Comparison of extraction techniques for polycyclic aromatic hydrocarbons from lichen biomonitors

被引:0
作者
Leandri Van der Wat
Patricia B. C. Forbes
机构
[1] University of Pretoria,Department of Chemistry
来源
Environmental Science and Pollution Research | 2019年 / 26卷
关键词
Lichen; Biomonitor; QuEChERS; Polycyclic aromatic hydrocarbon; Sample preparation;
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学科分类号
摘要
Lichens are useful biomonitors for atmospheric polycyclic aromatic hydrocarbons (PAHs). Different sample preparation techniques were explored in this regard, including ultrasound-assisted solvent extraction, microwave-assisted extraction, Soxhlet, and the quick, easy, cheap, effective, rugged, and safe (QuEChERS) technique. It was found that a QuEChERS technique using hexane:acetone (1:1, v/v), never reported before for application to lichens, provided the best recoveries of internal standards, the highest total peak area for all PAHs of interest, and %RSDs comparable with the other preparation techniques tested. The optimized sample preparation technique was found to be a comparatively fast method (45 min), with good recoveries (96%), using less solvents and minimal energy consumption. Strong matrix effects were found: both strong enhancement (for the lighter PAHs) and strong suppression (for the heavier PAHs). The use of matrix-matched standards is thus imperative for the accurate determination of PAH concentrations in the lichen samples.
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页码:11179 / 11190
页数:11
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[1]  
Anastassiades M(2003)Fast and easy multiresidue method employing acetonitrile extraction/partitioning and “dispersive solid phase extraction” for the determination of pesticide residues in produce J AOAC Int 86 412-431
[2]  
Lehotay SJ(2004)Atmospheric dioxin and furan deposition in relation to land-use and other pollutants: a survey with lichens J Atmos Chem 49 53-65
[3]  
Stajnbaher D(2010)Lichens as an integrating tool for monitoring PAH atmospheric deposition: a comparison with soil, air and pine needles Environ Pollut 158 483-489
[4]  
Schenck FJ(2012)Assessing human exposure to PAHs in a petrochemical region based on data from environmental biomonitors J Toxicol Environ Health 75 1-10
[5]  
Augusto S(2013)A step towards the use of biomonitors as estimators of atmospheric PAHs for regulatory purposes Chemosphere 92 626-632
[6]  
Pinho P(2013)Performance of a naturally growing Parmelioid lichen Remototrachyna awasthii against organic and inorganic pollutants Environ Sci Pollut Res 20 5577-5592
[7]  
Branquinho C(2005)Simultaneous microwave-assisted extraction of polycyclic aromatic hydrocarbons, polychlorinated biphenyls, phthalate esters and nonylphenols in sediments J Chromatogr A 1068 229-236
[8]  
Pereira MJ(1981)Effects of sulfur dioxide fumigation on photosynthesis, respiration, and chlorophyll content of selected lichens Bryologist 84 379-389
[9]  
Soares A(1980)Fatty acid composition and chlorophyll content of epiphytic lichens and a possible relation to their sensitivity to air pollution Oikos 35 321-326
[10]  
Catarino F(2007)Solid-phase extraction clean-up procedure for the analysis of PAHs in lichens Int J Environ An Chem 87 833-846
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