Eades L J, Farmer J G, MacKenzie A B, Kirika A, Bailey-Watts A E
Department of Chemistry, University of Edinburgh, Scotland, UK.
Sci Total Environ. 2002 Jun 20;292(1-2):55-67. doi: 10.1016/s0048-9697(02)00026-8.
Sediment cores from three Scottish freshwater lakes, Loch Ness in the remote north and Loch Lomond and the Lake of Menteith, much closer to the heavily populated and industrialised central belt were analysed for 210Pb, 137Cs, Pb and stable Pb isotopic composition (206Pb/207Pb). The radionuclide data were used to establish chronologies for the Loch Ness and Loch Lomond cores, but a chronology could not be developed for the Lake of Menteith core, in which the surface sediment had been subject to intense mixing. Although Pb concentrations generally started increasing during the mid-17th Century, a small peak occurred for Loch Ness in the early 16th Century, perhaps attributable to the influence of medieval mining and smelting in mainland Europe. Temporal trends in the pattern of Pb accumulation were similar for Loch Ness and both sites in Loch Lomond, with 40-50% of the anthropogenic Pb deposited prior to the 20th Century. Fluxes of anthropogenic Pb to the lake sediments peaked during the 1950s at all locations where chronologies could be established. The 5-fold increase in anthropogenic Pb inventory for the southern basin of Loch Lomond relative to Loch Ness reflected geographical proximity to the main polluting sources. The 206Pb/207Pb data for anthropogenic Pb in the sediments from Loch Ness and Loch Lomond exhibited largely similar trends related to five different time periods. Pre-1820, the 206Pb/207Pb ratio was close to that for coal (1.181). From 1820 to 1900, a fairly constant 206Pb/207Pb ratio of approximately 1.17 probably resulted from a combination of emissions from the smelting of indigenous Pb ore (1.170) and coal burning (1.181) in Scotland, and industrial activity to the south in England, where Australian Pb of characteristically low 206Pb/207Pb ratio (1.04) was already in use. From 1901 to 1930, the 206Pb/207Pb ratio declined by <0.01, due to the increasing influence of Australian Pb. From 1931 to 1975/1985, the 206Pb/207Pb ratio of anthropogenic Pb declined by a further 0.03 to 0.04, to minimum values from approximately 1975 to 1985, primarily a consequence of car-exhaust emissions of Pb arising from the introduction of alkyl Pb petrol additives (206Pb/207Pb approximately 1.06-1.09). From 1975/1985 to the mid-1990s, the 206Pb/207Pb ratio of anthropogenic Pb increased by up to 0.015, a consequence of a reduction in car-exhaust emissions of Pb, resulting from reductions in the maximum permitted concentration of Pb in petrol, and the introduction and increasing uptake of unleaded petrol. Source apportionment calculations, on the basis of 206Pb/207Pb values in surface sediment, suggested that the contribution of Pb emissions from the use of leaded petrol was 27-40% of the atmospheric burden by the mid-1990s, in line with estimates from rainwater 206Pb/207Pb data.
对来自苏格兰三个淡水湖的沉积物岩芯进行了分析,这三个湖分别是位于偏远北部的尼斯湖、洛蒙德湖以及离人口密集且工业化程度高的中部地带更近的门泰斯湖,分析项目包括210Pb、137Cs、Pb以及稳定的Pb同位素组成(206Pb/207Pb)。放射性核素数据被用于建立尼斯湖和洛蒙德湖岩芯的年代序列,但门泰斯湖岩芯无法建立年代序列,因为其表层沉积物受到了强烈的混合作用。尽管铅浓度通常在17世纪中叶开始上升,但尼斯湖在16世纪早期出现了一个小峰值,这可能归因于中世纪欧洲大陆采矿和冶炼的影响。尼斯湖和洛蒙德湖两个地点的铅积累模式的时间趋势相似,20世纪之前沉积的人为铅占40 - 50%。在所有能够建立年代序列的地点,人为铅向湖泊沉积物的通量在20世纪50年代达到峰值。洛蒙德湖南部流域相对于尼斯湖的人为铅存量增加了5倍,这反映了其与主要污染源的地理距离更近。尼斯湖和洛蒙德湖沉积物中人为铅的206Pb/207Pb数据在五个不同时间段呈现出大致相似的趋势。1820年之前,206Pb/207Pb比值接近煤炭的比值(1.181)。从1820年到1900年,206Pb/207Pb比值相当稳定,约为1.17,这可能是苏格兰本土铅矿石冶炼(1.170)和煤炭燃烧(1.181)排放以及英格兰南部工业活动排放综合作用的结果,当时澳大利亚低206Pb/207Pb比值(1.04)的铅已经在使用。从1901年到1930年,206Pb/207Pb比值下降了<0.01,这是由于澳大利亚铅的影响增加。从1931年到1975/1985年,人为铅的206Pb/207Pb比值又下降了0.03至0.04,在大约1975年到1985年达到最小值,这主要是由于引入烷基铅汽油添加剂(206Pb/207Pb约为1.
