超声提取-电感耦合等离子体质谱法分析土壤中重金属化学形态

采用超声提取处理土壤样品,用ICP-MS分析样品中Cu、Zn、Pb、Cd、Ni、Cr等6种重金属元素形态,通过试验分析超声提取时土壤样品粒径、超声提取时间对提取效率的影响。方法在0.500μg/L~100μg/L之间线性良好,检出限为0.007μg/L~0.8μg/L,实际样品测定结果的RSD为4.7%~22.7%。土壤中重金属4种形态之和的总量与全量的相对偏差为11.0%~36.4%。将该方法与连续振荡法的试验结果比对,表明两方法对土壤样品的提取效率无显著性差异。     

微库仑法和离子色谱法测定土壤中可吸附有机卤素

采用振荡吸附处理土壤样品，用微库仑法和离子色谱法分别测定土壤中的可吸附有机卤素(AOX)。通过优化样品前处理条件以提高AOX的提取效率，上述两种方法检出限分别为15.3 mg/kg和16.3 mg/kg, 4-氯苯酚作为标准物质的加标回收率分别为92.2%～95.0%和77.7%～80.2%。两种方法测定实际土壤样品中AOX,6次测定结果的RSD为5.4%～19.2%。GSS系列标准土壤试验结果表明，振荡吸附处理样品，用微库仑法和离子色谱法在测定样品中AOX时测定结果区别不大，土壤中AOX含量与卤素含量无直接关系。     

微囊藻中叶绿素a提取方法的优化

用组织研磨、浸泡提取、热浴超声3种提取方法和丙酮、甲醇、乙醇3种提取溶剂，从实验室纯培养微囊藻中提取叶绿素a，并以高效液相色谱法测定其质量浓度。结果表明，经组织研磨破碎藻细胞后用甲醇提取的效果好于丙酮和乙醇，经浸泡和超声破碎藻细胞后用乙醇的提取效果好于丙酮和甲醇；使用乙醇-热浴超声法在所有的试验组合中获得最佳提取效果，条件为：乙醇温度为50℃-55℃，超声6min-8min后再静置提取5h-6h。     

土壤和河流沉积物中六六六和滴滴涕残留的测定

采用密闭微波提取、超声波提取、索氏提取对土壤和河流沉积物进行前处理,提取液经弗罗里硅土柱净化或浓硫酸净化.通过回收率实验和精密度实验对三种提取方法和两种净化方法进行比较,建立了微波提取土壤和河流沉积物中六六六和滴滴涕,浓硫酸净化,气相色谱一质谱测定的分析方法,方法回收率在84%～110%之间,精密度(RSD)在2.8%～9.9%之间.采用该方法对阜阳市废弃农药厂周围的土壤和河流沉积物中六六六和滴滴涕进行了监测.     

柱后衍生离子色谱法测定土壤和沉积物中的六价铬

采用加热回流提取、柱后衍生离子色谱法分离土壤和沉积物中的六价铬，使用紫外可见检测器进行测定。选用7种土壤和沉积物的实际样品，依次讨论了氢氧化钠-碳酸钠溶液、碳酸氢钠溶液、氢氧化钠-氯化钾溶液、离子色谱碱性淋洗液4种不同提取剂对六价铬的提取效率，以及超声提取、水浴振荡提取和恒温磁力搅拌冷凝回流3种提取方式的提取效果；研究了10～60 min、25～190℃条件下的最佳提取时间和加热温度；分析了不同提取剂体积和称样量比值条件下六价铬标土的测定量，并探究了提取液的保存条件。优化后的前处理条件：称取2.5 g筛分后的土壤或沉积物样品，加入25 mL NaOH/Na₂CO₃提取剂，在恒温磁力搅拌冷凝回流装置上于120℃加热回流60 min,离心后用0.22μm滤膜过滤，用柱后衍生离子色谱紫外检测装置进行测定。相比目前常用的分光光度法、原子吸收法等测定土壤中六价铬方法，柱后衍生离子色谱法特异性强，降低了差减法或其他前处理技术测定六价铬时所引入的误差，且不受提取液色度、浊度等影响。方法检出限可达0.002 mg/kg,灵敏度高，操作简便，抗干扰能力强，对于...     

分光光度法测定土壤阳离子交换量的方法优化

为了提高土壤阳离子交换量测定的准确度,针对《土壤阳离子交换量的测定三氯化六氨合钴浸提-分光光度法》(HJ 889—2017)标准的不足,对有机质、pH值、浸提时间、离心时间、浸提液过滤等条件进行优化。结果表明,酸性土壤在测试前调节pH值为6.0~8.0,振荡1 h,离心10 min,能够很好地解决测试结果偏低的问题。当有机质质量分数较高,且在380 nm处吸光度很高时,才需要在475 nm处进行吸光度校正。当实际样品基质复杂时,可采用针头过滤的方法,使得测试结果更准确。优化后的方法适用于各种类型土壤的大批量测定。     

碱片-离子色谱法测定硫酸盐化速率影响因素

采用碱片-离子色谱法测定空气的硫酸盐化速率,方法在硫酸盐质量浓度为1.00~20.0 mg/L范围内线性良好(r≥0.999 0);碱片剪碎或不剪碎对空白碱片中硫酸根离子质量浓度的测定无明显影响,且高低两种加标浓度的回收率均在80.0%~120%之间;对于碱片实际样品,碱片剪碎更有利于硫酸根离子的快速溶出;随浸泡时间的延长,碱片中溶出的硫酸根离子质量浓度呈上升趋势,7 h硫酸根离子基本溶出完全,从保证结果质量和节省时间的角度考虑,确定最佳浸泡时间为3.5 h,建议碱片全部采取剪碎处理。     

微波提取高效液相色谱法测定土壤中15种痕量多环芳烃

采用微波提取结合高效液相色谱技术测定了土壤中15种PAHs的含量.比较了用微波提取、索氏提取和超声萃取3种土壤样品的前处理方法对多环芳烃测定的影响,考察了色谱柱的性能、梯度洗脱条件的优化、荧光检潮波长程序变换及柱温等因素对15种PAHs组分之同分离的影响.经优化后的HPLC方法对15种PAHs的最低检测限为0.10～0.80 μg/kg,相对标准偏差为0.60%～4.60%,方法的回收率为58.1%～97.8%.实验结果表明,该方法兵有高效、快速、灵敏等特点,可以用于环境土壤样品中痕量PAHs的检测.     

悬浮液进样-火焰原子吸收光谱法测定土壤中铜

应用悬浮液进样火焰原子吸收光谱法,成功地测定了土壤中的铜。在制备土壤样品悬浮液过程中,对悬浮液的酸量、悬浮剂的浓度及土壤样品粒度的影响等均进行了试验。样品在( 105±2 )℃下烘干4h,研磨过200目筛,加入1 5g/L琼脂悬浮剂10mL和适量硝酸,使样品呈0 2mol/L硝酸悬浮液,充分混合振荡,直接上机测定。通过测定国家土壤标准参考物质,表明该法准确可靠。为进一步验证该法的适用性,又测定了实际土壤样品,且与常规法作了对比,表明两种方法的测定结果一致,而悬浮液的制备更为快速简便。     

气相色谱法同时分析测定土壤中15种有机氯农药残留

采用石油醚+丙酮(3+1,V/V)作为提取溶剂、硫酸钠溶液与弗罗里藻土净化,气相色谱法同时测定贵州150个土壤背景点15种有机氯农药残留.峰面积与保留时间的精密度分别为1.14～5.15,0.01～0.09;线性关系均在0.99以上;加标回收率为84.3%～127.8%;方法检出限为0.003～0.025ng/g.该方法适用于土壤背景点有机氯农药残留量的分析.     

基于改进火焰原子吸收光谱的土壤六价铬分析

针对分离和萃取环节,对火焰原子吸收光谱测定土壤中六价铬的方法加以改进。采用聚合氯化铝为絮凝剂、异戊醇为萃取剂,使三价铬和六价铬有效分离,并减少了测试干扰。考察了聚铝试剂用量和萃取液振荡时间对测定的影响,并将该方法与EPA 3060A方法和未改进的火焰原子吸收光谱法比较,表明改进后的方法能用于土壤中六价铬的测定。     

铬污染土壤中六价铬的测定

研究了土壤中Ｃｒ＾６＋的提取测定方法。结果表明，用０．４ｍｏｌ／Ｌ ＫＣｌ为提取剂，离心分离提取液，可简单，快速，准确地测定土壤中Ｃｒ＾６＋，所建立的方法适用于北方偏碱性土壤。     

快速溶剂萃取红外分光光度法测定土壤中石油类

研究快速溶剂萃取红外分光法对土壤中石油类的提取效果,并与超声波萃取红外分光法比较.结果表明,快速溶剂萃取对土壤中的石油类的回收率高,精密度好,方法快速简便.     

土壤中有效态重金属的化学试剂提取法研究进展

土壤重金属污染是国内外关注的热点问题，针对采用全量重金属评价土壤污染存在的问题，本文综述了近年来土壤有效态重金属的化学提取方法研究进展，比较分析了各种单一提取法和影响土壤重金属提取率的因素。在此基础上，评价了各类提取方法的特点及其在应用上的优势和局限，指出了筛选通用提取剂的原则和依据。结合实验初步提出以去离子水作为通用提取剂的可行性及尚需研究解决的问题。     

The extraction of aged polycyclic aromatic hydrocarbon (PAH) residues from a clay soil using sonication and a Soxhlet procedure: a comparative study

A sonication method was compared with Soxhlet extraction for recovering polycyclic aromatic hydrocarbons (PAH) from a clay soil that had been contaminated with tar materials for several decades. Using sonication over an 8 h extraction period, maximum extraction of the 16 US EPA priority PAH was obtained with dichloromethane (DCM)-acetone (1 + 1). The same procedure using hexane-acetone (1 + 1) recovered 86% of that obtained using DCM-acetone (1 + 1). PAH recovery was dependent on time of extraction up to a period of 8 h. The sonication procedure showed that individual PAH are extracted at differing rates depending on the number of fused rings in the molecule. Soxhlet extraction [with DCM-acetone (1 + 1)] over an 8 h period recovered 95% of the PAH removed by the sonication procedure using DCM-acetone (1 + 1), indicating that rigorous sonication can achieve PAH recoveries similar to those obtained by Soxhlet extraction. The lower recovery with the Soxhlet extraction was explained by the observed losses of the volatile PAH components after 1-4 h of extraction. The type of solvent used, the length of time of extraction and extraction method influenced the quantification of PAH in the soil. Therefore, the study has implications for PAH analyses in soils and sediments, and particularly for contaminated site assessments where the data from commercial laboratories are being used. The study emphasizes the importance of establishing (and being consistent in the application of) a vigorous extraction, particularly for commercial laboratories that handle samples of soil in batches (at different times) from a single site investigation or remediation process. The strong binding of PAH to soil, forming aged residues, has significant implications for extraction efficiency. This paper illustrates the problem of the underestimation of PAH using the US EPA method 3550, specifically where a surrogate spike is routinely employed and the efficiency of the extraction procedure for aged residues is unknown. The implications of this study for environmental monitoring, particularly where numerous batches of samples from a single site assessment or remediation program are submitted to commercial laboratories, is that it would be advisable for these laboratories to check their existing method's extraction efficiencies by conducting a time course sonication extraction on their particular soil to determine the optimum extraction time.     

Optimization of the Microwave-Assisted Solvent Extraction of Petroleum Hydrocarbons in Marine Sediment and Soil

A microwave-assisted solvent extraction (MASE) technique was developed for the quantitative extraction of gasoline- and diesel-range petroleum hydrocarbons (PHs) from soil and marine sediment samples. The influence of different extracting solvents, extraction temperature and duration of extraction on the recoveries of PHs was evaluated using a two-level orthogonal array design (OAD) with a OA8(27) matrix. Gas chromatographic-mass spectrometry (GC-MS) in multiple selective ion monitoring (MSIM) mode was used for the analysis of the PHs in environmental samples. The spiking range of the PHs in the environmental samples was between 1 to 1000 g/g. Good recoveries (>80%) could be obtained for most of the PHs using the optimum MASE conditions. The limit of detection (LOD) achieved by the GC-MS-MSIM was 0.02 g/g. A preliminary survey for the levels of PHs in marine sediment and soil samples from different parts of Singapore was carried out using the method.     

Development of a simple extraction cell with bi-directional continuous flow coupled on-line to ICP-MS for assessment of elemental associations in solid samples

A continuous-flow system comprising a novel, custom-built extraction module and hyphenated with inductively coupled plasma-mass spectrometric (ICP-MS) detection is proposed for assessing metal mobilities and geochemical associations in soil compartments as based on using the three step BCR (now the Measurements and Testing Programme of the European Commission) sequential extraction scheme. Employing a peristaltic pump as liquid driver, alternate directional flows of the extractants are used to overcome compression of the solid particles within the extraction unit to ensure a steady partitioning flow rate and thus to maintain constant operationally defined extraction conditions. The proposed flow set-up is proven to allow for trouble-free handling of soil samples up to 1 g and flow rates < or =10 mL min(-1). The miniaturized extraction system was coupled to ICP-MS through a flow injection interface in order to discretely introduce appropriate extract volumes to the detector at a given time and with a given dilution factor. The proposed hyphenated method demonstrates excellent performance for on-line monitoring of major and trace elements (Ca, Mn, Fe, Ni, Pb, Zn and Cd) released when applying the various extracting reagents as addressed in the BCR scheme, that is, 0.11 M CH(3)COOH, 0.1 NH(2)OH.HCl and 30% H(2)O(2), even when a well recognized matrix-sensitive detector, such as ICP-MS, is used. As a result of the enhanced temporal resolution of the ongoing extraction, insights into the breaking down of phases and into the kinetics of the metal release are obtained. With the simultaneous multielement detection capability of ICP-MS, the dynamic fractionation system presents itself as an efficient front-end for evaluation of actual elemental association by interelement comparison of metals leached concurrently during the extraction time. Thus, the intimate elemental association between Cd and Zn in contaminated soils could be assessed.     

Influence of solvent and soil type on the pressurised fluid extraction of PAHs

Pressurised fluid extraction (PFE) of polycyclic aromatic hydrocarbons (PAHs) from a certified reference material (CRM) 524 has been firstly optimised following a central composite design. The instrumental parameters of the PFE (pressure, temperature, extraction time and number of solvent cycles) were studied in order to obtain maximum extraction yields. Neither pressure nor extraction time or temperature seemed to have any significant effect on the extraction yield, therefore one extraction cycle was enough to exhaustively extract all the PAHs from CRM 524. Once the instrumental conditions were established, the extraction yields obtained with eight different solvents or solvent mixtures [acetone, dichloromethane, acetonitrile, acetone-dichloromethane (1 + 1 v/v), acetone-isohexane (1 + 1 v/v), isohexane, methanol and toluene] from the CRM 524 were compared and showed that the best recoveries were obtained with acetone-isohexane (1 + 1 v/v). Finally, the effect of sand, silt, clay and the organic matter content of soil was investigated with respect to recovery of PAHs by PFE with different solvents or solvent mixtures for aged soil samples. In this case, eight soils with different sand, silt, clay and organic matter contents were slurry spiked with PAHs and aged for 19 days. Three aliquots of each slurry spiked soil were extracted with the previously mentioned solvents and the results were studied by means of principal component analysis (PCA) of the whole data set (soil composition, solubility parameter of the solvent and recoveries of all PAHs) and partial least squares (PLS). Clay and organic matter content and the squared solubility parameter have the highest correlation with the recovery of PAHs from soil samples.     

大气颗粒物中多环芳烃的索氏提取研究

通过对大气颗粒物中多环芳烃的索氏提取过程中的不同阶段的提取液中多环芳烃的分析 ,绘制了索氏提取曲线 ,发现提取效率主要取决于提取循环次数 ,而与提取浸泡时间关系不大。通过比较 1 1种提取液对加标参考物和实验参考物的索氏提取效率 ,发现常用的环己烷、苯等提取液提取效率很低。提取能力的序列为喹啉 乙醇 >吡啶 乙醇 >丙酮>乙醇 >二氯甲烷 >苯 >环己烷 >石油醚 >丙酮 乙醇 环己烷 >氯仿 >四氢呋喃。     

液相微萃取技术及其在环境水样预处理中的应用

介绍了液相微萃取技术的基本原理、萃取过程与中空纤维的形式。分析了中空纤维、有机萃取剂、吸收液体积、样品搅动、无机盐类、pH值和萃取时间等因素对萃取效果的影响。综述了液相微萃取技术在环境水样预处理中的应用。