工业园及电子垃圾区大气中的溴代阻燃剂(BFRs)

对广州市主要的工业园以及清远电子垃圾回收拆解园周边空气中溴代阻燃剂（BFRs）进行了分析.结果表明,两地区大气中均以多溴联苯醚（PBDEs）和十溴二苯乙烷（DBDPE）为主（城市地区占比分别为30.0%和68.0%,电子垃圾区分别为74.5%和22.8%）,其中PBDEs在城市地区和电子垃圾区的浓度中值分别为184和411pg/m³;DBDPE则分别为414和193pg/m³.在城市地区,PBDEs的浓度高值多出现在与机械、电子、装饰材料和汽车制造业有关的工业园,新型阻燃剂DBDPE高浓度则多在与机械和电子产品制造业相关的大气中,而1,2-二（2,4,6-三溴苯氧基）乙烷（BTBPE）可能受当地面源污染影响较大.城市地区低分子量的PBDEs的组成波动较大,与五溴联苯醚的禁用（直接排放减少）和来源复杂有关;而电子垃圾区低分子量PBDEs组成稳定,气-固相分配更接近平衡,说明来源较为单一.通过模型估算,城市地区的21个工业园每年约向空气中释放48.0kg的BDE209与163kg的DBDPE,4个电子垃圾拆解园每年约释放31.8kg的PBDEs与12.0kg的DBDPE.     

典型废旧塑料处置地土壤中多溴联苯醚污染特征

选择我国北方典型废旧塑料处置地为研究区域,对土壤中21种PBDEs(多溴联苯醚)的含量、同系物组成和分布特征进行了研究. 结果表明,该区域土壤中w(∑PBDEs)为1.25~3673.41ng/g,平均值为749.29ng/g,其中w(BDE209)占w(∑PBDEs)的92%以上. 整体上,处置作坊内土壤中w(∑PBDEs)明显高于作坊间道路土壤和处置地周边土壤. 塑料中添加的十溴联苯醚工业品是该区域土壤中PBDEs的主要来源. 该区域土壤PBDEs污染水平与我国电子废物集中处置场地相当,高出我国一般城市及工业城市土壤1~3个数量级,是我国另一类PBDEs高污染区,其环境风险性应引起足够的重视.      

废弃电子垃圾拆解地野生鱼类卤系阻燃剂残留

为了解废弃拆解地环境中电子垃圾相关污染物的含量水平及其生态风险,本文测试了华南某废弃电子垃圾拆解地野生鲮鱼和鲫鱼体内多溴联苯醚（PBDEs）、多溴联苯（PBBs）、得克隆（DP）和替代型溴系阻燃剂（ABFRs）等卤系阻燃剂（HFRs）的含量和组成,评估了这些污染物对于野生鱼类及食鱼野生动物的生态风险.电子垃圾拆解地鲮鱼和鲫鱼体内∑HFRs的含量范围分别为1230~1680和141~650ng/g,高于对照区1~2个数量级,表明虽然粗犷的电子垃圾回收活动已禁止多年,当地野生鱼类仍然受到HFRs严重污染.PBDEs是鱼体内最主要的HFRs,鲮鱼和鲫鱼体内其分别占∑HFRs的96%和89%.鲮鱼和鲫鱼体内HFRs含量和组成均存在显著差异,可能与其生活习性、营养级和脂肪含量不同有关.风险评估结果显示,PBDEs对野生鱼类及食鱼野生动物均具有较大的生态风险.     

多溴联苯醚在电子废弃物拆卸地沉积物中的垂直分布

采用气相色谱质谱联用仪对采自清远电子废弃物拆卸地水库钻孔沉积物中的多溴联苯(polybrominated diphenyl ethers,PBDEs)进行了分析,调查其在沉积物中的垂直分布.结果表明,PBDEs在所有的样品中均检出,含量为0.43～141 ng/g,平均为9.26 ng/g.PBDEs在下层(16 cm以下)沉积物中含量较低、变化很小(0.43～2.30 ng/g),但在上层沉积物中含量明显增加(2.90～141 ng/g),反映了当地电子废弃物拆卸活动的影响;3种工业源的PBDEs,即五溴、八溴和十溴PBDEs,表现出相似的垂向分布趋势,说明其来源的一致性.其中,十溴PBDEs是最主要的PBDEs,平均占所有PBDEs的79.6%,其次是五溴PBDEs(14.7%),而八溴PBDEs所占比例最低(5.69%).3种PBDEs的组成模式显示,它们与相应的工业品PBDEs组成都有一定差异,可能因其降解行为不同所致.一些PBDE的同族体组成在沉积钻孔的垂直变化也进一步说明高溴代PBDE在沉积物的埋藏期间可能发生了降解,虽然还需要进一步研究证实.     

电子拆解区家禽中溴代阻燃剂的污染特征

对某电子废物拆解区散养草鸡进行了12种多溴联苯醚(PBDEs)和十溴二苯乙烷(DBDPE)的污染水平分析.结果显示,草鸡中PBDEs和DBDPE主要通过土壤途径摄入,各个组织中PBDEs均被检出,肾脏中PBDEs含量最高(2071 ng·g~(-1),以脂重计),肝脏中PBDEs平均含量(550ng·g~(-1),以脂重计)远高于肌肉组织(131 ng·g~(-1)(腿肉)和76 ng·g~(-1)(胸肉),以脂重计),DBDPE主要在肾脏和卵组织中检出.同时,本文对电子拆解区居民通过食用草鸡摄入溴代阻燃剂(BFRs)的健康风险进行了初步评价.结果显示,尽管拆解区居民通过食用草鸡暴露PBDEs和DBDPE的风险处于可接受水平,但综合饮用水、大气呼吸和灰尘摄入等其他暴露途径,BFRs健康风险仍不容忽视.     

典型电子废物焚烧区水生生物多溴联苯醚累积特征

对广东清远某电子废物焚烧区封闭水体中水生生物体PBDEs(多溴联苯醚)的累积特征进行了研究. 结果表明,草虾、田螺、河蚌、鲫鱼、鲤鱼、黄鳝和乌鳢等水生生物体内w(∑₂₁PBDEs)(以脂肪质量计)为0.2487~24.50μg/g. 该电子废物焚烧区水生生物PBDEs污染较严重,较我国其他地区开放性水体的水生生物体w(PBDEs)高出1~3个数量级. 其中,底栖动物河蚌和田螺体内PBDEs累积最高,w(∑₂₁PBDEs)分别为11.38和4.968μg/g. 不同同系物在水生生物体内累积差异较大,BDE209是水生生物体PBDEs累积的主要组分,占49.83%~91.48%,八溴代和九溴代BDE也发生了高累积. 营养级是电子废物焚烧区水生生物PBDEs累积的最主要控制因素,但捕食和生活习性对生物体尤其是软体动物PBDEs累积也产生了较大影响.      

Occurrence of polybrominated diphenyl ethers in fish and shellfish downstream from electronic-waste recycling plants

We measured 39 polybrominated diphenyl ethers (PBDEs) in the muscle tissue of three species of fish (Sciaenops ocellatus, Sparus macrocephalus, and Lateolabrax japonicus) and four species of shellfish (Tegillarca granosa, Cyclina sinensis, Sinonovacula constricta, and Ostrea cucullata) that were collected downstream of electronic-waste recycling plants in Taizhou, China. A total of 24 PBDE congeners (PBDE24) in the samples were detected. The PPBDE24 (total PBDE) ranged from 545.4 to 1688.7 ng/kg ww (wet weight). The mean PPBDE24 concentration was 1382.6 ng/kg ww in fish and 858.1 ng/kg ww in shellfish. The lower brominated congeners were detected at relatively high concentrations in all species. The penta-products, produced from e-waste, were found at relatively low levels. A principal component analysis suggested a significant correlation among di-, tri-, tetra-, and hepta-BDEs for the three species of fish. Similarly, we found a significant correlation between mono- and tri-BDEs in the shellfish. Our results suggested that the processes of PBDE metabolism and elimination were similar in both fish and shellfish. In addition, the primary source of PBDEs appeared to be from the debromination of high brominated PBDEs.     

电子废弃物处理地室内外灰尘中多溴联苯醚的污染及其人群暴露水平

2006年10月和2007年10月,在广东省清远市一个典型电子废弃物处理地采集了24个室内和15个室外灰尘样品,分析了其中的17种多溴联苯醚(PBDEs).结果显示,PBDEs在所有灰尘样品中均有检出,室内灰尘中PBDEs含量为230～157 500ng.g-1,平均9 400 ng.g-1;室外灰尘中PBDEs含量为212～25 880 ng.g-1,平均3 311 ng.g-1.与世界其他地区灰尘中PBDEs的含量相比,本研究地区灰尘中PBDEs的含量处在较高水平.BDE209是灰尘中最重要的同族体;与工业品中PBDEs的组成对比显示,灰尘中相对高丰度的八至九溴同族体可能来自BDE209的降解.婴幼儿、儿童和成人通过灰尘对PBDEs的平均日暴露量分别为470、329和188 ng.d-1,婴幼儿和儿童的最高日暴露量(31 500和19 700 ng.d-1)分别是成人的4和2.5倍.灰尘可能是当地人群(特别是婴幼儿和儿童)暴露PBDEs的重要途径.     

Accumulation of polybrominated diphenyl ethers in breast milk of women from an e-waste recycling center in China

Polybrominated diphenyl ethers(PBDEs) can be transferred to infants through the ingestion of breast milk, resulting in potential health risk. In this study, PBDEs, hydroxylated polybrominated diphenyl ethers(OH-PBDEs) and 2,2′,4,4′,5,6′-hexachlorobiphenyl(CB-153)in human milk from women living adjacent to e-waste recycling sites of Wenling,China, were investigated. The median level of PBDEs in samples from residents living in the e-waste recycling environment 20 years(R_20group, 19.5 ng/g lipid weight(lw))was significantly higher than that for residents living in Wenling 3 years(R_3group,3.88 ng/g lw)(p 0.05), likely ascribable to specific exposure to PBDEs from e-waste recycling activities. In the R_20 group, most congeners(except for BDE-209) were correlated with each other(p 0.05). Moreover, CB-153 showed significant association with most PBDE congeners, rather than BDE-209. The relationship indicated that most BDE congeners other than BDE-209 shared common sources and/or pathways with CB-153, e.g., dietary ingestion. The correlations between BDE-209 and other congeners were different in the two groups, likely suggesting their different exposure sources and/or pathways for PBDEs.Although estimated dietary intake of PBDEs for infants via breast milk was lower than the minimum value affecting human health, the PBDE exposure of infants should be of great concern because of their potential effect on the development of neonates over long-term exposure. OH-PBDEs were not detected in the collected samples, which is in accordance with reports in published literature, likely indicating that they were not apt to be accumulated in human milk.     

电子废物拆解地区人群头发中持久性卤代有机污染物(PHCs)的污染特征

本研究以头发作为指示人群持久性卤代有机污染物(PHCs)暴露的生物材料,分析了电子废物拆解工人、电子废物拆解区普通居民、农村对照区居民和城市对照区居民头发中的PHCs浓度水平及组成特征.结果发现:电子废物拆解工人和拆解区普通居民头发中的PHCs含量显著高于两组对照地区人群(p< 0.05),表明电子废物拆解活动造成了当地人群对PHCs较高的暴露剂量.在电子废物拆解区的普通居民中,人群头发中的PHCs含量具有随年龄的增加而上升的趋势,老年人组(> 60岁)头发中的PHCs含量最高.在电子废物污染地区和农村对照区人群中,PCBs是最主要的PHCs污染物(39%~52%),表明这两个地区的人群均受到电子废物拆解活动的影响;城市人群头发中则以PBDEs和DBDPE为主(共占69%),反映了珠三角地区人群主要受工业或生活活动PHCs排放的影响.同时,主成分分析显示,不同人群头发中PHCs的组成模式也与污染物在环境中的迁移有关.     

Distribution of polybrominated diphenyl ethers and decabromodiphenylethane in surface sediments from Fuhe River and Baiyangdian Lake, North China

Nineteen surface sediment samples collected from Baiyangdian Lake and its inflowing river (Fuhe River) in North China were analyzed for polybrominated diphenyl ethers (PBDEs) and decabromodiphenylethane (DBDPE). The concentrations of PBDEs and DBDPE in sediments ranged from 5.5 to 300.7 ng/g dry weight (dw) and 1.1 to 68.2 ng/g dw, respectively. Their levels in sediments in Fuhe River were significantly higher than those in Baiyandian Lake. Compared to data from other regions, the PBDE levels in surface sediments from Baiyangdian Lake and Fuhe River were in the medium to lower range. Among the PBDE congeners, BDE209 was predominant, with contributions to the total PBDEs ranging from 79.4% to 97.3% in sediment samples. For the lowly brominated congeners (tri- to hepta-BDE), BDE47 and BDE99 were the most abundant, which contributed 52.1% and 44.1% to the sum of tri- to hepta-BDEs in the sediments from Baiyangdian Lake and Fuhe River, respectively. The compositional patterns of PBDEs in Baiyangdian Lake sediments indicated that technical deca-BDE mixture was the major pollutant sources with a minor contribution of penta-BDE mixture. The present study suggested that the importance of Fuhe River as a possibly potential sources of PBDEs contamination in Baiyangdian Lake.     

台州电子垃圾拆解区水和沉积物中多溴联苯醚污染特征与生态风险

以台州某电子垃圾拆解工业园为圆心,在半径为16 km的范围内,由近及远设计了C(3 km)、S(5~10 km)和R(10~16km)三圈共30个采样点,研究了该区域水及沉积物中多溴联苯醚(PBDEs)的污染特征与生态风险.结果表明,水中PBDEs含量为9.4~57.2 ng·L~(-1),平均值为25.9 ng·L~(-1);沉积物中PBDEs含量为3.7~38 775 ng·g~(-1),平均值为2 779 ng·g~(-1);BDE-209均为主要成分.水及沉积物中PBDEs含量的空间分布态势均为:C圈S圈R圈,沉积物中PBDEs含量和离工业园区中心的距离呈极显著负相关(P0.01).与国内外其它地区相比,该调查区PBDEs污染较为严重,电子垃圾拆解是PBDEs污染的主要来源.经推算,该区域近40年的拆卸活动向该地输入的PBDEs总量达30.7 t,其中BDE-209为28.9 t.采用商值法对PBDEs进行初步的生态风险评估表明,拆解核心区(半径为1.5 km)沉积物中五溴联苯醚(Penta-BDEs)的污染程度已达高风险等级,对该地区的生态安全和人群健康可能造成严重影响.     

Polybrominated diphenyl ethers in soil from three typical industrial areas in Beijing, China

Areas containing industrial facilities belonging to three different typical industries that may cause pollution by polybrominated diphenyl ethers （PBDEs） in Beijing, China were investigated. Specifically, the areas contained a solid waste incineration plant, a chemical factory, and a heat and power plant. Investigation of the pollution status of PBDEs in the surface soil from areas around these industries revealed the highest concentration of 42 PBDE congeners （118 ng/g, dry mass） at the solid waste incineration plant. In the other two plants, the highest concentrations were both 26 ng/g （dry mass）. Among the PBDE homologues, the PBDE contamination at all sites showed similar congener compositions, with BDE 209 being the dominant congener. Our findings established the first contamination status of three typical industrial areas in Beijing. Furthermore, the total concentrations of 42 PBDE congeners tended to decrease as the distance from the investigated plants increased. Overall, these plants were identified as potential pollution sources of PBDEs in Beijing. Moreover, Pearson correlation analysis revealed that the major PBDE source in Beijing may be associated with the technical deca-BDE and penta-BDE mixture. Based on the data obtained in this preliminary investigation, further study of the potential of these sources to emit PBDEs in Beijing is warranted.     

Polybrominated diphenyl ethers in chicken tissues and eggs from an electronic waste recycling area in southeast China

The levels and distributions of polybrominated diphenyl ethers (PBDEs) in chicken tissues from an electronic waste (e-waste) recycling area in southeast China were investigated. Human dietary intake by local residents via chicken muscle and eggs was estimated. The mean PBDEs concentrations in tissues ranged from 15.2 to 3138.1 ng/g lipid weight (lw) and in egg the concentration was 563.5 ng/g lw. The results showed that the level of total PBDEs (PPBDEs) in the chicken tissue was 2–3 orders of magnitude higher than those reported in the literature. The large di erence of PPBDEs concentrations between tissues confirmed that the distribution of PBDEs in tissues depend on tissue-specificity rather than the “lipid-compartment”. BDE-209 was the predominant congener (82.5%– 94.7% of PPBDEs) in all chicken tissues except in brain (34.7% of PPBDEs), which indicated that deca-BDE (the major commercial PBDE formulation comprising 65%–70% of total production) was major pollution source in this area and could be bioaccumulated in terrestrial animals. The dietary PBDEs intake of the local residents from chicken muscle and egg, assuming only local bred chickens and eggs were consumed, ranged from 2.2 to 22.5 ng/(day kg body weight (bw)) with a mean value of 13.5 ng/(day kg bw), which was one order of magnitude higher than the value reported in previous studies for consumption of all foodstu s.     

Ecotoxicological effects of mixed pollutants resulted from e-wastes recycling and bioaccumulation of polybrominated diphenyl ethers in Chinese loach (Misgurnus anguillicaudatus)

To understand potential ecotoxicological effects of electrical and electronic equipment waste (e-waste) recycling and polybrominated diphenyl ethers (PBDEs) bioaccumulation in loaches, a semi-field experiment using Chinese loach (Misgurnus anguillicaudatus) as experimental fish was performed. Larval loaches were kept into net-cage for three months in an e-wastes recycling site and a reference site in Southeastern China. There was significant difference of the survival rate between the loaches from the e-wastes recycling site (27%, 19/70) and from reference site (70%, 49/70). Histopathological responses were also found in all the livers examined in loaches from the e-wastes recycling site. These results showed that mixed pollutants resulted from e-wastes recycling led to ecotoxicological effects on loaches. The bioaccumulation of polybrominated diphenyl ethers (PBDEs), the main pollutants in e-waste, in loaches was also studied in this e-wastes recycling site, the mean concentrations of total PBDEs in sediment was 6726.17 ng/g wet weight and in water samples was 4.08 ng/L (dissolved phase). BDE209 was the dominant congener in sediment and with relatively high concentration in water. Relatively low concentration of BDE209 (less than 0.01% of total PBDEs) and high concentration of BDE47 (up to 39.34% of total PBDEs) were detected in loaches.     

Advanced treatment of dyeing wastewater towards reuse by the combined Fenton oxidation and membrane bioreactor process

The performance of combined Fenton oxidation and membrane bioreactor (MBR) process for the advanced treatment of an effluent from an integrated dyeing wastewater treatment plant was evaluated. The experimental results revealed that under the optimum Fenton oxidation conditions (initial pH 5, H 2 O 2 dosage 17 mmol/L, and Fe 2+ 1.7 mmol/L) the average total organic carbon (TOC) and color removal ratios were 39.3% and 69.5% after 35 min of reaction, respectively. Results from Zahn-Wallens Test also represented that Fenton process was effective to enhance the biodegradability of the test wastewater. As for the further purification of MBR process, TOC removal capacity was examined at different hydraulic retention times (HRT) of 10, 18 and 25 hr. Under the optimum HRT of 18 hr, the average TOC concentration and color of the final MBR effluent were 16.8 mg/L and 2 dilution time, respectively. The sludge yield coefficient was 0.13 g MLSS/g TOC and TOC degradation rate was 0.078 kg TOC/(m 3 ·day). The final effluent of MBR can meet the reuse criteria of urban recycling water-water quality standard for miscellaneous water consumption GBT18920-2002.     

Ecotoxicological effects of mixed pollutants resulted from e-wastes recycling and bioaccumulation of polybrominated diphenyl ethers in Chinese loach （Misgurnus anguiUicaudatus）

To understand potential ecotoxicological e ects of electrical and electronic equipment waste (e-waste) recycling and polybrominated diphenyl ethers (PBDEs) bioaccumulation in loaches, a semi-field experiment using Chinese loach (Misgurnus anguillicaudatus) as experimental fish was performed. Larval loaches were kept in net-cage for three months in an e-wastes recycling site and a reference site in Southeastern China. There was significant di erence of the survival rate between the loaches from the e-wastes recycling site (27%, 19/70) and from reference site (70%, 49/70). Histopathological responses were also found in all the livers examined in loaches from the e-wastes recycling site. These results showed that mixed pollutants resulted from e-wastes recycling led to ecotoxicological e ects on loaches. The bioaccumulation of polybrominated diphenyl ethers (PBDEs), the main pollutants in e-waste, in loaches was also studied, the mean concentration of total PBDEs in sediment was 6726.17 ng/g wet weight and in water samples was 4.08 ng/L (dissolved phase). BDE 209 was the dominant congener in sediment and with relatively high concentration in water. Relatively low concentration of BDE 209 (less than 0.01% of total PBDEs) and high concentration of BDE47 (up to 39.34% of total PBDEs) were detected in loaches.     

台州水系表层沉积物典型POPs污染现状及生态风险

为探讨典型废物拆解地工业结构转型期环境POPs(persistent organic pollutants,持久性有机污染物)污染特征变化情况,使用气相色谱/高分辨质谱法测定了台州水系表层沉积物中PCDD/Fs(二英类)、dl-PCBs(共平面多氯联苯)和PBDEs(多溴联苯醚),并利用主因子分析等手段分析了其来源. 结果表明,台州椒江和金清闸海湾2387-PCDD/Fs毒性当量浓度(以WHO₂₀₀₅-TEQ计,下同)中位值分别为3.18和1.91 ng/kg,dl-PCBs毒性当量浓度分别为0.26和0.62 ng/kg,w(∑PBDEs)分别为22.5和19.7 μg/kg,处于我国和全球河流(海湾)表层沉积物POPs污染的中等水平,低于其他电子废物拆解地等严重污染区. 台州河流(海湾)表层沉积物PCDD/Fs主要来源于燃煤,dl-PCBs主要来源于历史上多氯联苯的使用或电子废物拆解活动,PBDEs主要来源于相关阻燃剂的使用和电子废物拆解活动. 位于化工园区排水口的YTZ采样点PCDD/Fs和dl-PCBs的毒性当量浓度分别达到6.54×104和7.84×103 ng/kg,污染可能来源于化工废料加工和再生金属生产,表明台州在工业结构转型期出现的新POPs污染源,应引起重视. 台州部分表层沉积物样品中的PCDD/Fs和dl-PCBs的总毒性当量浓度超过美国和加拿大的沉积物质量指导值,存在一定的生态风险.      

长江中游沉积物中多溴联苯醚的污染特征及风险评价

多溴联苯醚(PBDEs)具有高毒性和生物累积性,进入水体后易与有机质相结合,成为PBDEs污染物的重要归宿,对人类健康和水生生态系统造成潜在的危险.为揭示多溴联苯醚(PBDEs)在长江中游流域的污染现状,通过采集该地区流域内13个表层沉积物样品,采用高分辨气相色谱/高分辨质谱法(HRGC/HRMS)对沉积物中9种PBDEs同类物进行分析.结果表明该地区沉积物中9种PBDEs的含量范围(干重)约为46.1~326 pg·g~(-1),而BDE-99是其中最主要的贡献单体,平均贡献率约为51.6%;其次是BDE-47,约为19.6%.与国内外其他海域的研究相比,长江中游沉积物中PBDEs残留量处于较低水平.通过测定沉积物中总有机碳(TOC),研究结果发现PBDEs含量与TOC无明显的正相关关系.结合商值法对PBDEs的健康风险进行初步评估,结果表明,本研究中PBDEs对人体产生的健康风险较小.     

海河流域14条河流表层沉积物中多溴联苯醚的分布特征

海河流域是我国受人类活动扰动强度最大的地区,为了解多溴联苯醚（PBDEs）在该流域的污染现状与分布特征,通过采集14条主要河流的48个表层沉积物样品,采用高分辨的GC-MS/MS技术对干燥后的沉积物中27种PBDEs进行分析.结果发现沉积物中PBDEs的平均含量范围为0.06～2.10 ng·g^-1;其中徒骇河沉积物...