Iodine oxide in the global marine boundary layer

C. Prados-Roman; C. A. Cuevas; T. Hay; R. P. Fernandez; A. S. Mahajan; S. J. Royer; M. Galí; R. Simó; J. Dachs; K. Großmann; D. E. Kinnison; J. F. Lamarque; A. Saiz-Lopez

doi:10.5194/acp-15-583-2015

Iodine oxide in the global marine boundary layer

C. Prados-Roman
, C. A. Cuevas
, T. Hay
, R. P. Fernandez
, A. S. Mahajan
, S. J. Royer
, M. Galí
, R. Simó
, J. Dachs
, K. Großmann
, D. E. Kinnison
, J. F. Lamarque
, A. Saiz-Lopez

ACOM Modeling

CSIC - Institute of Physical Chemistry Rocasolano
Consejo Nacional de Investigaciones Científicas y Técnicas
Indian Institute of Tropical Meteorology
CSIC - Institute of Marine Sciences of Andalusia
CNRS
CSIC - Institute of Environmental Assessment and Water Research
Heidelberg University
National Center for Atmospheric Research

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

100 Scopus citations

Abstract

Emitted mainly by the oceans, iodine is a halogen compound important for atmospheric chemistry due to its high ozone depletion potential and effect on the oxidizing capacity of the atmosphere. Here we present a comprehensive data set of iodine oxide (IO) measurements in the open marine boundary layer (MBL) made during the Malaspina 2010 circumnavigation. Results show IO mixing ratios ranging from 0.4 to 1 pmol mol-1 (30% uncertainty) and, complemented with additional field campaigns, this data set confirms through observations the ubiquitous presence of reactive iodine chemistry in the global marine environment. We use a global model with organic (CH3I, CH2ICl, CH2I2 and CH2IBr) and inorganic (HOI and I2) iodine ocean emissions to investigate the contribution of the different iodine source gases to the budget of IO in the global MBL. In agreement with previous estimates, our results indicate that, globally averaged, the abiotic precursors contribute about 75 % to the IO budget. However, this work reveals a strong geographical pattern in the contribution of organic vs. inorganic precursors to reactive iodine in the global MBL.

Original language	English
Pages (from-to)	583-593
Number of pages	11
Journal	Atmospheric Chemistry and Physics
Volume	15
Issue number	2
DOIs	https://doi.org/10.5194/acp-15-583-2015
State	Published - Jan 16 2015

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title = "Iodine oxide in the global marine boundary layer",

abstract = "Emitted mainly by the oceans, iodine is a halogen compound important for atmospheric chemistry due to its high ozone depletion potential and effect on the oxidizing capacity of the atmosphere. Here we present a comprehensive data set of iodine oxide (IO) measurements in the open marine boundary layer (MBL) made during the Malaspina 2010 circumnavigation. Results show IO mixing ratios ranging from 0.4 to 1 pmol mol-1 (30\% uncertainty) and, complemented with additional field campaigns, this data set confirms through observations the ubiquitous presence of reactive iodine chemistry in the global marine environment. We use a global model with organic (CH3I, CH2ICl, CH2I2 and CH2IBr) and inorganic (HOI and I2) iodine ocean emissions to investigate the contribution of the different iodine source gases to the budget of IO in the global MBL. In agreement with previous estimates, our results indicate that, globally averaged, the abiotic precursors contribute about 75 \% to the IO budget. However, this work reveals a strong geographical pattern in the contribution of organic vs. inorganic precursors to reactive iodine in the global MBL.",

author = "C. Prados-Roman and Cuevas, \{C. A.\} and T. Hay and Fernandez, \{R. P.\} and Mahajan, \{A. S.\} and Royer, \{S. J.\} and M. Gal{\'i} and R. Sim{\'o} and J. Dachs and K. Gro{\ss}mann and Kinnison, \{D. E.\} and Lamarque, \{J. F.\} and A. Saiz-Lopez",

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T1 - Iodine oxide in the global marine boundary layer

AU - Prados-Roman, C.

AU - Cuevas, C. A.

AU - Hay, T.

AU - Fernandez, R. P.

AU - Mahajan, A. S.

AU - Royer, S. J.

AU - Galí, M.

AU - Simó, R.

AU - Dachs, J.

AU - Großmann, K.

AU - Kinnison, D. E.

AU - Lamarque, J. F.

AU - Saiz-Lopez, A.

PY - 2015/1/16

Y1 - 2015/1/16

N2 - Emitted mainly by the oceans, iodine is a halogen compound important for atmospheric chemistry due to its high ozone depletion potential and effect on the oxidizing capacity of the atmosphere. Here we present a comprehensive data set of iodine oxide (IO) measurements in the open marine boundary layer (MBL) made during the Malaspina 2010 circumnavigation. Results show IO mixing ratios ranging from 0.4 to 1 pmol mol-1 (30% uncertainty) and, complemented with additional field campaigns, this data set confirms through observations the ubiquitous presence of reactive iodine chemistry in the global marine environment. We use a global model with organic (CH3I, CH2ICl, CH2I2 and CH2IBr) and inorganic (HOI and I2) iodine ocean emissions to investigate the contribution of the different iodine source gases to the budget of IO in the global MBL. In agreement with previous estimates, our results indicate that, globally averaged, the abiotic precursors contribute about 75 % to the IO budget. However, this work reveals a strong geographical pattern in the contribution of organic vs. inorganic precursors to reactive iodine in the global MBL.

AB - Emitted mainly by the oceans, iodine is a halogen compound important for atmospheric chemistry due to its high ozone depletion potential and effect on the oxidizing capacity of the atmosphere. Here we present a comprehensive data set of iodine oxide (IO) measurements in the open marine boundary layer (MBL) made during the Malaspina 2010 circumnavigation. Results show IO mixing ratios ranging from 0.4 to 1 pmol mol-1 (30% uncertainty) and, complemented with additional field campaigns, this data set confirms through observations the ubiquitous presence of reactive iodine chemistry in the global marine environment. We use a global model with organic (CH3I, CH2ICl, CH2I2 and CH2IBr) and inorganic (HOI and I2) iodine ocean emissions to investigate the contribution of the different iodine source gases to the budget of IO in the global MBL. In agreement with previous estimates, our results indicate that, globally averaged, the abiotic precursors contribute about 75 % to the IO budget. However, this work reveals a strong geographical pattern in the contribution of organic vs. inorganic precursors to reactive iodine in the global MBL.

UR - https://www.scopus.com/pages/publications/84921362671

U2 - 10.5194/acp-15-583-2015

DO - 10.5194/acp-15-583-2015

M3 - Article

AN - SCOPUS:84921362671

SN - 1680-7316

VL - 15

SP - 583

EP - 593

JO - Atmospheric Chemistry and Physics

JF - Atmospheric Chemistry and Physics

IS - 2

ER -

Iodine oxide in the global marine boundary layer

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