Discovery of natural Perchlorate in the Antarctic Dry Valleys and its global implications

Samuel P. Kounaves; Shannon T. Stroble; Rachel M. Anderson; Quincy Moore; David C. Catling; Susanne Douglas; Christopher P. Mckay; Douglas W. Ming; Peter H. Smith; Leslie K. Tamppari; Aaron P. Zent

doi:10.1021/es9033606

Discovery of natural Perchlorate in the Antarctic Dry Valleys and its global implications

Samuel P. Kounaves, Shannon T. Stroble, Rachel M. Anderson, Quincy Moore, David C. Catling, Susanne Douglas, Christopher P. Mckay, Douglas W. Ming, Peter H. Smith, Leslie K. Tamppari, Aaron P. Zent

Research output: Contribution to journal › Article › peer-review

137 Scopus citations

Abstract

In the past few years, it has become increasingly apparent that Perchlorate (ClO₄^-) is present on all continents, except the polar regions where it had not yet been assessed, and that it may have a significant natural source. Here, we report on the discovery of Perchlorate in soil and ice from several Antarctic Dry Valleys (ADVs) where concentrations reach up to 1100 μg/kg. In the driest ADV, Perchlorate correlates with atmospherically deposited nitrate. Far from anthropogenic activity, ADV Perchlorate provides unambiguous evidence that natural Perchlorate is ubiquitous on Earth. The discovery has significant implications for the origin of Perchlorate, its global biogeochemical interactions, and possible interactions with the polar ice sheets. The results support the hypotheses that Perchlorate is produced globally and continuously in the Earth's atmosphere, that it typically accumulates in hyperarid areas, and that it does not build up in oceans or other wet environments most likely because of microbial reduction on a global scale.

Original language	English (US)
Pages (from-to)	2360-2364
Number of pages	5
Journal	Environmental Science and Technology
Volume	44
Issue number	7
DOIs	https://doi.org/10.1021/es9033606
State	Published - Apr 1 2010
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
Environmental Chemistry

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title = "Discovery of natural Perchlorate in the Antarctic Dry Valleys and its global implications",

abstract = "In the past few years, it has become increasingly apparent that Perchlorate (ClO4-) is present on all continents, except the polar regions where it had not yet been assessed, and that it may have a significant natural source. Here, we report on the discovery of Perchlorate in soil and ice from several Antarctic Dry Valleys (ADVs) where concentrations reach up to 1100 μg/kg. In the driest ADV, Perchlorate correlates with atmospherically deposited nitrate. Far from anthropogenic activity, ADV Perchlorate provides unambiguous evidence that natural Perchlorate is ubiquitous on Earth. The discovery has significant implications for the origin of Perchlorate, its global biogeochemical interactions, and possible interactions with the polar ice sheets. The results support the hypotheses that Perchlorate is produced globally and continuously in the Earth's atmosphere, that it typically accumulates in hyperarid areas, and that it does not build up in oceans or other wet environments most likely because of microbial reduction on a global scale.",

author = "Kounaves, {Samuel P.} and Stroble, {Shannon T.} and Anderson, {Rachel M.} and Quincy Moore and Catling, {David C.} and Susanne Douglas and Mckay, {Christopher P.} and Ming, {Douglas W.} and Smith, {Peter H.} and Tamppari, {Leslie K.} and Zent, {Aaron P.}",

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doi = "10.1021/es9033606",

language = "English (US)",

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T1 - Discovery of natural Perchlorate in the Antarctic Dry Valleys and its global implications

AU - Kounaves, Samuel P.

AU - Stroble, Shannon T.

AU - Anderson, Rachel M.

AU - Moore, Quincy

AU - Catling, David C.

AU - Douglas, Susanne

AU - Mckay, Christopher P.

AU - Ming, Douglas W.

AU - Smith, Peter H.

AU - Tamppari, Leslie K.

AU - Zent, Aaron P.

PY - 2010/4/1

Y1 - 2010/4/1

N2 - In the past few years, it has become increasingly apparent that Perchlorate (ClO4-) is present on all continents, except the polar regions where it had not yet been assessed, and that it may have a significant natural source. Here, we report on the discovery of Perchlorate in soil and ice from several Antarctic Dry Valleys (ADVs) where concentrations reach up to 1100 μg/kg. In the driest ADV, Perchlorate correlates with atmospherically deposited nitrate. Far from anthropogenic activity, ADV Perchlorate provides unambiguous evidence that natural Perchlorate is ubiquitous on Earth. The discovery has significant implications for the origin of Perchlorate, its global biogeochemical interactions, and possible interactions with the polar ice sheets. The results support the hypotheses that Perchlorate is produced globally and continuously in the Earth's atmosphere, that it typically accumulates in hyperarid areas, and that it does not build up in oceans or other wet environments most likely because of microbial reduction on a global scale.

AB - In the past few years, it has become increasingly apparent that Perchlorate (ClO4-) is present on all continents, except the polar regions where it had not yet been assessed, and that it may have a significant natural source. Here, we report on the discovery of Perchlorate in soil and ice from several Antarctic Dry Valleys (ADVs) where concentrations reach up to 1100 μg/kg. In the driest ADV, Perchlorate correlates with atmospherically deposited nitrate. Far from anthropogenic activity, ADV Perchlorate provides unambiguous evidence that natural Perchlorate is ubiquitous on Earth. The discovery has significant implications for the origin of Perchlorate, its global biogeochemical interactions, and possible interactions with the polar ice sheets. The results support the hypotheses that Perchlorate is produced globally and continuously in the Earth's atmosphere, that it typically accumulates in hyperarid areas, and that it does not build up in oceans or other wet environments most likely because of microbial reduction on a global scale.

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JO - Environmental Science and Technology

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Discovery of natural Perchlorate in the Antarctic Dry Valleys and its global implications

Abstract

ASJC Scopus subject areas

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