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中国西南地区贵阳市土壤和蔬菜中的天然和人为铅:一种 Pb 同位素方法。

Natural and anthropogenic lead in soils and vegetables around Guiyang city, southwest China: a Pb isotopic approach.

机构信息

College of Biological and Environmental Engineering, Zhejiang University of Technology, Hangzhou 310032, PR China.

出版信息

Sci Total Environ. 2012 Aug 1;431:339-47. doi: 10.1016/j.scitotenv.2012.05.040. Epub 2012 Jun 15.

DOI:10.1016/j.scitotenv.2012.05.040
PMID:22705869
Abstract

Soils, vegetables and rainwaters from three vegetable production bases in the Guiyang area, southwest China, were analyzed for Pb concentrations and isotope compositions to trace its sources in the vegetables and soils. Lead isotopic compositions were not distinguishable between yellow soils and calcareous soils, but distinguishable among sampling sites. The highest (207)Pb/(206)Pb and (208)Pb/(206)Pb ratios were found for rainwaters (0.8547-0.8593 and 2.098-2.109, respectively), and the lowest for soils (0.7173-0.8246 and 1.766-2.048, respectively). The (207)Pb/(206)Pb and (208)Pb/(206)Pb ratios increased in vegetables in the order of roots<stems<leaves<fruits. Plots of the (207)Pb/(206)Pb ratios versus the (208)Pb/(206)Pb ratios from all samples formed a straight line and supported a binary end-member mixing model for Pb in vegetables. Using deep soils and rainwaters as geogenic and anthropogenic end members in the mixing model, it was estimated that atmospheric Pb contributed 30-77% to total Pb for vegetable roots, 43-71% for stems, 72-85% for leaves, and 90% for capsicum fruits, whereas 10-70% of Pb in all vegetable parts was derived from soils. This research supports that heavy metal contamination in vegetables can result mainly from atmospheric deposition, and Pb isotope technique is useful for tracing the sources of Pb contamination in vegetables.

摘要

本研究对中国西南贵阳市 3 个蔬菜生产基地的土壤、蔬菜和雨水进行了 Pb 浓度和同位素组成分析,以追踪蔬菜和土壤中 Pb 的来源。黄壤和石灰土的 Pb 同位素组成没有明显差异,但不同采样点之间存在差异。雨水的 Pb 同位素比值最高(207Pb/206Pb 为 0.8547-0.8593,208Pb/206Pb 为 2.098-2.109),土壤的 Pb 同位素比值最低(207Pb/206Pb 为 0.7173-0.8246,208Pb/206Pb 为 1.766-2.048)。蔬菜中 Pb 的(207)Pb/(206)Pb 和(208)Pb/(206)Pb 比值依次为根<茎<叶<果。所有样品的(207)Pb/(206)Pb 比值与(208)Pb/(206)Pb 比值的关系图呈直线关系,支持蔬菜中 Pb 的二元混合模型。利用深层土壤和雨水作为混合模型中的地球成因和人为成因端元,估算大气 Pb 对蔬菜根中总 Pb 的贡献率为 30-77%,对茎中总 Pb 的贡献率为 43-71%,对叶中总 Pb 的贡献率为 72-85%,对辣椒果实中总 Pb 的贡献率为 90%,而所有蔬菜部分中 Pb 的 10-70%来源于土壤。本研究表明,蔬菜重金属污染主要来自大气沉降,Pb 同位素技术可用于追踪蔬菜中 Pb 污染的来源。

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