比利牛斯山山毛榉林(Iraty Forest,West Pyrenees,France/Spain)中两种大气生物累积物中汞和铅同位素组成的比较

J. Barre, Silvia Queipo-Abad, Cristina Sola-Larrañaga, Gaëlle Deletraz, S. Bérail, E. Tessier, David Elustondo Valencia, J. Santamaría, A. de Diego, D. Amouroux
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引用次数: 6

摘要

研究了在法国-西班牙-比利牛斯山脉边界的一个大型山地山毛榉林(Iraty forest)中采集的苔藓和地衣中的汞(Hg)和铅(Pb)同位素组成。在选定的采样点还分析了表层土样品中的汞同位素特征。这是第一项在两个不同的大气生物累积器中使用两个同位素系统的互补信息的工作。苔藓和地衣由于其整合时间而呈现出特征性的积累,显示出该地区金属污染的不同信息。年苔藓芽中的汞和铅浓度代表了最近的大气积累,而整个地衣铊则是一个长期积累的过程。苔藓中的铅同位素比率与实际欧洲大气背景的报告数据一致(206Pb/207Pb~1.158),而汞同位素组成反映了干汞和湿汞沉积的潜在吸收。对于地衣,铅同位素组成表现出工业铅排放和含铅汽油污染遗留物的较长整合期的贡献。地衣中的汞同位素区分了两个主要组:一个较大的组代表背景大气的贡献,另一个对应于出乎意料的较高汞含量。表土和较大类群地衣之间汞同位素的奇数和偶数质量独立分馏的相似性,支持了树叶吸收是土壤中汞的主要输入的观点。第二组地衣表现出更负的δ202Hg(降至-4.69‰),这表明该地区有一个新的分馏源,可能与地衣老化和/或牧业活动引起的残茬和草火灾有关。这项研究表明,在地衣和苔藓中同时使用汞和铅同位素特征,可以追踪森林生态系统中这些金属的大气来源和环境途径。这组偏远环境中的原始数据还提供了有关大气中铅和汞沉积命运的新信息。
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Comparison of the Isotopic Composition of Hg and Pb in Two Atmospheric Bioaccumulators in a Pyrenean Beech Forest (Iraty Forest, Western Pyrenees, France/Spain)
Mercury (Hg) and lead (Pb) isotopic compositions were investigated in mosses and lichens collected in a large mountainous beech forest (Iraty Forest) located on the French-Spanish Pyrenean border. Hg isotopic signature in topsoil samples were also analyzed in selected sampling sites. This is the first work that uses the complementary information of both isotopic systems in two distinct atmospheric bioaccumulators. Mosses and lichens present characteristic accumulation due to their integration times, displaying different information on metal pollution over the area. Hg and Pb concentrations in annual moss shoots represent recent atmospheric accumulation, while whole lichen thalli integrates a process of accumulation over a longer period. Lead isotope ratios in mosses are consistent with reported data corresponding to the actual European atmospheric background (206Pb/207Pb ∼ 1.158), while Hg isotopic composition reflects potential uptake of both dry and wet Hg depositions. For lichens, Pb isotopic composition exhibits the contribution of a longer integration period of both industrial Pb emissions and legacy of leaded gasoline pollution. Hg isotopes in lichens discriminate two main groups: a larger one representing the background atmospheric contribution and a second one corresponding to unexpected higher Hg content. The similarities in odd and even Mass-independent fractionation of Hg isotopes between topsoils and lichens from the larger group, support the idea that foliage uptake is the main input of Hg in soils. The second group of lichens exhibits more negative δ202Hg (down to –4.69‰) suggesting a new source of fractionation in this area, probably related to lichens aging and/or stubble and grass fires due to pastoral activities. This study demonstrates that using both Hg and Pb isotopic signature in lichens and mosses allows to trace atmospheric sources and environmental pathways of these metals in forested ecosystems. This original data set in a remote environment provides also new information on the fate of atmospheric Pb and Hg depositions.
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