固相膜萃取与GC/MS联用测定地下水中痕量半挥发性有机物的野外采样方法研究

C18固相萃取膜适宜处理大体积地下水样现场采样而且易于运输、贮存。利用C18固相膜萃取以及GC／MS联用的方法对地下水中痕量半挥发性有机污染物进行了萃取以及定性、定量分析。优化了固相膜萃取的地下水采样量和浓缩体积。有机氯农药和多环芳烃的平均回收率分别为85％～110．1％、90．3％～115．1％；方法检出限达到10^-9g／L；相对标准偏差均小于15％。本方法用于北京地区地下水中的有机污染物分析，并给出地下水样C18固相膜萃取的GC／MS测定结果。     

GC/MS方法分析豇豆中水胺硫磷等37种农药残留

建立了GC/MS法同时测定豇豆中水胺硫磷等37种农药残留的方法.农药经过乙腈提取,NH2/CARBON复合固相萃取小柱净化,HP-5MS(30 m×0.25 mm×0.25 μm)弹性石英毛细管柱分离后,用GC/MS选择离子模式进行测定.农药在0.020～0.500 mg/L时与峰面积有良好的线性关系(r2>0.990...     

固相萃取-气相色谱质谱法检测水体中典型有机磷酸酯阻燃剂

建立了固相萃取(SPE)与气相色谱质谱(GC-MS)联用测定自然水体中8种有机磷酸酯阻燃剂(OPFRs)OPFRs的分析方法。通过对GC MS条件与SPE萃取条件的优化,采用Poly-Sery PSD固相萃取小柱对水样进行富集浓缩,用4 mL乙酸乙酯洗脱,以选择离子扫描方式对目标物进行定性和定量分析,并采用内标法定量。本方法在对应OPFRs线性范围内的线性相关系数为0.9937～0.9995;检出限为0.006～0.850 ng/L;定量限为0.015～2.0 ng/L。除磷酸三(2-乙基)己基酯(TEHP)外,其它OPFRs的加标回收率为70.3%～114.3%。TEHP加标10和50 ng/L时,回收率为64.0%～69.3%;加标100 ng/L时回收率为34.3%。将本方法应用于太湖梅梁湾水体中OPFRs分析,其总浓度值为1000～2700 ng/L。     

HPLC-MS-MS法测定水体中残留的氨基甲酸酯类农药

应用高效液相色谱-串联质谱(HPLC-MS-MS)联用技术,建立了检测水体中氨基甲酸酯类农药残留的方法。水样经氨基柱固相萃取,二氯甲烷洗脱,梯度流动相洗脱,电喷雾正离子(ESI+)模式采集、选择反应性监测模式(SRM)对定性、定量离子进行MS/MS测定。5种氨基甲酸酯类农药在5～200ng/L范围内线性关系良好,回收率为80%～92%,相对标准偏差均小于10%,方法检出限分别为:异丙威和仲丁威为1.4ng/L,克百威和甲萘威为1.5ng/L,恶虫威为1.6ng/L。该方法适用于水体中氨基甲酸酯类农药残留的检测。     

浓缩苹果汁中多种拟除虫菊酯类农药残留量的气相色谱-质谱测定方法

采用固相萃取技术,以丙酮和正己烷提取,C18小柱净化,用GC MS可同时测定浓缩苹果汁中4种拟除虫菊酯类农药的残留量。方法的回收率在96.5%～111.9%之间,相对标准偏差为1.7%～6.9%,最低检测浓度在0.02～0.10μg kg之间。     

溶胶-凝胶法制备C18固相微萃取头及其在有机氯农药残留检测中的应用

以十八烷基三乙氧基硅烷(C18-TEOS)、四乙氧基硅烷(TEOS)、乙醇、盐和水酸为原料,采用溶胶-凝胶法制备了十八烷基(C18)固相微萃取头,利用所制备萃取头实现了水样中11种有机氯农药的检测。在优化条件下,使用该萃取头对有机氯农药(OCPs)萃取后用气相色谱/电子捕获检测器(GC/ECD)测定,检出限为0.01～0.24μg/L,相对标准偏差为3.0%～13.3%。该方法用于鱼塘水、湖水及自来水中OCPs的检测,结果满意。所制备的萃取头在不同溶剂中浸泡后,对有机氯农药的萃取性能无明显变化。使用50次后,C18萃取头的萃取性能未变化。结果表明,所制备的C18固相微萃取头涂层均匀,具有多孔结构,稳定性高,有很好的实用价值。     

固相萃取-气相色谱法检测血清中有机氯农药残留的研究

建立了血清中DDTs和BHCs共8种有机氯农药残留的固相萃取-气相色谱检测方法。样品经超声酸化沉淀蛋白后,采用正己烷-丙酮(9∶1)经Cleanert ODS C18N固相萃取小柱提取,Florisil固相萃取小柱净化,氮气吹干,以500μL正己烷定容,气相色谱-电子捕获检测器(GC-ECD)进行定量分析。结果表明,方法的线性范围2~200 ng/m L,相关系数(r)为0.996 4~0.999 0,检出限(LOD)为0.1~0.9 ng/m L,定量下限(LOQ)为0.4~3.0 ng/m L。8种农药的回收率为80.5%~112.7%,相对标准偏差(RSD)为2.1%~7.9%。该方法具有较高的准确度和精密度,适用于血清样品中痕量有机氯农药的检测。     

气相色谱-三重四级杆质谱法测定禽蛋及蛋制品中氟虫腈残留量

建立固相萃取(SPE)–气相色谱–三重四级杆质谱(GC–MS–MS)法检测禽蛋及蛋制品中氟虫腈残留量的分析方法。样品采用乙腈提取,经固相萃取小柱净化,GC–MS–MS检测,基质匹配外标法定量。氟虫腈的质量浓度在0.01～0.10 mg/L范围内与色谱峰面积呈良好的线性关系,相关系数r大于0.999,方法的定量限(10S/N)为0.001 mg/kg。在0.01,0.02,0.10 mg/kg 3种浓度添加水平下,平均回收率为86.7%～109.8%,测定结果的相对标准偏差为4.8%～9.9%(n=6)。该方法准确、灵敏、简单、高效,适合禽蛋及蛋制品中氟虫腈残留的定性定量分析。     

快速溶剂萃取-气相色谱-质谱法同时测定土壤中多环芳烃、六六六和滴滴涕

建立快速溶剂萃取-气相色谱-质谱法同时测定土壤中多环芳烃、六六六和滴滴涕。优化了提取溶剂和洗脱溶剂,采用加速溶剂萃取法处理土壤样品,萃取溶剂为二氯甲烷-正己烷(1∶1)。提取液用氮吹仪浓缩、硅酸镁固相萃取小柱净化,用二氯甲烷-正己烷(3∶7)混合溶剂对固相萃取小柱进行活化和洗脱,流出液净化后氮吹浓缩至1 mL,利用气相色谱-质谱内标法进行分析定量。16种多环芳烃、8种有机氯农药及3种替代物在5.0～500μg/L范围内线性良好,方法检出限为0.000 55～0.000 77 mg/kg,加标回收率为68.2%～112.7%,相对标准偏差为4.3%～10.1%(n=5)。该方法可用于同时测定土壤中多环芳烃、六六六、滴滴涕的含量。     

固相萃取-气相色谱-质谱法测定运动员血清中有机氯

建立了一种利用Captiva Emr-lipid固相萃取结合气相色谱-质谱联用仪(GC-MS)同时检测运动员血清中21种有机氯农药残留的方法。血清样品经1%酸化乙腈去蛋白后,Captiva Emr-lipid固相萃取柱净化,GC-MS测定,选择离子监测模式(SIM)监测,内标法定量。结果表明,21种有机氯农药在2～300 ng/mL的范围内,线性良好,相关系数均大于0.99。在5,10,20,50 ng/mL的添加水平下,方法准确度为79%～115%,相对标准偏差(RSD)20%。Captiva Emr-lipid固相萃取柱可以有效净化血清样品,适用于血清中多种有机氯农药的定性和定量分析。     

Comparison of solvent extraction and solid-phase extraction for the determination of organochlorine pesticide residues in water.

Solid-phase extraction (SPE) of organochlorine pesticide residues from environmental water samples was evaluated using octadecyl (C18)-bonded porous silica. The efficiency of SPE of these pesticide residues from reagent water samples at 1-5 micrograms dm-3 levels was compared with those obtained by solvent extraction with hexane and Freon TF (trichlorotrifluoroethane). Average recoveries exceeding 80% for these organochlorine pesticides were obtained via the SPE method using small cartridges containing 100 mg of 40 microns C18-bonded porous silica. The average recovery by solvent extraction with hexane and Freon TF exceeded 90% in both instances. It was concluded that the recoveries and precision for the SPE of organochlorine pesticides were poorer than those for the solvent extraction method. Organochlorine pesticide residue levels in environmental water samples from two major rivers flowing through predominantly rice-growing areas were monitored by gas chromatography using the solvent extraction method with hexane. Exceptionally high levels of organochlorine pesticide residues such as BHC, DDT, heptachlor, endosulfan and dieldrin were found in these water samples.     

Determination of trace polychlorinated biphenyls and organochlorine pesticides in water samples through large‐volume stir bar sorptive extraction method with thermal desorption gas chromatography

A fast and sensitive analytical method based on stir bar sorptive extraction technology with gas chromatography and mass spectrometry was developed to simultaneously analyze 18 kinds of polychlorinated biphenyls and 20 kinds of organochlorine pesticides in aqueous samples. A long adsorption time and small sample volume, which are problems encountered in conventional methods of stir bar sorptive extraction, were effectively solved by simultaneously using multiple stir bars for enrichment with sequential cryofocusing and merged injection. Optimized results showed good linear coefficients in the range of 10–500 ng/L and the method detection limits of 0.12–2.07 ng/L for polychlorinated biphenyls and organochlorine pesticides. The recovery ratios of the spiked samples at different concentrations were between 64.7 and 111.0%, and their relative standard deviations ranged from 0.9 to 17.6%. Four types of the studied compounds were determined in Qiantang River water samples, and their contents were between 0.82 and 5.00 ng/L.     

Ultratraces analysis of organochlorine pesticides in drinking water by solid phase extraction coupled with large volume injection/gas chromatography/mass spectrometry

This study describes an SPE coupled with large volume injection (LVI) analytical method for the analysis of organochlorine pesticides, BHC (alpha, beta, delta), aldrin, endosulfan (alpha, beta), endrin, dieldrin, and DDT, from aqueous samples. Determination was carried out by GC with MS. The LODs of organochlorine pesticides were determined at 10 ng/L concentration levels, and the results show that SPE-LVI-GC/MS has the potential to accurately determine organochlorine pesticides in water, as it avoids analyte classes in the various steps of a typical extraction procedure.     

固相萃取-气相色谱-质谱联用同时测定河水和海水中87种农药

采用固相萃取-气相色谱-质谱联用技术,建立了河水和海水中87种农药(24种有机磷、15种有机氯、12种唑类、9种拟除虫菊酯类、5种氨基甲酸酯类、7种酰胺类及15种其他新型农药)的多残留同时分析方法。优化了影响分离效果和灵敏度的仪器参数,考察了固相萃取柱柱型及水样体积、pH、盐度的影响,采用NH2柱优化了净化效果,内标法和替代物法用于数据的质量控制。结果表明: 在最佳条件下,各目标农药的方法检出限为0.1～6.6 ng/L;以实际河水和海水为基底,在5 ng/L和20 ng/L的加标水平下,绝大多数目标农药的回收率为60%～120%,相对标准偏差(n=4)为0.01%～9.7%。该法灵敏、准确,已成功地应用于福建九龙江河口区表层水样中多种类农药的复合污染监测,检出包括5种有机磷类、3种酰胺类、4种唑类、3种氨基甲酸酯类、2种拟除虫菊酯类等农药20种。     

Neutron activation analysis of extractable organohalogens in milk from China

Instrumental neutron activation analysis (INAA) has been used for the determination of extractable organohalogens (EOX) in milk. The detection limits are 50 ng, 8 ng and 3.5 ng for Cl, Br and I, respectively. The EOX concentrations in milk samples from various regions of China were determined. Meanwhile, organochlorine pesticides residues were detected by gas chromatography. The concentrations of the EOX in the milk samples are decreasing in the order of EOCl >> EOBr > EOI, and EOCl accounts for 95% of the total EOX. The average concentration of EOCl in milk is 4.44 ·g/g expressed as fat weight basis, with the highest value of 17.6 ·g/g from South China. The mean concentrations of total HCH and DDT are 0.038 ·g/g and 0.046 ·g/g, respectively. Organochlorine pesticides account only for 1.6% of the EOCl, indicating the very high proportion of the unknown EOCl in the milk sample. This revised version was published online in August 2006 with corrections to the Cover Date.     

Determination of pesticides in washing waters of olive processing by gas chromatography-tandem mass spectrometry

A simple and rapid SPE-GC method for the determination of 30 organochlorine, organophosphorus, and organonitrogen pesticides at ng/L levels in washing water of olive processing has been developed. Twenty-nine samples of water were collected directly in the inlet and outlet of the washing machines of three olive mills at various locations in Spain. Preconcentration and clean-up were performed by elution of the pesticides from a C18 SPE cartridge using dichloromethane. The target compounds were determined in the final extract by GC-MS/MS. The most frequently encountered pesticide residues were terbuthylazine, simazine, and diuron. In some of the water samples, coming from the inlet of the washing machines, terbuthylazine and diuron concentrations were above the maximum residue limit.     

亚临界水萃取及气相色谱-串联质谱法检测红茶中多种农药残留

建立了亚临界水萃取及气相色谱-串联质谱(GC-MS/MS)检测红茶中21种有机氯和拟除虫菊酯农药残留的方法。在萃取压力为5 MPa条件下,样品经150 ℃的亚临界水提取15 min后,将目标物转移至丙酮-正己烷(1:1, v/v)中,经ENVI-Carb固相萃取净化小柱净化,DB-5毛细管气相色谱柱分离,在多反应监测(MRM)模式下进行MS/MS检测,基质匹配溶液内标法定量。各目标物在5.0～320.0 μg/L范围内线性关系良好,相关系数均大于0.99,其定量限(信噪比(S/N)＞10)为50 ng/g,检出限(S/N＞3)为10 ng/g。茶叶基质中添加50、100和200 ng/g的标准品时,21种农药的回收率为70.18%～119.98%,相对标准偏差(RSD)为5.01%～11.76%。该方法的灵敏度、准确度和精密度均符合农药残留测定的技术要求,适用于红茶中有机氯和拟除虫菊酯农药残留的检测。     

Organochlorine Pesticides in Water,Sediment and Fish from the Nile River and Manzala Lake in Egypt

Abstract

To assess the risks of organochlorine pesticides discharged into the hydrospheric environment of Egypt, river and lake water, drinking water, suspended solids, sediments and fish were collected during 1993—1994 from the Nile River and Manzala Lake in Egypt and were transported to Japan for chemical analysis. Among different organochlorine pesticides analyzed, p,p′-DDE was the most predominant in fish (7.6 to 67 ng/g wet wt.), sediments (3.2 to 432 ng/g dry wt.) and suspended solids (5.3 tc 138 pg/L). However, in the dissolved phase of water samples HCH compounds predominated (α-HCH, 71 to 2,815 pg/L). Concentrations of organochlorine pesticides, except chlordane, were higher in Manzala Lake than in the River Nile. Concentrations of organochlorine pesticides in fish corresponded with those in sediments from each location. Comparison of organochlorine concentrations in Nile River water with those reported in earlier studies suggested a decrease in concentrations during the last decade. However, concentrations of p,p′-DDE has increased in fish. It appears that the release of this metabolite from contaminated sediment is the major source of p,p′-DDE in fish during recent years.     

Electrodeposited polyaniline as a fiber coating for solid-phase microextraction of organochlorine pesticides from water

The study on the performance of polyaniline as a fiber coating for solid-phase microextraction (SPME) purposes has been reported. Polyaniline coatings were directly electrodeposited on the surface of a stainless steel wire and applied for the extraction of some organochlorine pesticides (OCPs) from water samples. Analyses were performed using GC-electron capture detection (GC-ECD). The results obtained show that polyaniline fiber coating is suitable for the successful extraction of organochlorine compounds. This behavior is most probably due to the porous surface structure of polyaniline film, which provides large surface areas and allowed for high extraction efficiency. Experimental parameters such as adsorption and desorption conditions were studied and optimized. The optimized method has an acceptable linearity, with a concentration range of 1-5000 ng/L. Single fiber repeatability and fiber-to-fiber reproducibility were less than 12 and 17%, respectively. High environmental resistance and lower cost are among the advantages of polyaniline fibers over commercially available SPME fibers. The developed method was applied to the analysis of real water samples from Yangtse River and Tianmu Lake.     

Preconcentration of organochlorine pesticides in aqueous samples by dispersive liquid–liquid microextraction based on solidification of floating organic drop after SPE with multiwalled carbon nanotubes

SPE joined with dispersive liquid–liquid microextraction based on solidification of floating organic drop (DLLME‐SFO) as a novel technique combined with GC with electron‐capture detection has been developed as a preconcentration technique for the determination of organochlorine pesticides (OCPs) in water samples. Aqueous samples were loaded onto multiwalled carbon nanotubes as sorbent. After the elution of the desired compounds from the sorbent by using acetone, the DLLME‐SFO technique was performed on the obtained solution. Variables affecting the performance of both steps such as sample solution flow rate, breakthrough volume, type and volume of the elution, type and volume of extraction solvent and salt addition were studied and optimized. The new method provided an ultra enrichment factor (8280–28221) for nine OCPs. The calibration curves were linear in the range of 0.5–1000 ng/L, and the LODs ranged from 0.1–0.39 ng/L. The RSD, for 0.01 μg/L of OCPs, was in the range of 1.39–13.50% (n = 7). The recoveries of method in water samples were 70–113%.