 wet weight in fish feeds. In addition, good repeatability and accuracy of the whole method were achieved. The established methods were therefore suitable for the simultaneous determinations of thirteen PBDEs in these samples at trace contamination levels. Using the established methods, PBDEs emerged in 10 of 180 channel catfish and 13 of 115 fish feeds, and the dominant PBDEs homologues were PBDE-28, PBDE-47, PBDE-100, PBDE-99, PBDE-154, PBDE-153 and PBDE-183. The detection rates of seven PBDEs congeners were in turn respectively 1.74%, 7.83%, 4.35%, 5.22%, 3.48%, 2.61% and 2.61% in fish feeds, and detection rates of seven PBDEs congeners were in turn respectively 1.11%, 3.89%, 2.22%, 1.67%, 1.11%, 1.11% and 1.11% in channel catfish. There was significant correlation in PBDEs between matching channel catfish and fish feeds (R2 = 0.742, P < 0.001, n = 30), suggesting that fish feeds contaminated with PBDEs possibly resulted in PBDEs residual in channel catfish through biological transfer.

Identification of the metabolites of polybrominated diphenyl ether 99 and its related cytochrome P450s

Objective：To investigate the metabolites of polybrominated diphenyl ether 99（BDE-99）and its related cytochrome P450s in an in vitro system.Methods：Rat primary hepatocytes were isolated and treated with BDE-99 for 24-72 h.Metabolites were then extracted from the hepatocytes and media,and detected by GC/MS.Several mRNAs of metabolic enzymes were also extracted from the same cells and the gene expression levels were determined using quantitative real-time PCR.In addition,selected recombinant cytochrome P450s（CYPs） were expressed in a bacurovirus/sf9 system,and these were further used to explore the metabolism of BDE-99 in vitro.The parent depletion approach was used for screening the ability of CYPs to eliminate BDE-99.Results： A reductively debrominated metabolite,BDE-47,and three oxidative metabolites,2,4,5-tribromophenol,5-OH-BDE-47,and 5＇-OH-BDE-99,were identified from the BDE-99-treated rat hepatocytes,whereas no MeO metabolite was detected in the system.RT-PCR analysis showed that CYP 3A23/3A1,1A2,and 2B1/2 were induced by BDE-99.Furthermore,using the heterological expressed CYP proteins in in vitro BDE-99 metabolism experiments we found that CYP1A2 and CYP3A4 showed the highest metabolic efficiency for BDE-99,with the metabolic clearance rates of CYP1A2 and CYP3A4 being 30.3%and 27.7%,respectively.CYP1A1 and CYP2A6 displayed relatively low clearance rates,while CYP2E1 seemed not to be associated with the BDE-99 metabolism.Conclusions：In our in vitro rat primary hepatocyte metabolism system,four metabolites of BDE-99 were identified,and CYP3A4 and CYP1A2 were demonstrated to be involved in the BDE-99 metabolism.

Colloid-facilitated release of polybrominated diphenyl ethers at an e-waste recycling site: evidence from undisturbed soil core leaching experiments

Polybrominated diphenyl ethers (PBDEs), a class of persistent organic pollutants, have been frequently detected in soil at e-waste recycling sites. However, the key factors controlling the transport of PBDEs from surface soil to the vadose zone and groundwater are unclear. Here, colloid-enhanced leaching of PBDEs from undisturbed soil cores collected at an e-waste recycling site in Tianjin, China, is reported. Spatially heterogeneous release of colloids and PBDEs was observed in all the tested soil cores under chemical and hydrodynamic perturbations, indicating the presence of preferential flow paths. Colloid concentration in the effluent significantly increased as ionic strength decreased (from 10 to 0.01 mmol/L), probably due to the stronger electrostatic repulsion between colloidal particles and the soil matrix at lower ionic strength. In contrast, colloid mobilization was not significantly affected by the changes in pH of the influent (from 4.0 to 10.0) and flow rate (from a Darcy velocity of 1.5 to 6.0 cm/h). The concentrations of 2,2′,3,3′,4,4′,5,5′,6,6′-decabromodiphenyl ether (BDE-209), the predominant PBDE congener at the site, detected in the leachate (ranging from 1.09 to 3.43 ng/L) were much lower than previously reported results from packed column leaching tests, and were positively correlated with colloid concentrations. This indicates that remobilization of colloids at e-waste recycling sites can promote the leaching and downward migration of PBDEs from surface soil. The findings highlight the potential risk of surface soil PBDE contamination to groundwater quality and call for further understanding of colloid-facilitated transport for predicting the fate of PBDEs at e-waste recycling sites.

Distribution and partition of polybrominated diphenyl ethers(PBDEs) in water of the Zhujiang River Estuary

The spatial,temporal,and vertical distributions of polybrominated diphenyl ethers(PBDEs) in water columns from the Zhujiang River Estuary were examined,and the partition behavior of PBDEs between particle and dissolved phases was investigated in the present study.The results show that the distributions of PBDEs concentrations in the water varied with the sampling seasons.The PBDEs concentrations in water samples were lower in May 2005,when the brackish water was dominant in the estuary,than in October 2005,when fresh water from river runoff dominated the estuary.The spatial distribution of PBDEs in October 2005 indicated that the river runoff was the major mode to input PBDEs to the estuary,and the concentration of PBDEs in water might be dissolved organic carbon(DOC) dependence.The spatial and vertical distributions of PBDEs in May 2005 were relatively homogeneous,and SPM was the major factor on controlling the levels of PBDEs in this sampling time.Both DOC and POC could play certain roles in determining the distribution and partition of PBDEs between particle and dissolved phases,but their effects varied with the water properties.

多溴二苯醚(PBDEs)对环境的污染及其生态化学行为

作为一种良好的防火溴代阻燃剂(brominnted flamt retardants,BFRS),多溴二苯醚(polybrominated diphenyl ethers,PBDEs)主要应用于各种家用和工业产品中,包括各种电子产品和家庭装饰产品。近年来,环境中PBDEs的浓度在不断上升。PBDEs具有很高的亲脂性和持久性,使得其在环境中易于富集和生物放大;同时,PBDEs又具有一定的挥发性,能够长途迁移至偏远地区;PBDEs具有一定的生物致毒作用和内分泌干扰作用。本文从生态化学行为和生态毒性两个方面综合论述了PBDEs在环境中的分布及存在水平、一般毒性效应和内分泌干扰行为,分析了当前研究中存在的问题,展望了PBDEs污染的研究方向。

多溴联苯醚(PBDEs)在海洋环境中的行为研究进展

多溴联苯醚(PBDEs)被称作"二十一世纪的多氯联苯",是一类具有生态风险性的新型持久性有机污染物。本文在介绍PBDEs物理化学性质的基础上,分析了PBDEs在海洋中的时空分布变化趋势,重点总结了PBDEs在海洋中的生物积累、生物放大、生物转化行为及其对海洋生物的毒性,探讨了海洋环境中PBDEs未来的研究方向。

日用塑料制品中PBDEs的污染特征及其人体健康暴露风险

采用气相色谱/质谱联用仪和健康风险评价模型,研究了北京居民日常接触的典型日用塑料制品中PBDEs（多溴二苯醚）的赋存特征及其人体健康暴露风险.结果表明：1塑料盆、垃圾桶、塑料垫、塑料板凳、拖把、热水壶壳、给水管、采暖管、排水管、拖鞋、收纳箱、文件框等12种日用塑料制品中w（∑21PBDEs）为0.45-21.30 mg/kg,平均值为5.98 mg/kg.2日用塑料制品中十溴二苯醚是主要的PBDEs同系物,w（十溴二苯醚）平均占w（∑21PBDEs）的82.51%;九溴二苯醚是次要PBDEs同系物,平均占9.76%;三溴-六溴二苯醚质量分数较低,平均占1.77%,日用塑料制品生产过程中添加含十溴二苯醚的废弃阻燃塑料是引起PBDEs污染的主要原因.3成人通过呼吸吸入、皮肤接触和手-口3种途径摄入的PBDEs暴露量分别为295.77、44.29、0.00pg/（kg·d）,儿童通过3种途径的PBDEs暴露量分别为769.55、40.83、1.91 pg/（kg·d）表明呼吸吸入是主要暴露途径.4日用塑料制品中PBDEs对成人和儿童的释放暴露非致癌危害熵分别为2.28×10-4和5.46×10-4,低于美国标准中可接受风险熵（1.0）,表明日用塑料制品中PBDEs对人体的健康风险影响很小.

厦门近海沉积物中PBDEs与PBBs残留的GC-NCI／MS和GC-ECD分析

将气相色谱．负离子化学源．质谱法（GC—NCI／MS）和气相色谱-电子捕获检测法（GC-ECD）应用于分析沉积物中6种多溴联苯醚（PBDEs）和5种多溴联苯（PBBs）残留。沉积物样品以V（正己烷）：V（丙酮）=1：1作为提取剂，采用索式提取法，提取液经酸性硅胶和中性硅胶层析柱净化和正己烷洗脱后，以PCB-103为内标物和GC-NCI—MS的选择离子监测方式（SIM）进行定性与定量分析，PBDE-209则采用GC．ECD法分析。平均加标回收率为93．3％～110．8％，相对标准偏差为1．2％-8．6％，方法检测限均小于0．20μg／kg（PBDE-209的方法检测限是7．74μg／kg），相关系数都大于0．9990。所分析沉积物样品中均含有微量的PBDE-99、PBB-49和PBDE-209。

生物体中多溴联苯醚(PBDEs)的分布及毒性效应

多溴联苯醚(polybrominated diphenyl ethers,PBDEs)作为阻燃剂广泛存在于人们的生活环境中,因其存在污染问题成为当前环境科学领域研究的一大热点.通过分析近年来多溴联苯醚在生物体中的分布情况和甲状腺毒性、神经系统毒性、肝脏毒性、生殖发育毒性、免疫毒性等效应,阐述了多溴联苯醚的毒性机理.目的是为多溴联苯醚对生物体造成的影响提供切实可靠的理论支持,引起人们对此类阻燃剂的关注与重视.

Polybrominated diphenyl ethers(PBDEs)in ambient air samples at the electronic waste(e-waste)reclamation site

Polybrominated diphenyl ethers(PBDEs)have been used as flame retardants in various building materials,plastic and other polymers,airplanes,electronics,etc.All or some of their congeners have been already banned in many countries,due to their persistency and adverse health effects.In this study,we are focusing on e-wastes as a source of emission of PBDEs in ambient air during reclamation processes.The ambient air particulate matter(PM)samples were collected at and near an e-waste reclamation site in Bangkok,Thailand.Results showed the presence of various homologues,viz:tri-,tetra-,penta-,hexa-,and hepta-PBDEs in both PM2.5 and total suspended particle(TSP)samples.The comparison of samples as a function of distance from the reclamation site indicated elevated levels of PBDEs in close proximity to the e-waste site.Interestingly,a shift in the congener pattern was observed with lower brominated PBDEs being more prevalent in nearby off-site samples as compared to the PM collected at the e-waste site.The total penta-PBDEs concentration is almost double in the e-waste site PM2.5 compared to the control site samples.For TSP,tetra,penta,and hepta-PBDEs congeners are at higher concentrations at the e-waste sites and its vicinity compared to reference sites.Overall,a clear trend can be observed indicating a debromination of PBDEs to more toxic tri and tetra congeners during the reclamation process and PBDEs are being translocated from treated materials to ambient air PM.BDE 30 is uniquely detected in our studies as a dominant final debromination product,that can be used as a marker of thermal e-waste activity.This work indicates potential hazards related to the reclamation of e-wastes and remediation of sites containing PBDEs.In particular,thermal treatment methods can lead to congener transformation and increased emissions of more toxic lower brominated congeners.

工业区土壤中PBDEs的污染特征及土气交换分配

为了研究富拉尔基混合工业区表层土壤中多溴联苯醚（PBDEs）的污染特征，在混合工业区收集了12个表层土壤样品，分析了土壤中PBDEs的空间分布特征。结果表明，城区土壤中∑11PB-DEs的总浓度范围为963～10700 ng·kg^-1，平均浓度为4510 ng·kg^-1，其中BDE-209为土壤中PBDEs的最主要组分，浓度范围为893～10600 ng·kg^-1，占总浓度的93％以上。PBDEs总含量在不同土地利用功能分区上呈现工业用地〉居住用地〉城市公园及郊区的分布规律。采用主成分分析对表层土壤中PBDEs的来源进行了研究，发现混合工业区表层土壤中PBDEs主要来自于商用十溴联苯醚和商用五溴联苯醚。土壤-大气交换逸度分析ff〈0．5，表明PBDEs以大气沉降为主。

多溴联苯醚(PBDEs)的降解技术研究进展

多溴联苯醚(Polybrominated Diphenyl Ethers,简称PBDEs)作为一种新型的持久性有机污染物,因其在环境中的广泛分布和生物累积性而备受关注。因此,研究降解多溴联苯醚经济适用的方法和机理具有十分重要的现实意义。文章针对当前国内外学者对环境中多溴联苯醚降解技术及机理的研究进展,分别阐述了生物降解、光降解、电解Fenton试剂及零价铁法的降解效果及降解机理,并总结了今后多溴联苯醚降解技术的研究方向。

基于支持向量机法研究PBDEs类化合物的P_L

应用支持向量机方法研究了19种PBDEs类化合物的PL和分子结构的定量关系,结果发现,采用支持向量机方法可以实现使用较少样本数据建模,并达到较好预测结果的目的。支持向量机方法的预测结果远优于线性溶解能关系法的预测结果。用支持向量机回归方法对PL进行了预测,准确度非常高,所得模型的平均相对误差为0.12262。

湛江红树林湿地沉积物中多溴联苯醚(PBDEs)的污染特征与生态风险评价

近年来,红树林有机污染物(POPs)污染逐渐加重,其生态环境保护压力日趋加大。湛江红树林保护区是中国面积最大的红树林自然保护区,对生态系统稳定具有重要作用,准确评估湛江红树林湿地多溴联苯醚(PBDEs)的污染现状及潜在生态风险,对了解湛江红树林有机污染物的污染状况、红树林的生态环境保护等具有重要意义。采用索氏抽提法和气相色谱-质谱法测定了湛江红树林湿地12个采样位点沉积物中的PBDEs质量分数,分析了多溴联苯醚(PBDEs)的污染水平、空间分布特征及其潜在风险。结果表明,湛江红树林表层沉积物中共检测到14种PBDEs,BDE-209质量分数占比最高,为53.58%—77.66%。12个采样点的∑PBDEs质量分数均值为23.30 ng·g^(−1)。按地理位置划分为6个研究区域,各研究区域的∑PBDEs质量分数均值变化为:湛江市区(33.06 ng·g^(−1))>廉江西(29.68 ng·g^(−1))>徐闻(19.29 ng·g^(−1))>雷州东(16.47 ng·g^(−1))>遂溪(15.72 ng·g^(−1))>雷州西(11.92 ng·g^(−1));BDE-209、∑13PBDEs(除BDE-209外)质量分数的分布规律与∑PBDEs质量分数的变化趋势一致。与国内外其他红树林湿地沉积物相比,湛江红树林沉积物中∑PBDEs质量分数处于中等水平。湛江红树林沉积物中的PBDEs污染主要源自商业五溴、八溴及十溴联苯醚产品的使用,高溴联苯醚的降解也是其来源之一。环境中的降雨量、TOC、pH值等对沉积物中PBDEs的影响不大。风险熵数法的生态风险评价结果表明,湛江红树林沉积物中PBDEs的综合生态风险水平较高,尤其是penta-BDEs和deca-BDEs处于高风险水平,应引起关注。

Occurrence and bioaccumulation of polybrominated diphenyl ethers in sediments and paddy ecosystems of Liaohe River Basin, northeast China

Concentrations of 16 polybrominated diphenyl ether（PBDE） congeners were measured in river sediments, paddy soils and three species of paddy-field organisms（crab, loach and carp） collected from the Liaohe River Basin, northeastern China. The total contents of PBDEs（∑_（16）PBDEs） in sediments and paddy soils were in the ranges of 273.4–3246.3 pg/g dry weight（dw）, and 192.1–1783.8 pg/g dw, respectively. BDE 209 was the dominant congener both in sediments and paddy soils. The concentrations of ∑_（16）PBDEs in sediments were significantly higher than those in the adjacent paddy soils, indicating a potential transport of PBDEs from river to paddy ecosystems via river water irrigation. The biota–soil accumulation factor（BSAF） was calculated as the ratio between the lipid-normalized concentration in paddyfield organisms and the total organic carbon-normalized concentration in paddy soil. The average BSAF values of ∑15PBDEs followed the sequence of crab（3.6） 〉 loach（3.3） 〉 carp（2.1）. BDE 154 had the highest BSAF value, and a parabolic trend between BSAF values of individual PBDE congeners and their log KOWvalues was observed. In view of the fact that crab had the larger BSAF value and higher lipid content, the ecological risk and health risk for crab cultivation in paddy fields should be of particular concern.

磁性活性炭原位修复养殖底泥中多溴联苯醚(PBDEs)的研究

为控制养殖底泥中有机污染物的迁移性并降低其生物可利用性,从而保障水产品的质量安全,分别以普通活性炭(PAC)和磁性活性炭(MPAC)为修复材料,将其应用到受多溴联苯醚(PBDEs)污染的养殖池塘底泥中,以菲律宾蛤仔(R.philippinarum)为受试生物,通过底泥生物有效性实验和生物累积实验分别探究活性炭对底泥中PBDEs的原位修复效果。结果表明:磁化前后,MPAC的比表面积和孔容积均略低于PAC,平均孔径显著增加,两者均能较容易地对PBDEs进行吸附,与PAC相比,MPAC虽对PBDEs的吸附速率较慢,但吸附量却小幅度增加;目标养殖池塘水产品的食用风险较低,但底泥中四溴、五溴联苯醚存在较高的潜在生态风险,且水产品对底泥中目标化合物已表现出明显的生物富集性;修复效果表明PAC和MPAC均可对PBDEs污染养殖环境进行修复,尤其是对底泥中可能产生生态风险的四溴、五溴联苯醚修复效果较好,且最优投加比例分别为3%和1.5%,但在实际现场修复过程中考虑到MPAC具有较低的投加量及磁性可回收循环利用的特点,因此可能更适合作为PBDEs污染养殖池塘底泥的修复材料。研究证实,MPAC在修复底泥中PBDEs方面有积极作用,不仅可控制底泥中PBDEs的迁移性,还可显著降低其生物有效性,对水产品养殖环境的改善及质量的提升具有积极作用。

上海地区留鸟麻雀中多溴联苯醚(PBDEs)空间分布特征研究

为了探明上海地区留鸟麻雀中多溴联苯醚(PBDEs)污染水平、分布模式及其区域性地理分布特征,本研究以上海为典型研究区域,检测了不同功能区域内麻雀肌肉中PBDEs的含量。结果发现,上海麻雀肌肉样品中Σ_(7)PBDEs含量(BDE 28、BDE 47、BDE 99、BDE 100、BDE 153、BDE 154和BDE 183含量之和,以脂质质量计)范围为9.0~83.6 ng·g^(-1),BDE 209最高含量达292.0 ng·g^(-1),BDE 209平均含量是Σ_(7)PBDEs平均含量的2倍左右,表明十溴联苯醚(Deca)商业品是上海地区麻雀中PBDEs的主要污染源。上海工业园区和城市中心地区样品中Σ8PBDEs含量(Σ_(7)PBDEs和BDE 209含量之和)显著高于农村地区的麻雀样品,Σ_(8)PBDEs地理空间分布遵从填埋场>工业园区>城市中心地区>城郊结合部>农村的规律,垃圾填埋场、工业园区是上海区域潜在的PBDEs的释放源。与全国其他地区相比,上海市麻雀中PBDEs含量处于较低水平,上海地区PBDEs的生态风险较小,但垃圾填埋场、工业园区和中心城区的个别麻雀样品PBDEs含量水平较高,其潜在环境风险不容忽视。

The interaction mechanisms of co-existing polybrominated diphenyl ethers and engineered nanoparticles in environmental waters: A critical review

This review focuses on the occurrence and interactions of engineered nanoparticles(ENPs)and brominated flame retardants(BFRs)such as polybrominated diphenyl ethers(PBDEs)in water systems and the generation of highly complex compounds in the environment.The release of ENPs and BFRs(e.g.PBDEs)to aquatic environments during their usage and disposal are summarised together with their key interaction mechanisms.The major interaction mechanisms including electrostatic,van derWaals,hydrophobic,molecular bridging and steric,hydrogen andπ-bonding,cation bridging and ligand exchange were identified.The presence of ENPs could influence the fate and behaviour of PBDEs through the interactions as well as induced reactions under certain conditions which increases the formation of complex compounds.The interaction leads to alteration of behaviour for PBDEs and their toxic effects to ecological receptors.The intermingled compound(ENPs-BFRs)would show different behaviour from the parental ENPs or BFRs,which are currently lack of investigation.This review provided insights on the interactions of ENPs and BFRs in artificial,environmental water systems and wastewater treatment plants(WWTPs),which are important for a comprehensive risk assessment.