树脂D001负载纳米Pd/Fe双金属脱溴2,2’,4,4’-四溴联苯醚(BDE-47)的研究

采用大孔树脂D001交换吸附Pd2+、Fe2+并在厌氧条件下以硼氢化钠溶液还原吸附的钯铁离子制备成负载纳米Pd/Fe双金属树脂。利用该树脂对2,2’,4,4’-四溴联苯醚(BDE-47)进行脱溴反应,探讨了该法的可行性和特性。结果表明:当大孔树脂D001、氯化钯、硫酸亚铁用量分别为0.75 g、2μg和0.2 g时所制备的双金属树脂脱溴水-乙醇溶液中的BDE-47效果最佳,反应遵循准一级动力学,速率常数k约为0.161 d-1,半减期为1.21 d。负载Pd/Fe的D001连续3次脱溴反应都有较好的效果,水-乙醇溶液中超过90%以上的BDE-47在反应6 d后被降解。负载Pd/Fe双金属的树脂可以重复活化再生,但再生2次后其脱溴效率变差,反应6 d只有47.3%的BDE-47被降解。用气相色谱-质谱联用仪和离子色谱仪跟踪Pd/Fe双金属树脂脱溴BDE-47反应,可知产物包括溴离子、三溴联苯醚、二溴联苯醚、一溴联苯醚和联苯醚。     

树脂D001负载纳米Pd/Fe双金属脱溴2,2＇,4,4＇-四溴联苯醚（BDE-47）的研究

采用大孔树脂D001交换吸附Pd2＋、Fe2＋并在厌氧条件下以硼氢化钠溶液还原吸附的钯铁离子制备成负载纳米Pd/Fe双金属树脂。利用该树脂对2,2＇,4,4＇-四溴联苯醚（BDE-47）进行脱溴反应,探讨了该法的可行性和特性。结果表明：当大孔树脂D001、氯化钯、硫酸亚铁用量分别为0.75 g、2μg和0.2 g时所制备的双金属树脂脱溴水-乙醇溶液中的BDE-47效果最佳,反应遵循准一级动力学,速率常数k约为0.161 d-1,半减期为1.21 d。负载Pd/Fe的D001连续3次脱溴反应都有较好的效果,水-乙醇溶液中超过90%以上的BDE-47在反应6 d后被降解。负载Pd/Fe双金属的树脂可以重复活化再生,但再生2次后其脱溴效率变差,反应6 d只有47.3%的BDE-47被降解。用气相色谱-质谱联用仪和离子色谱仪跟踪Pd/Fe双金属树脂脱溴BDE-47反应,可知产物包括溴离子、三溴联苯醚、二溴联苯醚、一溴联苯醚和联苯醚。     

Enhanced debromination of 2,2′,4,4′-tetrabromodiphenyl ether (BDE-47) by zero-valent zinc with ascorbic acid

• Highly efficient debromination of BDE-47 was achieved in the ZVZ/AA system. • BDE-47 debromination by the ZVZ/AA can be applied to a wide range of pH. • AA inhibits the formation of (hydr)oxide and accelerates the corrosion of ZVZ. • Reduction mechanism of BDE-47 debromination by the ZVZ/AA system was proposed. A new technique of zero-valent zinc coupled with ascorbic acid (ZVZ/AA) was developed and applied to debrominate the 2,2′,4,4′-Tetrabromodiphenyl ether (BDE-47), which achieved high conversion and rapid debromination of BDE-47 to less- or non-toxic forms. The reaction conditions were optimized by the addition of 100 mg/L ZVZ particles and 3 mmol/L AA at original solution pH= 4.00 using the solvent of methanol/H₂O (v:v= 4:6), which could convert approximately 94% of 5 mg/L BDE-47 into lower-brominated diphenyl ethers within a 90 min at the ZVZ/AA system. The high debromination of BDE-47 was mainly attributed to the effect of AA that inhibits the formation of Zn(II)(hydr)oxide passivation layers and promotes the corrosion of ZVZ, which leads to increase the reactivity of ZVZ. Additionally, ion chromatography and gas chromatography mass spectrometry analyses revealed that bromine ion and lower-debromination diphenyl ethers formed during the reduction of BDE-47. Furthermore, based on the generation of the intermediates products, and its concentration changes over time, it was proposed that the dominant pathway for conversion of BDE-47 was sequential debromination and the final products were diphenyl ethers. These results suggested that the ZVZ/AA system has the potential for highly efficient debromination of BDE-47 from wastewater.     

BDE-47对斑马鱼胚胎-幼鱼的急性毒性及氧化应激作用

为研究2,2',4,4'-四溴联苯醚(BDE-47)对斑马鱼胚胎-幼鱼急性毒性、氧化应激及细胞凋亡的影响,以受精后3 h的斑马鱼胚胎为染毒对象,用概率单位法计算BDE-47对斑马鱼胚胎-幼鱼的96 h-LC₅₀;再参照96 h-LC₅₀按一定比例级差设置0.25、0.5、1.0、2.0 mg·L^-1 4个浓度组和1个对照组(0 mg·L^-1)进行96 h半静水式毒性试验,检测斑马鱼超氧化物歧化酶(SOD)及过氧化氢酶(CAT)活性、丙二醛(MDA)含量和细胞凋亡情况。结果表明,BDE-47对斑马鱼96 h的急性毒性LC₅₀为3.77 mg·L^-1(95%可信区间1.93～10.27 mg·L^-1);2.0 mg·L^-1剂量组与对照组相比,SOD活性和MDA含量显著增加,且CAT活性与BDE-47染毒浓度之间存在明显的剂量-效应关系;0.5 mg·L^-1 BDE-47染毒96 h后,即观察到斑马鱼幼鱼出现明显细胞凋亡,主要集中于神经管和脑部。研究表明,BDE-47可以影响斑马鱼体内抗氧化防御系统,并能诱导细胞凋亡;BDE-47导致神经组织的氧化损伤可能在动物神经毒性中起重要作用。     

Clean electrochemical deposition of calcium carbonate to prevent scale formation in cooling water systems

Calcium carbonate (CaCO₃) deposited in water systems leads to scale formation, decreases flow rate, reduces heat transfer and favors microbial proliferation of toxic bacteria such as Legionella. This issue may be solved by electrochemical deposition, without adding toxic chemicals. Therefore, we studied here the deposition of CaCO₃ by electrochemical reduction of oxygen into hydroxide ions with stainless steel and titanium (Ti) working electrodes. Analysis was done using cyclic voltammetry, chronoamperometry, dynamic impedance spectroscopy, scanning electron microscopy, and energy-dispersive X-ray spectroscopy (EDX) coupled with X-ray diffraction (XRD). Results show that optimal formation of CaCO₃ is done at ?1.2 V with the stainless steel electrode and at ?1.4 V for the Ti electrode. More negative potentials induce the formation of calcite. Using the Ti electrode, we found that aragonite is the major form (82 %), with only one capacitive loop. Using the stainless steel electrode at 1.2 V, we found 47 % of aragonite and 38 % of calcite. Overall, our findings demonstrate the feasibility of the electrochemical deposition of CaCO₃ in cooling water systems, without the addition of any chemical.     

Removal of decabromodiphenyl ether (BDE-209) by sepiolite-supported nanoscale zerovalent iron

Nanoscale zerovalent iron (nZVI) synthesized using sepiolite as a supporter was used to investigate the removal kinetics and mechanisms of decabromodiphenyl ether (BDE-209). BDE-209 was rapidly removed by the prepared sepiolite-supported nZVI with a reaction rate that was 5 times greater than that of the conventionally prepared nZVI because of its high surface area and reactivity. The degradation of BDE-209 occurred in a stepwise debromination manner, which followed pseudo-first-order kinetics. The removal efficiency of BDE-209 increased with increasing dosage of sepiolite-supported nZVI particles and decreasing pH, and the efficiency decreased with increasing initial BDE-209 concentrations. The presence of tetrahydrofuran (THF) as a cosolvent at certain volume fractions in water influenced the degradation rate of sepiolite-supported nZVI. Debromination pathways of BDE-209 with sepiolite-supported nZVI were proposed based on the identified reaction intermediates, which ranged from nona- to mono-brominated diphenylethers (BDEs) under acidic conditions and nona- to penta-BDEs under alkaline conditions. Adsorption on sepiolite-supported nZVI particles also played a role in the removal of BDE-209. Our findings indicate that the particles have potential applications in removing environmental pollutants, such as halogenated organic contaminants.     

Efficient dechlorination of 2,4-dichlorophenol in an aqueous media with a mild pH using a Pd/TiO2NTs/Ti cathode

In this study, palladium-loaded titania nanotubes was fabricated on a titanium plate (Pd/TiO₂NTs/Ti) for efficient electrodechlorination of 2,4-chlorophenol with a mild pH condition. The nature of Pd/TiO₂NTs/Ti electrodes was characterized by field-emission scanning electron microscope (FESEM), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and cyclic voltammetry (CV) techniques. The characterization results indicated the generation of Pd⁰ nanoparticles which were evenly dispersed on titania nanotubes arrays on the Pd/TiO₂NTs/Ti surface. An effective degradation efficiency of up to 91% was achieved within 60 min at cathode potential of −0.7 V (vs. SCE) and initial pH of 5.5. The effects of the applied cathode potential and initial pH on the degradation efficiency were studied. A near neutral condition was more favorable since very low and very high pHs were not conducive to the dechlorination process. Furthermore, the intermediates analysis showed that the Pd/TiO₂NTs/Ti electrode could completely remove chlorine from 2, 4-dichlorophenol since only phenol was detected as the byproduct and the concentration of released chlorine ions indicated near-complete dechlorination. This work presents a good alternative technique for eliminating persistent chlorophenols in polluted wastewater without maintaining strong acidic environment.     

BDE-47和BDE-209对乙酰胆碱酯酶(AChE)活性的抑制特性及分子作用力研究

多溴联苯醚(PBDEs)是应用广泛的溴代阻燃剂,其中2,2',4,4'-四溴联苯醚(BDE-47)和2,2',3,3',4,4',5,5',6,6'-十溴联苯醚(BDE-209)广泛存在于环境中。PBDEs具有神经毒性,但其致毒机制尚不明确。本文通过研究BDE-47与BDE-209对乙酰胆碱酯酶(AChE)活性的影响及二者与AChE相互作用的光谱分析,揭示BDE-47与BDE-209导致神经毒性的致毒机制。BDE-47和BDE-209在一定浓度范围内均能够抑制AChE分解乙酰胆碱;随着浓度的增加,两者的抑制率均呈现出先增加后降低的规律。BDE-47浓度为400μmol·L-1时抑制率达到最大,为22.3%;BDE-209浓度为200μmol·L-1时抑制率达到最大,为11.2%。相同浓度下,BDE-47对AChE的抑制率始终大于BDE-209,表明AChE对BDE-47更加敏感。荧光光谱分析结果表明BDE-47和BDE-209与AChE之间的相互作用均主要为疏水作用,同时不存在范德华引力作用;BDE-47与AChE的结合常数大于BDE-209与AChE的结合常数,表明BDE-47更易与AChE相互作用。此外,温度的升高不利于BDE-47和BDE-209与AChE之间相互作用。BDE-47和BDE-209抑制AChE活性很可能是导致神经毒性通路之一。     

BDE-47对人胚肾细胞HEK293的毒理效应及作用机制

2,2’,4,4’-四溴联苯醚(BDE-47)是生物体中含量最高且毒性最强的PBDEs之一,有关BDE-47对肾细胞的毒性及其作用机制的研究仍有待补充。选取3个剂量组(低:10-6mol·L-1、中:10-5mol·L-1、高:10-4mol·L-1)及溶剂对照组,研究了BDE-47对人胚肾细胞(HEK293)的细胞凋亡率及活性氧(ROS)水平的影响;并从分子水平对细胞氧化损伤、凋亡相关蛋白(APE1及p53)及凋亡相关基因m RNA(p53、Bax、Caspase 3、Caspase 8)的表达量进行测定。实验结果显示:与对照组相比,中、高剂量组细胞凋亡率显著增加(P0.05);ROS水平在中剂量组显著上升(P0.01);随BDE-47浓度的变化,APE1蛋白表达量与细胞ROS水平存在一致性;p53、Bax、Caspase 8 m RNA表达量与BDE-47的浓度间存在剂量-效应关系。结果表明,BDE-47可诱导HEK293细胞凋亡及氧化应激,APE1可能是细胞ROS升高与细胞凋亡间重要的中介因子;BDE-47可以通过影响Caspase 8及线粒体途径中p53及Bax的表达诱导细胞凋亡。     

2,2’,4,4’-四溴二苯醚(BDE-47)对大型溞(Daphnia magna)的毒性效应

2,2’,4,4’-四溴二苯醚(BDE-47)在水体及各种水生生物(鱼类、海洋哺乳动物以及水生无脊椎动物)中被广泛检出,但BDE-47对水生无脊椎动物毒性效应的研究还处于起步阶段。以大型溞(Daphnia magna)为受试生物,通过急性(48h)和慢性(21d)毒性暴露实验,考察了BDE-47对大型溞活动抑制率、心率、产仔情况和酶活性等指标的影响。结果显示,BDE-47对大型溞活动抑制率的48h-EC50为112.5μg.L-1;高浓度(>100μg.L-1)BDE-47显著诱导提高大型溞的心率。21d慢性暴露实验中,8μg.L-1处理组中大型溞全部死亡;其他各浓度处理组(0.5、1、2、4μg.L-1)中,母溞第1胎产仔时间延后,第1胎子代数量减少,总产仔数量大幅减少,这表明大型溞的繁殖能力受到抑制。BDE-47在一定程度上抑制了母溞胆碱酯酶(ChE)和谷胱甘肽硫转移酶(GST)的活性,大型溞体内的代谢机制没有被诱导,神经活性虽被抑制,但抑制率不高。BDE-47大幅诱导过氧化氢酶(CAT)的活性,并呈现一定的剂量效应关系,相对于ChE和GST,CAT对BDE-47暴露更为敏感,可作为BDE-47对大型溞慢性暴露毒性效应的潜在生物标志物。     

BDE-47对4种海洋微藻抗氧化酶活性的影响

运用实验生态学和生物化学的方法,研究了不同质量浓度的2,2',4,4'-四溴联苯醚(BDE-47)对海水小球藻Chlorellaautotropica,牟氏角毛藻Chaetoceros muelleri,中肋骨条藻Skeletonema costatum和赤潮异弯藻Heterosigam akashiwo的抗氧化酶活性的影响.结果表明:在实验设定质量浓度范围内(0.1～2.5 μg·L~(-1)),4种微藻的超氧化物歧化酶(SOD)和过氧化氢酶(CAT)均能出现一定的应激活性,以减少BDE-47胁迫对藻细胞自身的危害,但是酶活增加的幅度却有很大不同.与赤潮异弯藻和中肋骨条藻相比,海水小球藻和牟氏角毛藻的SOD和CAT对BDE-47具有较高的敏感性.4种海洋微藻的SOD和CAT对BDE-47的敏感性顺序依次为:海水小球藻>牟氏角毛藻>中肋骨条藻>赤潮异弯藻.因此,海水小球藻的SOD和CAT可以作为指示海洋环境中BDE-47污染水平的生物标志物.     

沉积物中2,2',4,4'-四溴联苯醚(BDE-47)在铜锈环棱螺体内的毒代动力学及其繁殖毒性

多溴联苯醚(PBDEs)是一种全球性的新型持久性有毒污染物,沉积物中高浓度的PBDEs是水生态系统的巨大风险源,2,2’,4,4’-四溴联苯醚(BDE-47)在PBDEs同系物中,目前分布最广,生物毒性最强。为评价沉积物中BDE-47向底栖动物体内转移的潜力及其对底栖动物的潜在繁殖毒性,将实验室培养的铜锈环棱螺(Bellamya aeruginosa)暴露于BDE-47加标沉积物中,研究了BDE-47在铜锈环棱螺体内的毒代动力学特性及其对铜锈环棱螺潜在繁殖力的影响。结果表明,铜锈环棱螺对沉积物中BDE-47吸收较快,代谢速度相对较慢,BDE-47在铜锈环棱螺体内具有较强的生物积累性。生物积累达理论平衡时,铜锈环棱螺体内BDE-47浓度为1440.67ng·g-1(以样品干质量计)。BDE-47在铜锈环棱螺体内的生物积累和生物净化过程较好地符合一级动力学模型,摄入速率常数、清除速率常数和生物-沉积物累积因子分别为0.10、0.038和2.75,生物半衰期为18d。铜锈环棱螺体内BDE-47达到90%稳定状态所需的理论时间约为60d。低浓度BDE-47(160ng·g-1)暴露对铜锈环棱螺的潜在繁殖力没有影响,但当浓度≥640ng·g-1时,铜锈环棱螺的繁殖力下降50%,这表明BDE-47对铜锈环棱螺具有繁殖毒性。铜锈环棱螺可作为指示沉积物中底栖生物长期暴露于BDE-47的良好检测模型。     

2,2’,4,4’-四溴联苯醚对大型溞的毒性效应

以实验室培养的大型溞为受试生物,进行了2,2’,4,4’-四溴联苯醚(BDE-47)对大型溞的48h急性毒性实验和21d慢性毒性实验,并研究了暴露在不同质量浓度和处理时间的BDE-47中,大型溞的抗氧化酶系中的超氧化物歧化酶(SOD)和谷胱甘肽硫转移酶(GST)的酶活性变化。结果表明,BDE-47对大型溞的48h的半致死浓度为1.04mg·L-1,属于高毒物质;在BDE-47慢性毒性实验低浓度处理组中,大型溞的体长及繁殖能力受到了抑制,而高浓度处理组中大型溞的体长及繁殖能力上升,其中第一次产仔数和产卵总数是表征BDE-47慢性毒性的最灵敏参数。随着BDE-47浓度的增加,大型溞SOD和GST活性均呈现出低浓度诱导高浓度抑制的现象。SOD和GST均表现出一定的敏感性,但相对SOD,GST对BDE-47暴露更为敏感。     

Fe掺杂PTFE-PbO2/TiO2-NTs/Ti电极的制备、表征及电催化性能

采用电沉积法制备了Fe掺杂PTFE-PbO2/TiO2-NTs/Ti、PbO2/TiO2-NTs/Ti、PbO2/Ti 3种电极,运用扫描电镜、X射线衍射仪观察表面形貌与形态,通过线性扫描伏安法在0.1 mol·L-1的H2SO4中测定电极的析氧极化曲线.以对硝基酚(p-NP)为目标污染物,考察了电极的电催化活性,在20 mA.cm-2电流密度下降解100 mg·L-1 p-NP,120 min时表观速率常数分别为0.0370 min-1、0.0265 min-1和0.0180 min-1,COD去除率分别为77.38%、74.07%、66.18%,研究发现在相同的条件下Fe掺杂PTFE-PbO2/TiO2-NTs/Ti性能更佳,矿化更完全.     

2,2′,4,4′-四溴联苯醚（BDE-47）对4种海洋微藻的急性毒性

多溴联苯醚(PBDEs)是一类具有生态风险性的新型持久性有机污染物,其中BDE-47是对生物和人体毒性最强的PBDEs同系物之一.选择4种海洋微藻(海水小球藻、牟氏角毛藻、中肋骨条藻和赤潮异弯藻),采用概率单位-浓度对数法研究了BDE-47对海洋微藻的急性毒性效应(BDE-47浓度梯度设置为0、0.1、1、5、10、50μg·L-1).结果显示,BDE-47对海水小球藻、牟氏角毛藻、中肋骨条藻和赤潮异弯藻的96h半效应浓度(96hEC50)分别为0.79、1.52、1.99和2.25μg·L-1,表明BDE-47对海洋微藻属于极高毒性物质.     

四溴二苯醚对人甲状腺细胞功能的影响

为研究四溴二苯醚(BDE-47)对原代培养人甲状腺细胞功能的影响,分别用浓度为10-12、10-10和10-8mol·L-1的BDE-47处理原代人甲状腺滤泡上皮细胞(TEC)24h,采用化学发光酶联免疫检测法检测细胞上清液中甲状腺球蛋白(Tg)的浓度,半定量逆转录聚合酶链反应技术检测功能相关的Tg基因和双链复合蛋白8(Pax-8)基因的表达.结果表明,10-12、10-10mol·L-1暴露组Tg分泌量较对照组显著减少(p<0.05),而10-8mol·L-1BDE-47组Tg分泌量与对照组无显著性差异(p>0.05).甲状腺功能相关Tg基因和Pax-8基因的表达量随BDE-47浓度的增加而显著降低(p<0.05),呈明显的剂量-效应关系.以上结果提示,BDE-47对离体培养的原代人甲状腺细胞的功能具有抑制作用,甲状腺功能相关Tg基因和Pax-8基因的表达下调可能是其作用机制之一.     

Large-scale disinfection of real swimming pool water by electro-oxidation

Swimming pool users are a source of various contaminants and microorganisms. Conventional chlorine-based reagents treatment is commonly used to disinfect water. However, this disinfection treatment has serious serious health issues such as formation of carcinogenic by-products, i.e., trihalomethanes. In order to prevent this problem, an electrochemical disinfection process was carried out using synthetic and real swimming pool waters. The performance of the electrochemical system was evaluated by studying the effect of current intensity (0.5–3.0 A), treatment time, type of anode (Nb/BDD and Ti/Pt) and the initial concentration of pathogens Escherichia coli and P. aeruginosa. Results show that real swimming pool water, initially containing 10⁶ CFU/100 mL of pathogens, was disinfected at current intensities of 1.5 and 3.0 A using, respectively, Nb/BDD and Ti/Pt as anode materials (CFU: colony-forming units, BDD: boron-doped diamond). This work is also one of the few showing the up-scaling of electrochemical disinfection of real swimming pool water at large volumes of 100 L.     

钛基Sn或Pb 氧化物涂层电极的制备与表征

采用热分解和电沉积方法分别制备了Ti/SnO2-Sb2O3,Ti/PbO2 和Ti/SnO2-Sb2O3/PbO2 三种电极.电镜照片表明,与热分解制备的Ti/SnO2-Sb2O3 电极表面呈"泥裂状"不同,电沉积Ti/PbO2 电极表面呈典型金刚石型结构;Ti/SnO2-Sb2O3/PbO2 电极的氧化物中间层使PbO2 结晶显著减小,而且增加了镀层PbO2 与钛基的结合力,在连续使用较长时间后电极表面出现"蜂窝状"腐蚀坑.EDAX和XRD 分析表明,虽然电极用于电化学氧化对氯苯酚后表层物相没有发生改变,但其组成元素的含量有所变化.与Ti/SnO2-Sb2O3 和Ti/PbO2 电极相比,Ti/SnO2-Sb2O3/PbO2 电极具有更高的电化学氧化性能.     

营养盐浓度对中肋骨条藻优势种群富集多溴联苯醚的影响

以中肋骨条藻（Skeletonema costatum）和东海原甲藻（Prorocentrum donghaiense）组成中肋骨条藻优势种群的海洋微藻为研究对象,以我国近海水体中存在的3种丰度较高的多溴联苯醚同系物为代表,包括2,4,4＇-三溴联苯醚（BDE-28）、2,2’,4,4’-四溴联苯醚（BDE-47）和2,2＇,4,4＇,5-五溴联苯醚（BDE-99）,研究了硝酸盐浓度（0、128、512μmol·L-1）和磷酸盐浓度（0、8、32μmol·L-1）对中肋骨条藻优势种群生化成分和富集3种多溴联苯醚的影响,分析了中肋骨条藻优势种群对多溴联苯醚的富集量与生化成分的关系。结果表明,随着营养盐浓度的升高,单位藻细胞的富集量呈现降低趋势,硝酸盐浓度为0μmol·L-1时,3种多溴联苯醚同系物每106cells的富集量为3.93-5.01 ng,而硝酸盐浓度为512μmol·L-1时,每106cells富集量为3.53-3.94 ng,降低了10%-23%;不同硝酸盐浓度下单位体积藻液富集量差异较小,随硝酸盐浓度的升高,BDE-99和47富集量分别从0.180和0.179 ng·mL^-1降低到0.167和0.150 ng·mL^-1,BDE-28没有出现明显差异。与硝酸盐相似,多溴联苯醚单位藻细胞富集量也随着磷酸盐浓度的升高而呈现出降低的趋势,每106cells的富集量从磷为0μmol·L-1的3.04-3.28 ng降低到32μmol·L-1时的2.27-2.73 ng;不同磷酸盐浓度下单位体积藻液的富集量差异不显著,其中BDE-99富集量范围在0.188-0.190 ng·mL^-1,随磷酸盐浓度的升高,BDE-47和28富集量略有降低,从0.20 ng·mL^-1降低到约0.16 ng·mL^-1。中肋骨条藻优势种群单位细胞对多溴联苯醚富集随着营养盐浓度的增加而降低,其原因是营养盐浓度影响了其细胞生化成分,其中脂类含量与富集量存在正相关关系。对3种同系物富集量的比较发现,随多溴联苯醚同系物的Kow降低,富集量总体上呈现降低的趋势。     

十溴联苯醚(BDE-209)对土壤跳虫的急、慢性毒性效应

为揭示溴代阻燃剂对土壤生态系统的潜在危害,采用回避实验和繁殖实验评价了十溴联苯醚(BDE-209)对2种土壤跳虫Folsomia candida和Folsomia fimetaria的急/慢性毒性。48h的急性回避实验中,BDE-209对F.candida和F.fimetaria产生毒性效应的EC_(50)值分别为1.27和0.79mg·kg~(-1),LOEC值均小于0.5mg·kg~(-1)。慢性繁殖实验中,BDE-209对F.candida和F.fimetaria繁殖毒性的EC_(50)值分别为0.81和0.56mg·kg~(-1),LOEC值分别为<0.25和<0.5mg·kg~(-1)。研究表明,土壤BDE-209污染对跳虫的繁殖和环境行为有显著影响,且在较低暴露浓度下(0.25mg·kg~(-1))即对跳虫繁殖产生抑制效应;有性生殖的F.fimetaria比孤雌生殖的F.candida对BDE-209污染的毒性响应更为敏感。