Observations of I2 at a remote marine site

Inorganic iodine plays a significant role in the photochemistry of the marine boundary layer, but the sources and cycling of iodine are not well understood. We report the first I2 observations in marine air that is not impacted by coastal macroalgal emissions or sea ice chemistry. The data clearly d...

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Main Authors:	Lawler, MJ, Mahajan, AS, Saiz-Lopez, A, Saltzman, ES
Format:	Article in Journal/Newspaper
Language:	English
Published:	European Geosciences Union 2014
Subjects:	Meteorology and Climatology Sea ice
Online Access:	http://moeseprints.incois.gov.in/908/ http://moeseprints.incois.gov.in/908/1/observations.pdf http://www.atmos-chem-phys.net/14/2669/2014/acp-14-2669-2014.pdf

id	ftmoes:oai:moeseprints.incois.gov.in:908
record_format	openpolar
spelling	ftmoes:oai:moeseprints.incois.gov.in:908 2023-05-15T18:18:38+02:00 Observations of I2 at a remote marine site Lawler, MJ Mahajan, AS Saiz-Lopez, A Saltzman, ES 2014-03-14 application/pdf http://moeseprints.incois.gov.in/908/ http://moeseprints.incois.gov.in/908/1/observations.pdf http://www.atmos-chem-phys.net/14/2669/2014/acp-14-2669-2014.pdf en eng European Geosciences Union http://moeseprints.incois.gov.in/908/1/observations.pdf Lawler, MJ and Mahajan, AS and Saiz-Lopez, A and Saltzman, ES (2014) Observations of I2 at a remote marine site. Atmospheric Chemistry and Physics, 14 (5). pp. 2669-2678. Meteorology and Climatology Article PeerReviewed 2014 ftmoes 2022-01-12T07:31:53Z Inorganic iodine plays a significant role in the photochemistry of the marine boundary layer, but the sources and cycling of iodine are not well understood. We report the first I2 observations in marine air that is not impacted by coastal macroalgal emissions or sea ice chemistry. The data clearly demonstrate that the very high I2 levels previously reported for coastal air are not representative of open ocean conditions. In this study, gas phase I2 was measured at the Cape Verde Atmospheric Observatory, a semi-remote site in the eastern tropical Atlantic, using atmospheric pressure chemical ionization tandem mass spectrometry. Atmospheric I2 levels typically increased beginning at sunset, leveled off after midnight, and then rapidly decreased at sunrise. There was also a smaller midday maximum in I 2 that was probably caused by a measurement artifact. Ambient I 2 mixing ratios ranged from <0.02-0.6 pmol mol-1 in May 2007 and <0.03-1.67 pmol mol-1 in May 2009. The sea-air flux implied by the nighttime buildup of I2 is too small to explain the observed daytime IO levels at this site. Iodocarbon measurements made in this region previously are also insufficient to explain the observed 1-2 pmol mol-1 of daytime IO. The observations imply the existence of an unknown daytime source of gas phase inorganic iodine. Carpenter et al. (2013) recently proposed that sea surface emissions of HOI are several times larger than the flux of I2. Such a flux could account for both the nighttime I2 and the daytime IO observations. Article in Journal/Newspaper Sea ice Ministry of Earth Sciences, Government of India: Open Access Digital Repository
institution	Open Polar
collection	Ministry of Earth Sciences, Government of India: Open Access Digital Repository
op_collection_id	ftmoes
language	English
topic	Meteorology and Climatology
spellingShingle	Meteorology and Climatology Lawler, MJ Mahajan, AS Saiz-Lopez, A Saltzman, ES Observations of I2 at a remote marine site
topic_facet	Meteorology and Climatology
description	Inorganic iodine plays a significant role in the photochemistry of the marine boundary layer, but the sources and cycling of iodine are not well understood. We report the first I2 observations in marine air that is not impacted by coastal macroalgal emissions or sea ice chemistry. The data clearly demonstrate that the very high I2 levels previously reported for coastal air are not representative of open ocean conditions. In this study, gas phase I2 was measured at the Cape Verde Atmospheric Observatory, a semi-remote site in the eastern tropical Atlantic, using atmospheric pressure chemical ionization tandem mass spectrometry. Atmospheric I2 levels typically increased beginning at sunset, leveled off after midnight, and then rapidly decreased at sunrise. There was also a smaller midday maximum in I 2 that was probably caused by a measurement artifact. Ambient I 2 mixing ratios ranged from <0.02-0.6 pmol mol-1 in May 2007 and <0.03-1.67 pmol mol-1 in May 2009. The sea-air flux implied by the nighttime buildup of I2 is too small to explain the observed daytime IO levels at this site. Iodocarbon measurements made in this region previously are also insufficient to explain the observed 1-2 pmol mol-1 of daytime IO. The observations imply the existence of an unknown daytime source of gas phase inorganic iodine. Carpenter et al. (2013) recently proposed that sea surface emissions of HOI are several times larger than the flux of I2. Such a flux could account for both the nighttime I2 and the daytime IO observations.
format	Article in Journal/Newspaper
author	Lawler, MJ Mahajan, AS Saiz-Lopez, A Saltzman, ES
author_facet	Lawler, MJ Mahajan, AS Saiz-Lopez, A Saltzman, ES
author_sort	Lawler, MJ
title	Observations of I2 at a remote marine site
title_short	Observations of I2 at a remote marine site
title_full	Observations of I2 at a remote marine site
title_fullStr	Observations of I2 at a remote marine site
title_full_unstemmed	Observations of I2 at a remote marine site
title_sort	observations of i2 at a remote marine site
publisher	European Geosciences Union
publishDate	2014
url	http://moeseprints.incois.gov.in/908/ http://moeseprints.incois.gov.in/908/1/observations.pdf http://www.atmos-chem-phys.net/14/2669/2014/acp-14-2669-2014.pdf
genre	Sea ice
genre_facet	Sea ice
op_relation	http://moeseprints.incois.gov.in/908/1/observations.pdf Lawler, MJ and Mahajan, AS and Saiz-Lopez, A and Saltzman, ES (2014) Observations of I2 at a remote marine site. Atmospheric Chemistry and Physics, 14 (5). pp. 2669-2678.
_version_	1766195271100792832

Observations of I2 at a remote marine site

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