Zohair Azza, Salim Abou-Bakr, Soyibo Adeola A, Beck Angus J
Faculty of Specific Education, Home Economics Science Department, Menufiya Universty, Ashmoun, 32811 Menufiya, Egypt.
Chemosphere. 2006 Apr;63(4):541-53. doi: 10.1016/j.chemosphere.2005.09.012. Epub 2005 Nov 16.
The residues of polyaromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs) and organochlorine pesticides (OCPs) in soils from organic farms and their uptake by four varieties of organic-produced potatoes and three varieties of organic carrots from England were investigated. Samples of the soils, crop peels and cores were all Soxhlet-extracted in triplicate, cleaned up by open-column chromatography and analysed by a multi-residue analytical method using gas chromatography with mass selective detection. The concentrations of PAHs, PCBs and OCPs in soils from organic farms ranged from 590+/-43 to 2301+/-146 microg/kg, 3.56+/-0.73 to 9.61+/-1.98 microg/kg and 52.2+/-4.9 to 478+/-111 microg/kg, respectively. Uptake by different crop varieties were 8.42+/-0.93 to 40.1+/-4.9 microg/kg sigmaPAHs, 0.83+/-0.19 to 2.68+/-0.94 microg/kg sigmaPCBs and 8.09+/-0.83 to 133+/-27 microg/kg sigmaOCPs. Residue uptake from soils depended on plant variety; Desiree potato and Nairobi carrot varieties were more susceptible to PAH contamination. Likewise, uptake of PCBs and OCPs depended on potato variety. There were significant positive correlations between the PCB and OCP concentrations (P<0.05) in soils and carrots but no significant correlation was found between the concentrations of any contaminants in soils and potatoes. Peeling carrots and potatoes was found to remove 52-100% of the contaminant residues depending on crop variety and the properties of the contaminants. Soil-crop bioconcentration factors (BCFs) decreased with increasing logK(ow) for PAHs up to about 4.5 and for PCBs up to about 6.5, above which no changes were discernible for either class of contaminants. No relationship was observed between soil-crop BCFs and logK(ow) for OCPs, most likely because their concentrations were low and variable.
对英国有机农场土壤中多环芳烃(PAHs)、多氯联苯(PCBs)和有机氯农药(OCPs)的残留情况,以及四种有机种植土豆品种和三种有机胡萝卜品种对这些污染物的吸收情况进行了调查。土壤、作物外皮和芯部样本均采用索氏提取法进行三次重复提取,通过柱层析法进行净化,并采用气相色谱 - 质谱选择性检测的多残留分析方法进行分析。有机农场土壤中PAHs、PCBs和OCPs的浓度分别为590±43至2301±146微克/千克、3.56±0.73至9.61±1.98微克/千克和52.2±4.9至478±111微克/千克。不同作物品种的吸收量分别为8.42±0.93至40.1±4.9微克/千克∑PAHs、0.83±0.19至2.68±0.94微克/千克∑PCBs和8.09±0.83至133±27微克/千克∑OCPs。土壤中污染物的残留吸收量取决于植物品种;德西蕾土豆和内罗毕胡萝卜品种更容易受到PAH污染。同样,PCBs和OCPs的吸收也取决于土豆品种。土壤和胡萝卜中PCBs与OCPs浓度之间存在显著正相关(P<0.05),但土壤和土豆中任何污染物浓度之间均未发现显著相关性。发现根据作物品种和污染物特性,去皮胡萝卜和土豆可去除52 - 100%的污染物残留。土壤 - 作物生物富集系数(BCFs)随着PAHs的logK(ow)增加至约4.5以及PCBs的logK(ow)增加至约6.5而降低,高于此值,两类污染物均无明显变化。未观察到土壤 - 作物BCFs与OCPs的logK(ow)之间存在关系,最可能的原因是其浓度较低且变化不定。
