A new method based on low background instrumental neutron activation analysis for major, trace and ultra-trace element determination in atmospheric mineral dust from polar ice cores

Dust found in polar ice core samples present extremely low concentrations, in addition the availability of such samples is usually strictly limited. For these reasons the chemical and physical analysis of polar ice cores is an analytical challenge. In this work a new method based on low background i...

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Bibliographic Details
Published in:Analytica chimica acta 2016-05, Vol.922, p.11-18
Main Authors: Baccolo, Giovanni, Clemenza, Massimiliano, Delmonte, Barbara, Maffezzoli, Niccolò, Nastasi, Massimiliano, Previtali, Ezio, Prata, Michele, Salvini, Andrea, Maggi, Valter
Format: Article
Language:English
Subjects:
Aluminum
Antarctica
Atmospheric mineral dust
Atmospherics
Dust
Ice core
Lanthanides
Low background neutron activation analysis
Mathematical analysis
Neutron activation analysis
Titanium
Ultra-trace analysis
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Summary:Dust found in polar ice core samples present extremely low concentrations, in addition the availability of such samples is usually strictly limited. For these reasons the chemical and physical analysis of polar ice cores is an analytical challenge. In this work a new method based on low background instrumental neutron activation analysis (LB-INAA) for the multi-elemental characterization of the insoluble fraction of dust from polar ice cores is presented. Thanks to an accurate selection of the most proper materials and procedures it was possible to reach unprecedented analytical performances, suitable for ice core analyses. The method was applied to Antarctic ice core samples. Five samples of atmospheric dust (μg size) from ice sections of the Antarctic Talos Dome ice core were prepared and analyzed. A set of 37 elements was quantified, spanning from all the major elements (Na, Mg, Al, Si, K, Ca, Ti, Mn and Fe) to trace ones, including 10 (La, Ce, Nd, Sm, Eu, Tb, Ho, Tm, Yb and Lu) of the 14 natural occurring lanthanides. The detection limits are in the range of 10−13–10−6 g, improving previous results of 1–3 orders of magnitude depending on the element; uncertainties lies between 4% and 60%. [Display omitted] •A new method based on neutron activation for the multi-elemental characterization of atmospheric dust entrapped in polar ice cores is proposed.•37 elements were quantified in μg size dust samples with detection limits ranging from 10−13 to 10−6 g.•A low background approach and a clean analytical protocol improved INAA performances to unprecedented levels for multi-elemental analyses.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2016.04.008