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A gas-to-particle conversion mechanism helps to explain atmospheric particle formation through clustering of iodine oxides.


ABSTRACT: Emitted from the oceans, iodine-bearing molecules are ubiquitous in the atmosphere and a source of new atmospheric aerosol particles of potentially global significance. However, its inclusion in atmospheric models is hindered by a lack of understanding of the first steps of the photochemical gas-to-particle conversion mechanism. Our laboratory results show that under a high humidity and low HOx regime, the recently proposed nucleating molecule (iodic acid, HOIO2) does not form rapidly enough, and gas-to-particle conversion proceeds by clustering of iodine oxides (IxOy), albeit at slower rates than under dryer conditions. Moreover, we show experimentally that gas-phase HOIO2 is not necessary for the formation of HOIO2-containing particles. These insights help to explain new particle formation in the relatively dry polar regions and, more generally, provide for the first time a thermochemically feasible molecular mechanism from ocean iodine emissions to atmospheric particles that is currently missing in model calculations of aerosol radiative forcing.

SUBMITTER: Gomez Martin JC 

PROVIDER: S-EPMC7481236 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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A gas-to-particle conversion mechanism helps to explain atmospheric particle formation through clustering of iodine oxides.

Gómez Martín Juan Carlos JC   Lewis Thomas R TR   Blitz Mark A MA   Plane John M C JMC   Kumar Manoj M   Francisco Joseph S JS   Saiz-Lopez Alfonso A  

Nature communications 20200909 1


Emitted from the oceans, iodine-bearing molecules are ubiquitous in the atmosphere and a source of new atmospheric aerosol particles of potentially global significance. However, its inclusion in atmospheric models is hindered by a lack of understanding of the first steps of the photochemical gas-to-particle conversion mechanism. Our laboratory results show that under a high humidity and low HO<sub>x</sub> regime, the recently proposed nucleating molecule (iodic acid, HOIO<sub>2</sub>) does not f  ...[more]

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