Beryllium-7 and lead-210 in aerosol and snow in the dye 3 gas, aerosol and snow sampling program

Jack E Dibb , Jean-Luc Jaffrezo
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引用次数: 55

Abstract

Concentrations of cosmogenic 7Be and the radon daughter 210Pb were determined in surface-level aerosols and fresh and aging snow throughout DGASP. The distinct sources, yet common association with submicron aerosols, of these atmospheric radionuclides makes them valuable tracers of the transport, depositional and post-depositional processes leading to incorporation of submicron aerosols (and associated species) into the Greenland Ice Sheet.

The aerosol concentrations of atmospheric radionuclides tended to covary on the 1–7 day time scale of individual samples (r = 0.57, n = 114, p = 0.001) and were also highly correlated when averaged by month (r = 0.80, p = 0.002). The year-long time series of both 7Be and 210Pb showed concentration peaks in spring (April) and fall (September–October) and minima in summer (July) and winter (November–February). This finding is in stark contrast to results from other arctic sites, where both radionuclides, but particularly 210Pb, show pronounced concentration peaks in the winter. This indicates that the air masses over the Greenland Ice Sheet may be distinct from the air in the polar basin, or boundary layer processes strongly bias surface-level aerosol characteristics over the ice sheet, or, likely, some combination of these factors are operating.

The concentrations of 7Be and 210Pb in fresh snow at Dye 3 show wide variability between snow fall events. The lack of any obvious correlation between concentrations in aerosol and fresh snow support the contention that surface-level air at this site is often not reflecting air aloft. Aging snow studies did not reveal consistent trends in concentration, suggesting important heterogeneity in the initial concentrations of 7Be and 210Pb in surface snow over small spatial scales. Poor agreement between the 210Pb profile in a 2 m snowpit sampled at the end of the project and the observed deposition of 210Pb through the year indicate the potential importance of post-depositional processes in modifying the atmospheric “signals” preserved in the snowpack.

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铍-7和铅-210在气溶胶和雪中的染料3气体,气溶胶和雪的采样程序
测定了DGASP期间地表气溶胶、新鲜雪和老化雪中宇宙源性7Be和氡子体210Pb的浓度。这些大气放射性核素的来源不同,但与亚微米气溶胶有共同的联系,这使它们成为导致亚微米气溶胶(及相关物质)进入格陵兰冰盖的运输、沉积和沉积后过程的宝贵示踪剂。大气放射性核素的气溶胶浓度在单个样品的1-7天时间尺度上呈协变趋势(r = 0.57, n = 114, p = 0.001),按月平均时呈高度相关(r = 0.80, p = 0.002)。7Be和210Pb的浓度均在春季(4月)和秋季(9 - 10月)达到峰值,夏季(7月)和冬季(11 - 2月)最低。这一发现与其他北极地区的结果形成鲜明对比,在那里,两种放射性核素,尤其是210Pb,在冬季都显示出明显的浓度峰值。这表明格陵兰冰盖上的气团可能与极地盆地中的空气不同,或者边界层过程强烈地偏向于冰盖上的地表气溶胶特征,或者,很可能是这些因素的某种组合在起作用。染3新雪中7Be和210Pb的浓度在不同降雪事件间表现出较大的变化。气溶胶和新雪的浓度之间缺乏明显的相关性,这支持了这个地点的地表空气通常不反映高空空气的论点。老化雪的浓度变化趋势不一致,表明地表积雪中7Be和210Pb的初始浓度在小空间尺度上存在重要的异质性。项目结束时采样的2 m雪坑中210Pb剖面与全年观测到的210Pb沉积之间的不一致表明,沉积后过程对改变雪堆中保存的大气“信号”具有潜在的重要性。
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Introduction Calendar Errata Arctic aerosols in Greenland Size distributions of atmospheric trace elements at dye 3, Greenland—II. Sources and transport
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