Sub-1 mL sample requirement for simultaneous determination of 17 organic and inorganic anions and cations in Antarctic ice core samples by dual capillary ion chromatography

The significant advance of delivering high value multi-species data from sub-1 mL ice core sample volumes allows higher temporal resolution in deposition records of inorganic and low molecular weight organic anions and cations. The determination of these species is a fundamental strategic requiremen...

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Published in:Analytica chimica acta 2019-07, Vol.1063, p.167-177
Main Authors: Sanz Rodriguez, Estrella, Plummer, Christopher, Nation, Meredith, Moy, Andrew, Curran, Mark, Haddad, Paul R., Paull, Brett
Format: Article
Language:English
Subjects:
Analytical chemistry
Anions
Basins
Capillary ion chromatography
Cations
Chromatography
Comparative analysis
Core analysis
Fluoride
Ice
Ice cores
Ions
Low molecular weights
Methanesulfonate
Molecular weight
Paleoclimate
Parameters
Polar environments
Separation
Temporal resolution
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cited_by cdi_FETCH-LOGICAL-c447t-201cf320f1dcd3e02db4071c2f76fd0bc4097e5b582e62929068748eb837ee573
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container_title Analytica chimica acta
container_volume 1063
creator Sanz Rodriguez, Estrella
Plummer, Christopher
Nation, Meredith
Moy, Andrew
Curran, Mark
Haddad, Paul R.
Paull, Brett
description The significant advance of delivering high value multi-species data from sub-1 mL ice core sample volumes allows higher temporal resolution in deposition records of inorganic and low molecular weight organic anions and cations. The determination of these species is a fundamental strategic requirement in modern paleoclimate studies. Herein, for the first time, a dual capillary ion chromatography (Cap-IC) based method for the simultaneous separation of 17 organic and inorganic anions and cations in low volume Antarctic ice core samples is presented. The total amount of sample required for direct injection has been reduced to 190 μL, which is 35 times lower than the amount of sample required by standard ion chromatography methods. A dual Cap-IC system configured for the simultaneous determination of cations and anions was used throughout. A range of chromatographic parameters was optimised for both anion and cation systems to obtain baseline separations of all target analytes in a suitable run time and to minimise the amount of sample required. Baseline separation of matrix and trace ‘marker’ ions were achieved in less than 35 min, after injecting only 40 μL of sample in each IC system. Limits of detection (LODs) for all analytes determined were within a range similar to that achieved by previously published standard bore IC-based methods. Intra- and inter-day repeatability were evaluated, with both parameters being typically below 3% for peak area. In further validation of the method, a comparative analysis of a set of 420 ice core samples from Aurora Basin North site, Antarctica, previously analysed by standard IC, established that the proposed low sample volume technique was applicable as a routine measurement approach in ice core analysis projects. [Display omitted] •Ice core analysis for the determination of 17 inorganic and organic anions and cations.•New method based on dual capillary ion chromatography (Cap-IC).•Volume of ice required for the Cap-IC analysis reduced to only 190 μL.•Step forward in ice core analysis reducing 35 times the amount of sample required.•Validated method ready to be applied in high resolution-ice core analysis.
doi_str_mv 10.1016/j.aca.2019.02.014
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source ScienceDirect Freedom Collection 2022-2024
subjects Analytical chemistry
Anions
Basins
Capillary ion chromatography
Cations
Chromatography
Comparative analysis
Core analysis
Fluoride
Ice
Ice cores
Ions
Low molecular weights
Methanesulfonate
Molecular weight
Paleoclimate
Parameters
Polar environments
Separation
Temporal resolution
title Sub-1 mL sample requirement for simultaneous determination of 17 organic and inorganic anions and cations in Antarctic ice core samples by dual capillary ion chromatography
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