钯/铁双金属对土壤中2,2′,3,4,4′,5,5′-七氯联苯的催化脱氯研究

采用Fe⁰还原、钯催化法对土壤中2,2′,3,4,4′,5,5′-七氯联苯的的还原特性进行了实验研究.结果表明,Pd/Fe双金属能有效地进行2,2′,3,4,4′,5,5′-七氯联苯的催化脱氯.在钯化率为0.05%、钯/铁加入量1g、初始pH为5.6、反应时间5 d的条件下,钯/铁双金属对土壤中2,2′,3,4,4′,5,5′-七氯联苯去除率达54%.实验还考察了钯化率、初始pH、反应时间、钯/铁投加量、2,2′,3,4,4′,5,5′-七氯联苯初始浓度等参数对2,2′,3,4,4′,5,5′-七氯联苯脱氯效果的影响.研究表明,较高的钯化率、钯/铁加入量,较低的2,2′,3,4,4′,5,5′-七氯联苯初始浓度及弱酸性等条件更有利于Pd/Fe对2,2′,3,4,4′,5,5′-七氯联苯的还原脱氯.在Pd/Fe双金属表面,2,2′,3,4,4′,5,5′-七氯联苯的脱氯符合一级动力学反应,反应速率常数为0.014 2/h,其半衰期为49h.利用实验数据,对钯/铁双金属作用下的2,2′,3,4,4′,5,5′-七氯联苯还原脱氯的反应机制也进行了分析.     

2,2′,4,4′-四溴联苯醚的好氧微生物降解

从北京高碑店污水处理厂活性污泥中筛选出1株能好氧降解2,2′,4,4′-四溴联苯醚(BDE-47)的细菌,并对其降解特性及有关蛋白质进行分析,目的是了解好氧条件下BDE-47的微生物降解机制.BDE-47降解菌通过平板划线法获得,其16S rDNA与不动杆菌(Acintobacter sp.)的相似度最大,为90％.采用250 mL锥形瓶研究了所得菌对BDE-47的降解情况,在BDE-47初试浓度为146 μg·L-1的条件下,经过63 d的培养,所得菌降解了45.44％的BDE-47,降解产物主要为4-OH-联苯醚,菌量增加了7倍左右.分别以BDE-47和酵母提取物为碳源培养所得菌2周,然后各自提取蛋白质,通过蛋白质双向电泳及质谱检测,发现了与BDE-47降解有关的一些特异蛋白质.本研究表明,在好氧条件下,细菌可以BDE-47为碳源生长,其过程涉及多种蛋白质的作用.     

Tween80对黑麦草吸收土壤中2,2′,5,5′-四氯联苯影响

以黑麦草为供试植物,山地褐土为供试土壤,以黑麦草体内2,2',5,5'-四氯联苯含量、土壤中2,2',5,5'-四氯联苯含量为指标,研究了添加表面活性剂Tween80对黑麦草吸收土壤中2,2',5,5'-四氯联苯作用的影响。结果表明,黑麦草对土壤中2,2',5,5'-四氯联苯有较强的吸收。40 d实验后植物吸收到达高峰,此时,土壤中2,2',5,5'-四氯联苯浓度由1045.62 ng/g下降至340.61 ng/g。在添加量为0~20 mg/g范围内,Tween80对黑麦草的生长无明显胁迫或毒害作用,并可显著提高黑麦草对2,2',5,5'-四氯联苯的吸收。当Tween80添加量为1 mg/g时,供试40 d后,黑麦草体内2,2',5,5'-四氯联苯的积累量达到138.22μg/g,是无表面活性剂添加组积累量72.52μg/g的将近2倍。但同时,高Tween80添加量又会抑制黑麦草对2,2',5,5'-四氯联苯的吸收,当Tween80添加量分别为10 mg/g和20 mg/g时,供试40 d后,黑麦草中2,2',5,5'-四氯联苯的积累量比1 mg/g添加量组分别减少了12.80μg/g和17.12μg/g。     

Degradation of 2,2′,4,4′-tetrabromodiphenyl ether by Pycnoporus sanguineus in the presence of copper ions

The degradation of 2,2′,4,4′-tetrabromodiphenyl ether(BDE-47) by Pycnoporus sanguineus was investigated in order to explore the impact of the heavy metal Cu~(2+) on BDE-47 decomposition and the subsequent formation of metabolites, as well as to further elucidate the degradation mechanism of BDE-47. An increase in degradation rate from 18.63% to49.76% in the first four days and its stabilization at(51.26 ± 0.08)% in the following days of BDE-47 incubation were observed. The presence of Cu~(2+) at 1 and 2 mg/L was found to promote the degradation rate to 56.41% and 60.79%, respectively, whereas higher level of Cu~(2+) (≥ 5 mg/L) inhibited the removal of BDE-47. The similar concentration effects of Cu~(2+) was also found on contents of fungal protein and amounts of metabolites. Both intracellular and extracellular enzymes played certain roles in BDE-47 transportation with the best degradation rate at 27.90% and 27.67% on the fourth and third day, individually. During the degradation of BDE-47, four types of hydroxylated polybrominated diphenyl ethers(OH-PBDEs), i.e., 6′-OH-BDE-47, 5′-OH-BDE-47, 4′-OH-BDE-17, 2′-OH-BDE-28, and two bromophenols, i.e., 2,4-DBP and 4-BP were detected and considered as degradation products. These metabolites were further removed by P. sanguineus at rates of 22.42%,23.01%, 27.04%, 27.96%, 64.21%, and 40.62%, respectively.     

纳米Fe、Si体系对3,3′,4,4′-四氯联苯的脱氯降解

研究了纳米Fe、Si体系降解3,3′,4,4′-四氯联苯(PCB77)的动力学差异.结果表明,纳米Fe0、纳米Fe3O4和纳米Si0对PCB77均有降解作用,该降解为还原脱氯反应.降解过程符合准一级反应动力学,反应速率常数Kobs分别为0.0177,0.0038,0.0045h-1.PCB77初始浓度为5mg/L,纳米材料投加量为5g/L,溶液pH4.5条件下,纳米Fe0体系对PCB77降解效果最为显著,64h时PCB77残留率仅为19.83%,氯离子浓度为50.3μmol/L,反应体系pH值从4.5升至5.26.纳米双元体系Fe0和Si0、Fe3O4和Si0对PCB77降解过程也符合准一级反应动力学,反应速率常数Kobs分别为0.0114,0.004h-1,其中纳米Fe0和Si0体系降解效果优于纳米Fe3O4和Si0体系.PCB77残留率分别为34.91%和66.62%,氯离子浓度分别为40.07,20.47μmol/L,反应体系pH值变化不明显.随着溶液初始pH值增加,纳米Fe0、纳米Fe3O4降解PCB77效果明显降低,但溶液pH值升高有利于纳米Si0对PCB77的降解.两组纳米双元体系对PCB77的降...     

Development of indirect competitive fluorescence immunoassay for 2,2′,4,4′-tetrabromodiphenyl ether using DNA/dye conjugate as antibody multiple labels

An indirect competitive fluorescence immunoassay using a DNA/dye conjugate as antibody multiple labels was developed on 96-well plates for the identification and quantification of 2,2′,4,4′-tetrabromodiphenyl ether (BDE-47) in aqueous samples. A hapten, 2,4,2′-tribromodiphenyl ether-4′-aldehyde, was synthesized, and was conjugated to bovine serum albumin to form a coating antigen. Specific recognition of the antigen by anti-PBDE antiserum was confirmed by a surface plasmon resonance measurement. In the immunoassay, the coating antigen was adsorbed on a 96-well plate first, and a sample, antiserum and biotinylated goat anti-rabbit secondary antibody were then added and reacted sequentially. A biotinylated, double-stranded DNA with 219 base pairs was attached to the secondary antibody by using streptavidin as a molecular bridge. In situ multiple labeling of the antibody was accomplished after addition of a DNA-binding fluorescent dye, SYBR Green I. The working range of the immunoassay for the BDE-47 standard was 3.1-390 μg/L, with an IC₅₀ value of 15.6 μg/L. The calculated LOD of the immunoassay is 0.73 μg/L. The immunoassay demonstrated relatively high selectivity for BDE-47, showing very low cross-reactivity (< 3%) with BDE-15, BDE-153 and BDE-209. With a spiked river water sample containing 50 μup g/L BDE-47, quantification by the immunoassay was 41.9 μg/L, which compared well with the standard GC-ECD method (45.7 μg/L). The developed immunoassay provides a rapid screening tool for polybrominated diphenyl ethers in environmental samples.     

2,2′,4,4′-四溴联苯醚(BDE-47)污染沉积物对铜锈环棱螺肝胰脏的SOD、CAT和EROD活性的影响

以实验室培养的铜锈环棱螺(Bellamya aeroginosa)为受试生物,研究了2,2′,4,4′-四溴联苯醚(BDE-47)污染沉积物对铜锈环棱螺肝胰脏超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和7-乙氧基-3-异吩唑酮-脱乙基酶(EROD)活性的影响,以揭示BDE-47与这些酶活性之间的剂量-效应和时间-效应关系.结果表明,不同水平BDE-47污染沉积物暴露后,铜锈环棱螺肝胰脏SOD和CAT活性表现出较为明显的剂量或时间依赖性效应,BDE-47可引起铜锈环棱螺肝胰脏的氧化应激,高剂量(≥160ng.g-1)BDE-47的长时间暴露可导致SOD和CAT活性显著下降,提示细胞出现氧化损伤.SOD对BDE-47胁迫的敏感性高于CAT.铜锈环棱螺肝胰脏中SOD和CAT可以作为指示低水平BDE-47污染沉积物胁迫的生物标志物.BDE-47不能诱导铜锈环棱螺肝胰脏EROD活性,但高剂量(≥160ng.g-1)或长时间BDE-47暴露则导致EROD活性显著降低.     

多溴联苯醚及其衍生物在土壤中的分布、转化和生物效应研究进展

多溴联苯醚（polybrominated diphenyl ethers,PBDEs）作为一种良好的溴系阻燃剂被大量地添加到工业产品中,随着产品的使用、回收和废弃处理会进入各种环境介质中,是一类分布十分广泛的持久性有机污染物.PBDEs的衍生物羟基化多溴联苯醚（hydroxylated polybrominated diphenyl ethers,OH-PBDEs）和甲氧基化多溴联苯醚（methoxylated polybrominated diphenyl ethers,MeO-PBDEs）,由于具有比母体化合物更大的毒性效应和更复杂的环境行为也受到人们广泛关注.通过对PBDEs及其衍生物在土壤中的分布特征、转化规律及生物效应研究的最新进展进行综述发现,PBDEs在土壤中的分布浓度随离工业区距离增加而减小,且大多数污染地区土壤中以高溴代PBDEs为主,偏远地区土壤中则以低溴代PBDEs为主.进入土壤的PBDEs在动物、植物体内及微生物作用下均可发生脱溴代谢转化产生低溴代PBDEs,也可发生羟基化生成OH-PBDEs和甲氧基化生成MeO-PBDEs,与此同时,OH-PBDEs和MeO-PBDEs之间也会发生相互转化.PBDEs及其衍生物作为一种环境内分泌的干扰物对大部分的植物、动物都有显著的毒性效应,对植物而言能够抑制植物种子萌发、幼苗生长、损伤细胞结构以及影响植物代谢活动等;对动物而言能够影响动物的内分泌功能、妨碍动物生殖系统的发育以及对神经系统产生毒性等.目前,关于PBDEs及其衍生物在土壤生态系统中环境化学行为和生态毒性的报道十分有限,探讨土壤中PBDEs的代谢转化过程和毒性效应可为全面深刻地认识PBDEs的环境行为和潜在生态风险提供科学参考.      

羟基多溴联苯醚对鲤鱼急性毒性及定量结构活性关系

羟基多溴联苯醚是一类具有环境风险的新兴污染物,它们已经在众多环境介质甚至人体内广泛存在。参照GB/T13267-91标准方法,采用静态生物急性毒性试验,测定了6种羟基多溴联苯醚(2′-OH-BDE7、4′-OH-BDE17、2′-OH-BDE28、2′-OH-BDE68、4′-OH-BDE90和2′-OH-BDE123)对普通鲤鱼的急性毒性96 h-LC50值,分别为697、1 130、854、550、644和522 ng.mL-1。除4′-OH-BDE17为高毒物质外,其他5种OH-PBDEs均为剧毒物质,高溴代的2′-OH-BDE123毒性最大。选用OH-PBDEs的KOW参数及由MOPAC软件PM3算法计算出的16个量子化学参数(EHomo、qBr+、ELumo等)为描述符,运用一元线性回归分析分别研究了96 h-LC50与他们之间的相关关系。结果表明:lgKOW和ELumo与6种羟基多溴联苯醚的96 h-lg LC50表现出较好的相关性,复相关系数均大于0.96,根据方程得到的96 h-lg LC50预测值与实验值基本相同,进一步对环境中广泛检出的其它OH-PBDEs的96 h-LC50值也进行了预测。     

昆明市大气总悬浮颗粒物和PM2.5上多溴联苯醚的分布特征和潜在风险

为探究PBDEs（多溴联苯醚）在昆明大气中的环境行为,于2014年3月对昆明8个采样点大气TSP（总悬浮颗粒物）和PM_2.5样本进行了收集并利用GC-MS技术对其上附着的PBDEs的13种同系物进行了测定,进而对TSP和PM_2.5上PBDEs的分布特征和潜在风险进行了分析.结果表明:附着在TSP上的∑PBDE浓度（多溴联苯醚的总质量浓度）的范围为21.10~175.00 pg/m3.而附着在PM_2.5上的∑PBDE浓度范围为17.50~149.00 pg/m3,约占TSP中∑PBDE浓度的35.31%~85.14%,并且高溴化的同系物（BDE-138~BDE-209）比低溴化的同系物（BDE-17~BDE-99）更容易附着在PM_2.5上,约占∑PBDE浓度的8.50%~61.60%.对大气颗粒物中PBDEs的潜在影响和空气吸入暴露剂量评估结果表明,成人和儿童对PBDEs的DED_air（呼吸日暴露量）分别在5.28~43.75和6.90~57.23 pg/（kg·d）之间,TDI（每日总摄入量）分别在114.78~951.09和150.00~1 244.13 pg/（kg·d）之间,远低于最低无害水平[1 mg/（kg·d）].BDE-99的TDI分别为11.09~72.39和14.35~94.57 pg/（kg·d）,均低于最低摄入水平[260 pg/（kg·d）].研究显示,昆明市大气TSP和PM_2.5上的PBDEs对人体不存在健康风险.      

羟基化多溴联苯醚(OH-PBDEs)在小鼠肝脏S9中的体外代谢研究

羟基化多溴联苯醚(OH-PBDEs)是一类具有内分泌干扰性质的酚类化合物,且内分泌干扰效应大于其母体多溴联苯醚(PBDEs),研究OH-PBDEs的体外代谢行为对于理解其在生物体内的富集转化具有重要意义.以小鼠肝脏S9部分作为研究对象,考察了3-OH-BDE-47、5-OHBDE-47、6-OH-BDE-47和2'-OH-BDE-68在小鼠肝脏中的体外代谢.结果表明小鼠肝脏S9中的I相酶和II相酶均能代谢4种OH-PBDEs;醚键与OH官能团及Br原子互为邻位时,I相酶对OH-PBDEs的代谢率最高,即6-OH-BDE-47表现出较高的代谢率,此外,4种OH-PBDEs经I相酶代谢后均能生成2,4-二溴苯酚,表明醚键断裂是其主要的I相酶代谢途径;OH-PBDEs的OH官能团与醚键互为间位时,II相酶对其葡萄糖醛酸结合反应最高,也就是5-OH-BDE-47表现出较高的去除率.     

A/O工艺处理生活污水中PBDEs分布特征

文章对A/O法中的各工序污水以及污泥中PBDEs的含量以及分布状况作了比较系统的分析,采集了水体、污泥共56个样品,经过萃取、净化、浓缩之后利用GC/MS仪器进行分析测定。讨论了PRDEs的污染情况,并对PBDEs与水中常规参数作了初步分析。结果显示,在所采集的样品中均检出了PBDEs,经污水处理后PBDEs主要残留于...     

Debrominated and methoxylated polybrominated diphenyl ether metabolites in rainbow trout (Oncorhynchus mykiss) after exposure to decabromodiphenyl ether

Decabromodiphenyl ether (BDE209) is the primary component in a commonly used flame retardant. Previous studies had proved that BDE209 itself was not toxic, while its metabolites including debrominated diphenyl ethers (De-BDEs) and methoxylated brominated diphenyl ethers (MeO-BDEs) posed a potential threat to organisms. Many studies had indicated that BDE209 could metabolize quickly in mammals, but lacking in the basic data about the metabolism of BDE209 in fish. In the present study, two replicate treatment groups of rainbow trout (Oncorhynchus mykiss) were exposed to BDE209 via a single intraperitoneal injection approximately 100 and 500 ng/g, respectively. Muscle, liver and blood samples were collected to analyze the specific metabolites on day 1 and day 28 post injection. The highest concentration of BDE209 was detected in muscle tissues, from 796.1 ng/g wet weight (day 1) to 687.1 ng/g wet weight (day 28) in high dose group, suggesting that BDE209 could accumulate slightly in muscle tissues. However, BDE209 was not detected in the blood for all treatments. Most congeners of De-BDEs were found in muscle and liver tissues, with the highest concentration in the liver. The main De-BDEs were nona-, octa-, hepta- and penta-De-BDEs. A total of seven MeO-BDE metabolites were observed among di erent fish tissues. Blood had the highest contribution of the MeO-BDE metabolites. Each MeO-BDE congener increased over the 28 days. These results in contrast to other studies suggested possible species-specific di erences in metabolic abilities.     

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.     

加速溶剂萃取-气质联用同步测定土壤中17组分多溴二苯醚

建立了加速溶剂萃取-气相色谱-质谱法(ASE-GC/MS)同步定量分析土壤中17组分多溴二苯醚(PBDEs)的方法.选用正己烷和二氯甲烷混合液(体积比为1∶1)为萃取剂,样品经加速溶剂萃取后由氧化铝复合硅胶柱净化,气相色谱-负化学源-质谱法测定.结果表明:在32 min内,包括高溴代二苯醚在内的17组分PBDEs同族体在同一较短毛细管色谱柱上得到了较好的分离.该方法中BDE209的回收率为80.80%,其余BDE的回收率为86.39%～103.19%;BDE209的方法检出限为198.33 pg/g,其他16组分PBDEs同族体的方法检出限为0.85～114.33 pg/g.该方法检测土壤中多组分PBDEs的灵敏度高、重现性和回收率良好,可用于土壤样品PBDEs的分析.      

婴儿脐带血和母亲血中多溴联苯醚的研究

为研究环境污染物多溴联苯醚(PBDEs)在人体的含量,采集了21对婴儿脐带和母亲静脉血样,用气相色谱和质谱法进行测定.结果表明,在所检测的7个PBDEs同系物(BDE-28,-47,-99,-100,-153,-154和-183)中,BDE-47和BDE-153为最主要的同系物.总PBDEs的含量分布于1.5~17ng/g;略高于挪威报道的含量水平,但低于瑞典和德国,远低于美国所报道的水平.      

Uptake, translocation, and debromination of polybrominated diphenyl ethers in maize

Uptake, translocation and debromination of three polybrominated diphenyl ethers (PBDEs), BDE-28, -47 and -99, in maize were studied in a hydroponic experiment. Roots took up most of the PBDEs in the culture solutions and more highly brominated PBDEs had a stronger uptake capability. PBDEs were detected in the stems and leaves of maize after exposure but rarely detected in the blank control plants. Furthermore, PBDE concentrations decreased from roots to stems and then to leaves, and a very clear decreasing gradient was found in segments upwards along the stem. These altogether provide substantiating evidence for the acropetal translocation of PBDEs in maize. More highly brominated PBDEs were translocated with more difficulty. Radial translocation of PBDEs from nodes to sheath inside maize was also observed. Both acropetal and radial translocations were enhanced at higher transpiration rates, suggesting that PBDE transport was probably driven by the transpiration stream. Debromination of PBDEs occurred in all parts of the maize, and debromination patterns of different parent PBDEs and in different parts of a plant were similar but with some differences. This study for the first time provides direct evidence for the acropetal translocation of PBDEs within plants, elucidates the process of PBDE transport and clarifies the debromination products of PBDEs in maize.