Elemental Analysis of Desert Varnish Samples in the Vicinity of Coal- Fired Power Plants and the Nevada Test Site Using Laser Ablation ICPMS

The Open Chemical and Biomedical Methods Journal Pub Date : 2010-11-03 DOI:10.2174/1875038901003010153

P. Nowinski, V. Hodge, Kazumasa Lindley, J. Cizdziel

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引用次数: 18

Abstract

Desert varnish is a thin manganese-iron rich dark coating that forms on rocks most often in arid climates. This coating may be up to a few hundred microns in thickness and is thought to grow by approximately one micron per thousand years. Recent research has shown that many elements are incorporated into this coating, and, in spite of its slow growth, it may serve as a passive environmental monitor for recent and historical air pollution. To test this hypothesis, small pieces of varnished rock were probed directly by laser ablation inductively coupled plasma mass spectrometry (LA- ICPMS). Results were obtained for 11 elements (13 isotopes: 9 Be, 107 Ag, 111 Cd, 118 Sn, 121 Sb, 138 Ba, 184 W, 205 Tl, 206 Pb, 207 Pb, 208 Pb, 232 Th, and 238 U) by magnetic sector ICPMS and for 23 elements (25 isotopes: same as before plus 51 V, 52 Cr, 59 Co, 60 Ni, 65 Cu, 66 Zn, 88 Sr, 98 Mo, 115 In, 133 Cs, 197 Au, and 209 Bi) by quadrupole ICPMS. Varnished rock samples were collected mainly in the fallout patterns of two coal-fired power plants and downwind from the Nevada Test Site (NTS). The LA-ICPMS data indicate that many of the elements commonly found in fly ash from coal-fired power plants (e.g., Cr, Co, Ni, Cu, Zn, Cd, Sn, Sb, Tl and Pb) were highly enriched in the rock coatings in relation to the upper continental crust (UCC). For one of the power plants, where tracer plume studies had been carried out, the highest concentrations in the rock varnish coincide with the peak tracer concentration locations. Thus, these elements in rock varnish hold promise for identifying those geographical regions impacted by nearby power plants. Overall, the results indicate that rock varnish can be used as a passive environmental monitor of relatively recent events, and that the trace element fingerprints held in rock varnish may also hold much potential in forensic air pollution studies.

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利用激光烧蚀ICPMS对燃煤电厂及内华达试验场附近沙漠清漆样品进行元素分析

沙漠清漆是一种富含锰铁的黑色薄涂层，通常在干旱气候下形成在岩石上。这种涂层的厚度可达几百微米，并且被认为每千年增长大约一微米。最近的研究表明，许多元素被纳入到这种涂层中，尽管其生长缓慢，但它可以作为最近和历史空气污染的被动环境监测仪。为了验证这一假设，用激光烧蚀电感耦合等离子体质谱(LA- ICPMS)直接探测了一小块涂漆的岩石。通过磁扇形ICPMS获得了11种元素(13种同位素:9 Be, 107 Ag, 111 Cd, 118 Sn, 121 Sb, 138 Ba, 184 W, 205 Tl, 206 Pb, 207 Pb, 208 Pb, 232 Th和238 U)和23种元素(25种同位素:与以前相同，加51 V, 52 Cr, 59 Co, 60 Ni, 65 Cu, 66 Zn, 88 Sr, 98 Mo, 115 In, 133 Cs, 197 Au和209 Bi)的结果。涂漆的岩石样品主要收集于两个燃煤电厂的沉降模式和内华达试验场(NTS)的顺风处。LA-ICPMS数据表明，燃煤电厂飞灰中常见的Cr、Co、Ni、Cu、Zn、Cd、Sn、Sb、Tl和Pb等元素在岩石包覆层中富集，与上陆壳(UCC)有关。对其中一个进行了示踪剂羽流研究的发电厂来说，岩石清漆中的最高浓度与示踪剂浓度峰值的位置一致。因此，岩石清漆中的这些元素有望确定受附近发电厂影响的地理区域。总的来说，结果表明，岩石清漆可以作为相对近期事件的被动环境监测，岩石清漆中的微量元素指纹也可能在法医空气污染研究中具有很大的潜力。

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The Open Chemical and Biomedical Methods Journal

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