Ozone depletion due to dust release of iodine in the free troposphere

Theodore K. Koenig; Rainer Volkamer; Eric C. Apel; James F. Bresch; Carlos A. Cuevas; Barbara Dix; Edwin W. Eloranta; Rafael P. Fernandez; Samuel R. Hall; Rebecca S. Hornbrook; R. Bradley Pierce; J. Michael Reeves; Alfonso Saiz-Lopez; Kirk Ullmann

doi:10.1126/sciadv.abj6544

Ozone depletion due to dust release of iodine in the free troposphere

Theodore K. Koenig
, Rainer Volkamer
, Eric C. Apel
, James F. Bresch
, Carlos A. Cuevas
, Barbara Dix
, Edwin W. Eloranta
, Rafael P. Fernandez
, Samuel R. Hall
, Rebecca S. Hornbrook
, R. Bradley Pierce
, J. Michael Reeves
, Alfonso Saiz-Lopez
, Kirk Ullmann

University of Colorado Boulder
Cooperative Institute for Research in Environmental Sciences
National Center for Atmospheric Research
CSIC - Institute of Physical Chemistry Rocasolano
University of Wisconsin-Madison
Consejo Nacional de Investigaciones Científicas y Técnicas
Data

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

25 Scopus citations

Abstract

Iodine is an atmospheric trace element emitted from oceans that efficiently destroys ozone (O3). Low O3 in airborne dust layers is frequently observed but poorly understood. We show that dust is a source of gas-phase iodine, indicated by aircraft observations of iodine monoxide (IO) radicals inside lofted dust layers from the Atacama and Sechura Deserts that are up to a factor of 10 enhanced over background. Gas-phase iodine photochemistry, commensurate with observed IO, is needed to explain the low O3 inside these dust layers (below 15 ppbv; up to 75% depleted). The added dust iodine can explain decreases in O3 of 8% regionally and affects surface air quality. Our data suggest that iodate reduction to form volatile iodine species is a missing process in the geochemical iodine cycle and presents an unrecognized aeolian source of iodine. Atmospheric iodine has tripled since 1950 and affects ozone layer recovery and particle formation.

Original language	English
Article number	eabj6544
Journal	Science advances
Volume	7
Issue number	52
DOIs	https://doi.org/10.1126/sciadv.abj6544
State	Published - Dec 2021

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@article{80f822a6b63d4f388bebe698d646d857,

title = "Ozone depletion due to dust release of iodine in the free troposphere",

abstract = "Iodine is an atmospheric trace element emitted from oceans that efficiently destroys ozone (O3). Low O3 in airborne dust layers is frequently observed but poorly understood. We show that dust is a source of gas-phase iodine, indicated by aircraft observations of iodine monoxide (IO) radicals inside lofted dust layers from the Atacama and Sechura Deserts that are up to a factor of 10 enhanced over background. Gas-phase iodine photochemistry, commensurate with observed IO, is needed to explain the low O3 inside these dust layers (below 15 ppbv; up to 75\% depleted). The added dust iodine can explain decreases in O3 of 8\% regionally and affects surface air quality. Our data suggest that iodate reduction to form volatile iodine species is a missing process in the geochemical iodine cycle and presents an unrecognized aeolian source of iodine. Atmospheric iodine has tripled since 1950 and affects ozone layer recovery and particle formation.",

author = "Koenig, \{Theodore K.\} and Rainer Volkamer and Apel, \{Eric C.\} and Bresch, \{James F.\} and Cuevas, \{Carlos A.\} and Barbara Dix and Eloranta, \{Edwin W.\} and Fernandez, \{Rafael P.\} and Hall, \{Samuel R.\} and Hornbrook, \{Rebecca S.\} and Pierce, \{R. Bradley\} and Reeves, \{J. Michael\} and Alfonso Saiz-Lopez and Kirk Ullmann",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 The Authors, some rights reserved.",

year = "2021",

month = dec,

doi = "10.1126/sciadv.abj6544",

language = "English",

volume = "7",

journal = "Science advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "52",

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TY - JOUR

T1 - Ozone depletion due to dust release of iodine in the free troposphere

AU - Koenig, Theodore K.

AU - Volkamer, Rainer

AU - Apel, Eric C.

AU - Bresch, James F.

AU - Cuevas, Carlos A.

AU - Dix, Barbara

AU - Eloranta, Edwin W.

AU - Fernandez, Rafael P.

AU - Hall, Samuel R.

AU - Hornbrook, Rebecca S.

AU - Pierce, R. Bradley

AU - Reeves, J. Michael

AU - Saiz-Lopez, Alfonso

AU - Ullmann, Kirk

PY - 2021/12

Y1 - 2021/12

N2 - Iodine is an atmospheric trace element emitted from oceans that efficiently destroys ozone (O3). Low O3 in airborne dust layers is frequently observed but poorly understood. We show that dust is a source of gas-phase iodine, indicated by aircraft observations of iodine monoxide (IO) radicals inside lofted dust layers from the Atacama and Sechura Deserts that are up to a factor of 10 enhanced over background. Gas-phase iodine photochemistry, commensurate with observed IO, is needed to explain the low O3 inside these dust layers (below 15 ppbv; up to 75% depleted). The added dust iodine can explain decreases in O3 of 8% regionally and affects surface air quality. Our data suggest that iodate reduction to form volatile iodine species is a missing process in the geochemical iodine cycle and presents an unrecognized aeolian source of iodine. Atmospheric iodine has tripled since 1950 and affects ozone layer recovery and particle formation.

AB - Iodine is an atmospheric trace element emitted from oceans that efficiently destroys ozone (O3). Low O3 in airborne dust layers is frequently observed but poorly understood. We show that dust is a source of gas-phase iodine, indicated by aircraft observations of iodine monoxide (IO) radicals inside lofted dust layers from the Atacama and Sechura Deserts that are up to a factor of 10 enhanced over background. Gas-phase iodine photochemistry, commensurate with observed IO, is needed to explain the low O3 inside these dust layers (below 15 ppbv; up to 75% depleted). The added dust iodine can explain decreases in O3 of 8% regionally and affects surface air quality. Our data suggest that iodate reduction to form volatile iodine species is a missing process in the geochemical iodine cycle and presents an unrecognized aeolian source of iodine. Atmospheric iodine has tripled since 1950 and affects ozone layer recovery and particle formation.

UR - https://www.scopus.com/pages/publications/85122004698

U2 - 10.1126/sciadv.abj6544

DO - 10.1126/sciadv.abj6544

M3 - Article

C2 - 34936464

AN - SCOPUS:85122004698

SN - 2375-2548

VL - 7

JO - Science advances

JF - Science advances

IS - 52

M1 - eabj6544

ER -

Ozone depletion due to dust release of iodine in the free troposphere

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