Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores

Water isotopes in ice cores are used as a climate proxy for local temperature and regional atmospheric circulation as well as evaporative conditions in moisture source regions. Traditional measurements of water isotopes have been achieved using magnetic sector isotope ratio mass spectrometry (IRMS)....

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Published in:Atmospheric Measurement Techniques
Main Authors: Jones, Tyler R., White, James W. C., Steig, Eric J., Vaughn, Bruce H., Morris, Valerie, Gkinis, Vasileios, Markle, Bradley R., Schoenemann, Spruce W.
Format: Text
Language:English
Published: 2018
Subjects:
Antarctic
Greenland
South Pole
West Antarctic Ice Sheet
Antarc*
Greenland ice core
ice core
Ice Sheet
South pole
Online Access:https://doi.org/10.5194/amt-10-617-2017
https://amt.copernicus.org/articles/10/617/2017/
id ftcopernicus:oai:publications.copernicus.org:amt50753
record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:amt50753 2023-05-15T13:54:27+02:00 Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores Jones, Tyler R. White, James W. C. Steig, Eric J. Vaughn, Bruce H. Morris, Valerie Gkinis, Vasileios Markle, Bradley R. Schoenemann, Spruce W. 2018-01-15 application/pdf https://doi.org/10.5194/amt-10-617-2017 https://amt.copernicus.org/articles/10/617/2017/ eng eng doi:10.5194/amt-10-617-2017 https://amt.copernicus.org/articles/10/617/2017/ eISSN: 1867-8548 Text 2018 ftcopernicus https://doi.org/10.5194/amt-10-617-2017 2020-07-20T16:23:50Z Water isotopes in ice cores are used as a climate proxy for local temperature and regional atmospheric circulation as well as evaporative conditions in moisture source regions. Traditional measurements of water isotopes have been achieved using magnetic sector isotope ratio mass spectrometry (IRMS). However, a number of recent studies have shown that laser absorption spectrometry (LAS) performs as well or better than IRMS. The new LAS technology has been combined with continuous-flow analysis (CFA) to improve data density and sample throughput in numerous prior ice coring projects. Here, we present a comparable semi-automated LAS-CFA system for measuring high-resolution water isotopes of ice cores. We outline new methods for partitioning both system precision and mixing length into liquid and vapor components – useful measures for defining and improving the overall performance of the system. Critically, these methods take into account the uncertainty of depth registration that is not present in IRMS nor fully accounted for in other CFA studies. These analyses are achieved using samples from a South Pole firn core, a Greenland ice core, and the West Antarctic Ice Sheet (WAIS) Divide ice core. The measurement system utilizes a 16-position carousel contained in a freezer to consecutively deliver ∼ 1 m × 1.3 cm 2 ice sticks to a temperature-controlled melt head, where the ice is converted to a continuous liquid stream and eventually vaporized using a concentric nebulizer for isotopic analysis. An integrated delivery system for water isotope standards is used for calibration to the Vienna Standard Mean Ocean Water (VSMOW) scale, and depth registration is achieved using a precise overhead laser distance device with an uncertainty of ±0.2 mm. As an added check on the system, we perform inter-lab LAS comparisons using WAIS Divide ice samples, a corroboratory step not taken in prior CFA studies. The overall results are important for substantiating data obtained from LAS-CFA systems, including optimizing liquid and vapor mixing lengths, determining melt rates for ice cores with different accumulation and thinning histories, and removing system-wide mixing effects that are convolved with the natural diffusional signal that results primarily from water molecule diffusion in the firn column. Text Antarc* Antarctic Greenland Greenland ice core ice core Ice Sheet South pole South pole Copernicus Publications: E-Journals Antarctic Greenland South Pole West Antarctic Ice Sheet Atmospheric Measurement Techniques 10 2 617 632
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Water isotopes in ice cores are used as a climate proxy for local temperature and regional atmospheric circulation as well as evaporative conditions in moisture source regions. Traditional measurements of water isotopes have been achieved using magnetic sector isotope ratio mass spectrometry (IRMS). However, a number of recent studies have shown that laser absorption spectrometry (LAS) performs as well or better than IRMS. The new LAS technology has been combined with continuous-flow analysis (CFA) to improve data density and sample throughput in numerous prior ice coring projects. Here, we present a comparable semi-automated LAS-CFA system for measuring high-resolution water isotopes of ice cores. We outline new methods for partitioning both system precision and mixing length into liquid and vapor components – useful measures for defining and improving the overall performance of the system. Critically, these methods take into account the uncertainty of depth registration that is not present in IRMS nor fully accounted for in other CFA studies. These analyses are achieved using samples from a South Pole firn core, a Greenland ice core, and the West Antarctic Ice Sheet (WAIS) Divide ice core. The measurement system utilizes a 16-position carousel contained in a freezer to consecutively deliver ∼ 1 m × 1.3 cm 2 ice sticks to a temperature-controlled melt head, where the ice is converted to a continuous liquid stream and eventually vaporized using a concentric nebulizer for isotopic analysis. An integrated delivery system for water isotope standards is used for calibration to the Vienna Standard Mean Ocean Water (VSMOW) scale, and depth registration is achieved using a precise overhead laser distance device with an uncertainty of ±0.2 mm. As an added check on the system, we perform inter-lab LAS comparisons using WAIS Divide ice samples, a corroboratory step not taken in prior CFA studies. The overall results are important for substantiating data obtained from LAS-CFA systems, including optimizing liquid and vapor mixing lengths, determining melt rates for ice cores with different accumulation and thinning histories, and removing system-wide mixing effects that are convolved with the natural diffusional signal that results primarily from water molecule diffusion in the firn column.
format Text
author Jones, Tyler R.
White, James W. C.
Steig, Eric J.
Vaughn, Bruce H.
Morris, Valerie
Gkinis, Vasileios
Markle, Bradley R.
Schoenemann, Spruce W.
spellingShingle Jones, Tyler R.
White, James W. C.
Steig, Eric J.
Vaughn, Bruce H.
Morris, Valerie
Gkinis, Vasileios
Markle, Bradley R.
Schoenemann, Spruce W.
Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
author_facet Jones, Tyler R.
White, James W. C.
Steig, Eric J.
Vaughn, Bruce H.
Morris, Valerie
Gkinis, Vasileios
Markle, Bradley R.
Schoenemann, Spruce W.
author_sort Jones, Tyler R.
title Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
title_short Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
title_full Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
title_fullStr Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
title_full_unstemmed Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
title_sort improved methodologies for continuous-flow analysis of stable water isotopes in ice cores
publishDate 2018
url https://doi.org/10.5194/amt-10-617-2017
https://amt.copernicus.org/articles/10/617/2017/
geographic Antarctic
Greenland
South Pole
West Antarctic Ice Sheet
geographic_facet Antarctic
Greenland
South Pole
West Antarctic Ice Sheet
genre Antarc*
Antarctic
Greenland
Greenland ice core
ice core
Ice Sheet
South pole
South pole
genre_facet Antarc*
Antarctic
Greenland
Greenland ice core
ice core
Ice Sheet
South pole
South pole
op_source eISSN: 1867-8548
op_relation doi:10.5194/amt-10-617-2017
https://amt.copernicus.org/articles/10/617/2017/
op_doi https://doi.org/10.5194/amt-10-617-2017
container_title Atmospheric Measurement Techniques
container_volume 10
container_issue 2
container_start_page 617
op_container_end_page 632
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