环境浓度下邻苯二甲酸二乙酯对秀丽隐杆线虫的生态毒理效应

DEP (diethyl phthalate,邻苯二甲酸二乙酯)是一种在环境中普遍存在的具有潜在神经和生殖毒性的增塑剂,其会干扰环境生物的发育水平、运动行为及生化水平.以秀丽隐杆线虫的体长、体宽、头部摆动频率及生化指标作为测试终点,评估环境中DEP对秀丽隐杆线虫的生态毒理效应.在不同环境浓度(0、0.000 2、0.002、0.02、0.2、2 mg/L)的DEP溶液中,对秀丽隐杆线虫进行不同时间(24 h、72 h和10 d)的暴露试验.结果表明:①在不同浓度DEP溶液中暴露24 h后,秀丽隐杆线虫的发育水平均未受到显著影响(P>0.05).②在不同浓度DEP溶液中暴露72 h后,秀丽隐杆线虫的发育水平受到干扰.与对照组相比,在DEP浓度最高(2 mg/L)时,秀丽隐杆线虫体长下降了3.21%(P < 0.05);在DEP浓度为0.000 2 mg/L时,秀丽隐杆线虫的体宽呈上升趋势,且头部摆动频率明显加快了5.52%(P < 0.01),秀丽隐杆线虫的发育水平受到显著抑制.③在不同浓度DEP溶液中暴露10 d后,与对照组相比,秀丽隐杆线虫的体长、体宽和头摆频率均出现下降;在DEP浓度为2 mg/L时,秀丽隐杆线虫体内活性氧自由基、脂褐素和细胞凋亡水平累积均增长显著,出现氧化应激损伤.研究显示,不同环境浓度的DEP溶液会对秀丽隐杆线虫产生一定的毒性影响,且不同暴露时间和暴露浓度产生的毒性影响也存在一定差异.      

邻苯二甲酸二丁酯降解过程的单体同位素分析

研究对比了邻苯二甲酸二丁酯（DBP）在不同降解过程（水解、UV/H₂O₂光解、直接光解、过硫酸钾光氧化）中的碳、氢同位素组成变化、分馏特征及二维同位素（Δδ²H-Δδ¹³C）的相关性.水解反应中DBP分子产生了显著的碳同位素分馏,未发现氢同位素分馏,而且碳同位素富集因子ε_C为（-2.7±0.4）‰,表明DBP水解时发生C-O键断裂,氢原子不参与反应.而UV/H₂O₂光解和直接光解反应（pH值分别为2、7和10）中,DBP分子呈现了相似的二维同位素相关性Λ值[（9±2）~（11±2）],推测经历了相同的反应过程.过硫酸钾光氧化降解时,明显偏大的Λ值（31±3）说明反应可能发生C-H键断裂.结果表明：二维单体同位素分析（2D-CSIA）技术可以有效区分DBP的水解、光解、光氧化3种不同类型的降解过程,有助于分析其降解路径.     

Dimethyl phthalate biodegradation by Dunaliella tertiolecta

Dunaliella tertiolecta has an ability to biodegrade dimethyl phthalate(DMP) was found in this study, and the average of the biodegradation rates were 11.3 mg/(L·d) and 30.5 mg/(L·d), and the average of the phthalic acid (PA) production rates were 1.5 mg/(L·d) and 3.6 mg/(L·d), for initial 100 mg/L and 300 mg/L DMP, respectively. The larger amount of accumulation by D. tertiolecta under higher DMP concentration may be responsible for the increase of biodegradation rate, and one of products of DMP biodegradation by D. tertiolecta may be PA. By fitting the process of DMP biodegradation by D. tertiolecta with a kinetic equation newly suggested, the standard deviations between calculated and observed values were 2.5 mg/L and 5.7 mg/L, respectively.     

新型介孔薄膜涂层固相微萃取-气相色谱法测定塑料浸取液中的邻苯二甲酸二(2-乙基己基)酯

自制新型介孔薄膜涂层固相微萃取头,结合顶空固相微萃取-气相色谱法(HS-SPME-GC),测定水溶液中的邻苯二甲酸二(2-乙基己基)酯(DEHP)。结果表明,该方法具有良好的线性范围(0.1～2000μgL),检出限为0.08μgL,相对标准偏差为5.5%(n=3)。将该法应用于检测塑料浸取液中DEHP,结果令人满意。     

过滤捕集法处理含DEP雾废气的研究

为了探讨玻璃纤维过滤器处理含DEP雾废气的效率问题,在实验室进行了DEP雾去除实验。考查了不同气体入口浓度、过滤流速下玻璃纤维过滤捕集装置对含DEP雾废气的净化能力,结果表明:利用玻璃纤维过滤器去除DEP雾,在DEP雾粒径主要分布为0.48～3.4μm之间,DEP雾浓度小于220 mg/m3,过滤流速小于10 cm/s情况下,玻璃纤维过滤器对DEP雾的去除率大于99%,最大气体流量下的压力降小于1610Pa;同时对含油(酸)雾废气除雾效果好,特别是对于粒径特别细微的油(酸)雾,捕集效率也很高,还可回收利用,不会产生二次污染。     

辉光放电等离子体氧化降解水中邻苯二甲酸二丁酯

研究了辉光放电等离子体降解水中典型的环境内分泌干扰物邻苯二甲酸二丁酯(DBP)及降解过程中过氧化氢(H2O2)的生成规律。考察了电解质种类、共存污染物(甲醇、叔丁醇)及催化剂等条件对DBP降解及H2O2生成的影响。结果表明,在硫酸钠溶液中DBP降解效率和H2O2生成速率最高;甲醇、叔丁醇等共存污染物对DBP降解和H2O2生成有抑制作用;Fe2+,Fe3+和Cu2+对DBP的降解有催化作用,其催化效果为Fe2+>Fe3+>Cu2+。用高效液相色谱、离子色谱及气质联用仪等仪器分析了降解中间产物,提出了可能的降解机理。     

活性炭纤维负载TiO2催化剂的制备及其电催化性能

采用溶胶-凝胶法制备了活性炭纤维负载TiO₂催化剂（TiO₂/ACF），并通过SEM和XRD等手段对TiO₂/ACF进行了表征。以邻苯二甲酸二甲酯（DMP）为目标降解物，考察了催化材料的电催化活性。实验结果表明：在反应温度为25 ℃、初始DMP质量浓度为100.0 mg/L、电解质Na₂SO₄质量浓度为100 mg/L、电流密度为62.5 mA/cm²、电极板间距为4 cm的条件下，经过40 min的降解，DMP质量浓度为1.8 mg/L，DMP去除率为98.2%;TiO₂/ACF在反应过程中可以原位再生，经6次重复使用后仍保持很高的催化活性，对DMP的去除率仍达90%以上。     

高效液相色谱-三重四级杆/复合线性离子阱质谱法测定饮用水中22种邻苯二甲酸酯

建立了一种同时测定饮用水中22种邻苯二甲酸酯(PAEs)的高效液相色谱-三重四级杆/复合线性离子阱质谱方法:饮用水样品经针头过滤器过滤,选用Biphenyl液相色谱柱进行分离,以含0.1%甲酸的水溶液和含0.1%甲酸的甲醇溶液为流动相,电离模式为电喷雾正离子,选用多反应监测触发增强子离子扫描模式进行检测。结果表明,22种PAEs的灵敏度良好,定量限为0.001～0.1 μg/L。配制浓度为0.1～100.0 μg/L的混标溶液进行进样分析,分析结果显示,22种PAEs在该范围内的线性关系良好,相关系数均大于0.995,方法的平均回收率为82.9%～108.9%,相对标准偏差为0.9%～11.2%。同时,使用增强子离子扫描谱图进行搜库匹配,定性准确性高。该方法适用于饮用水中PAEs的检测。     

Diminution of migration of phthalic acid esters in tequila beverage by the year of production

Abstract

The presence of diethyl-phthalate (DEP), dibutyl-phthalate (DBP), butylbenzyl-phthalate (BBP), diethylhexyl-phthalate (DEHP) and diisononyl-phthalate (DINP) was determined in 295 tequila samples. They were grouped by age of maturation (white, aged, extra aged or ultra aged) and year of production (between 2013 and 2018). Gas Chromatography coupled with Mass Spectrometry was used for identification and quantification. The results showed that 65 samples (22% of the total) were phthalate free. DEP (0.13-0.27?mg/kg), BBP (0.05–2.91?mg/kg) and DINP (1.64–3.43?mg/kg) were detected in 11 (3.73%), 37 (12.54%) and 5 (1.69%) samples, respectively. But, these concentrations did not exceed the maximum permitted limits (MPL) of phthalates for alcoholic beverages. DBP (0.01–2.20?mg/kg) and DEHP (0.03–4.64?mg/kg) were detected in 96 (32.54%) and 224 (75.93%) samples, from them only 10 (3.39%) and 15 (5.08%) samples, respectively, exceeded the MPL for alcoholic beverages and they were few tequilas produced in the year 2014 or before. DEHP was the most frequent phthalate found in tequila and observed DEHP concentrations were 2-times higher in ultra aged tequilas compared to those in white tequilas. We concluded that all tequilas produced in 2015 and after, satisfied the international standards for these compounds.     

Primary neuronal-astrocytic co-culture platform for neurotoxicity assessment of di-(2-ethylhexyl) phthalate

Plastics such as polyvinyl chlorides （PVC） are widely used in many indoor constructed environments; however, their unbound chemicals, such as di-（2-ethylhexyl） phthalates （DEHP）, can leach into the surrounding environment. This study focused on DEHP＇s effect on the central nervous system by determining the precise DEHP content in mice brain tissue after exposure to the chemical, to evaluate the specific exposure range. Primary neuronal-astrocyte co-culture systems were used as in vitro models for chemical hazard identification of DEHP. Oxidative stress was hypothesized as a probable mechanism involved, and therefore the total reactive oxygen species （ROS） concentration was determined as a biomarker of oxidative stress. In addition, NeuriteTracer, a neurite tracing plugin with ImageJ, was used to develop an assay for neurotoxicity to provide quantitative measurements of neurological parameters, such as neuronal number, neuron count and neurite length, all of which could indicate neurotoxic effects. The results showed that with 1 nmol/L DEHP exposure, there was a significant increase in ROS concentrations, indicating that the neuronal-astrocyte cultures were injured due to exposure to DEHP. In response, astrocyte proliferation （gliosis） was initiated, serving as a mechanism to maintain a homeostatic environment for neurons and protect neurons from toxic chemicals. There is a need to assess the cumulative effects of DEHP in animals to evaluate the possible uotake and effects on the human neuronal system from exoosure to DEHP in the indoor environment.