Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts

Abstract: Applying strict clean room procedures and sector field inductively coupled plasma mass spectrometry (ICP-MS) methods, concentrations of Sb and Sc were determined in 57 sections of a 170.6-m-long ice core drilled on Devon Island, Arctic Canada, in 1999, providing a record of atmospheric Sb...

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Main Authors: Shotyk, W., Zheng, J., Krachler, M., Fisher, D.
Format: Other/Unknown Material
Language:English
Published: 2008
Subjects:
Peat bog
Metals
Devon Island
Antimony
Jura Mountains
Neutron-activation analysis
Particulate matter
C-14 YR BP
Trace-elements
Ice evidence
Arctic
Canada
Jura
Climate change
ice core
Online Access:https://era.library.ualberta.ca/items/0574247b-158b-4e86-be48-1977e7704e36
https://doi.org/10.7939/R38P5VC2C
id ftunivalberta:oai:era.library.ualberta.ca:0574247b-158b-4e86-be48-1977e7704e36
record_format openpolar
spelling ftunivalberta:oai:era.library.ualberta.ca:0574247b-158b-4e86-be48-1977e7704e36 2023-05-15T14:48:41+02:00 Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts Shotyk, W. Zheng, J. Krachler, M. Fisher, D. 2008 https://era.library.ualberta.ca/items/0574247b-158b-4e86-be48-1977e7704e36 https://doi.org/10.7939/R38P5VC2C English eng https://era.library.ualberta.ca/items/0574247b-158b-4e86-be48-1977e7704e36 doi:10.7939/R38P5VC2C © 2008 American Geophysical Union. This version of this article is open access and can be downloaded and shared. The original author(s) and source must be cited. Peat bog Metals Devon Island Antimony Jura Mountains Neutron-activation analysis Particulate matter C-14 YR BP Trace-elements Ice evidence Article (Published) 2008 ftunivalberta https://doi.org/10.7939/R38P5VC2C 2022-08-22T20:09:01Z Abstract: Applying strict clean room procedures and sector field inductively coupled plasma mass spectrometry (ICP-MS) methods, concentrations of Sb and Sc were determined in 57 sections of a 170.6-m-long ice core drilled on Devon Island, Arctic Canada, in 1999, providing a record of atmospheric Sb extending back 15,800 years. Natural background concentrations of Sb and Sc established during the period between 1300 years BP and 10,590 years BP averaged 0.08 +/- 0.03 pg/g (N = 18) and 0.44 +/- 0.20 pg/g (N = 17), respectively. Scandium, a conservative reference element, was used as a surrogate for mineral dust inputs. The Sb/Sc ratio of 0.13 +/- 0.07 in these ancient ice samples is comparable to the corresponding ratio of 0.09 +/- 0.03 in peat samples from Switzerland from circa 6000 to 9000 years BP, indicating that this natural background ratio might have a much broader validity. The natural background flux of Sb (0.7 +/- 0.5 ng/m(2)/a) in the Arctic was approximately 500 times lower than that established in central Europe using peat cores. For comparison with background values, modern Sb fluxes calculated using 45 samples from a 5-m snow pit dug on Devon Island in 2004, reflecting 10 years of snow accumulation, yielded an average deposition rate of 340 +/- 270 ng/m(2)/a (range: 20-1240 ng/m(2)/a) with pronounced accumulation of Sb during winter periods when air masses reaching the Arctic predominantly come from Eurasia. These data reveal that approximately 99.8% of the Sb deposited in the Arctic today originates from anthropogenic activities. Modern Sb enrichment factors averaged 25 (range: 8-121). The ice core provides evidence of Sb contamination dating from Phoenician/Greek, Roman, and medieval lead mining and smelting in Europe. Moreover, the ice core data indicate that anthropogenic sources of Sb have continuously dominated the atmospheric inputs to the Arctic for at least 700 years. Other/Unknown Material Arctic Climate change Devon Island ice core University of Alberta: Era - Education and Research Archive Arctic Canada Devon Island ENVELOPE(-88.000,-88.000,75.252,75.252) Jura ENVELOPE(13.501,13.501,68.062,68.062)
institution Open Polar
collection University of Alberta: Era - Education and Research Archive
op_collection_id ftunivalberta
language English
topic Peat bog
Metals
Devon Island
Antimony
Jura Mountains
Neutron-activation analysis
Particulate matter
C-14 YR BP
Trace-elements
Ice evidence
spellingShingle Peat bog
Metals
Devon Island
Antimony
Jura Mountains
Neutron-activation analysis
Particulate matter
C-14 YR BP
Trace-elements
Ice evidence
Shotyk, W.
Zheng, J.
Krachler, M.
Fisher, D.
Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts
topic_facet Peat bog
Metals
Devon Island
Antimony
Jura Mountains
Neutron-activation analysis
Particulate matter
C-14 YR BP
Trace-elements
Ice evidence
description Abstract: Applying strict clean room procedures and sector field inductively coupled plasma mass spectrometry (ICP-MS) methods, concentrations of Sb and Sc were determined in 57 sections of a 170.6-m-long ice core drilled on Devon Island, Arctic Canada, in 1999, providing a record of atmospheric Sb extending back 15,800 years. Natural background concentrations of Sb and Sc established during the period between 1300 years BP and 10,590 years BP averaged 0.08 +/- 0.03 pg/g (N = 18) and 0.44 +/- 0.20 pg/g (N = 17), respectively. Scandium, a conservative reference element, was used as a surrogate for mineral dust inputs. The Sb/Sc ratio of 0.13 +/- 0.07 in these ancient ice samples is comparable to the corresponding ratio of 0.09 +/- 0.03 in peat samples from Switzerland from circa 6000 to 9000 years BP, indicating that this natural background ratio might have a much broader validity. The natural background flux of Sb (0.7 +/- 0.5 ng/m(2)/a) in the Arctic was approximately 500 times lower than that established in central Europe using peat cores. For comparison with background values, modern Sb fluxes calculated using 45 samples from a 5-m snow pit dug on Devon Island in 2004, reflecting 10 years of snow accumulation, yielded an average deposition rate of 340 +/- 270 ng/m(2)/a (range: 20-1240 ng/m(2)/a) with pronounced accumulation of Sb during winter periods when air masses reaching the Arctic predominantly come from Eurasia. These data reveal that approximately 99.8% of the Sb deposited in the Arctic today originates from anthropogenic activities. Modern Sb enrichment factors averaged 25 (range: 8-121). The ice core provides evidence of Sb contamination dating from Phoenician/Greek, Roman, and medieval lead mining and smelting in Europe. Moreover, the ice core data indicate that anthropogenic sources of Sb have continuously dominated the atmospheric inputs to the Arctic for at least 700 years.
format Other/Unknown Material
author Shotyk, W.
Zheng, J.
Krachler, M.
Fisher, D.
author_facet Shotyk, W.
Zheng, J.
Krachler, M.
Fisher, D.
author_sort Shotyk, W.
title Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts
title_short Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts
title_full Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts
title_fullStr Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts
title_full_unstemmed Atmospheric Sb in the Arctic during the past 16,000 years: Responses to Climate change and human impacts
title_sort atmospheric sb in the arctic during the past 16,000 years: responses to climate change and human impacts
publishDate 2008
url https://era.library.ualberta.ca/items/0574247b-158b-4e86-be48-1977e7704e36
https://doi.org/10.7939/R38P5VC2C
long_lat ENVELOPE(-88.000,-88.000,75.252,75.252)
ENVELOPE(13.501,13.501,68.062,68.062)
geographic Arctic
Canada
Devon Island
Jura
geographic_facet Arctic
Canada
Devon Island
Jura
genre Arctic
Climate change
Devon Island
ice core
genre_facet Arctic
Climate change
Devon Island
ice core
op_relation https://era.library.ualberta.ca/items/0574247b-158b-4e86-be48-1977e7704e36
doi:10.7939/R38P5VC2C
op_rights © 2008 American Geophysical Union. This version of this article is open access and can be downloaded and shared. The original author(s) and source must be cited.
op_doi https://doi.org/10.7939/R38P5VC2C
_version_ 1766319776200654848

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