Direct field evidence of autocatalytic iodine release from atmospheric aerosol

Yee Jun Tham; Xu-Cheng He; Qinyi Li; Carlos A. Cuevas; Jiali Shen; Joni Kalliokoski; Chao Yan; Siddharth Iyer; Tuuli Lehmusjärvi; Sehyun Jang; Roseline C. Thakur; Lisa Beck; Deniz Kemppainen; Miska Olin; Nina Sarnela; Jyri Mikkilä; Jani Hakala; Marjan Marbouti; Lei Yao; Haiyan Li; Wei Huang; Yonghong Wang; Daniela Wimmer; Qiaozhi Zha; Juhani Virkanen; T. Gerard Spain; Simon O'Doherty; Tuija Jokinen; Federico Bianchi; Tuukka Petäjä; Douglas R. Worsnop; III Roy L. Mauldin; Jurgita Ovadnevaite; Darius Ceburnis; Norbert M. Maier; Markku Kulmala; Colin O’Dowd; Miikka Dal Maso; Alfonso Saiz-Lopez; Mikko Sipilä

doi:10.1073/pnas.2009951118

Direct field evidence of autocatalytic iodine release from atmospheric aerosol

Yee Jun Tham, Xu-Cheng He, Qinyi Li, Carlos A. Cuevas, Jiali Shen, Joni Kalliokoski, Chao Yan, Siddharth Iyer, Tuuli Lehmusjärvi, Sehyun Jang, Roseline C. Thakur, Lisa Beck, Deniz Kemppainen, Miska Olin, Nina Sarnela, Jyri Mikkilä, Jani Hakala, Marjan Marbouti, Lei Yao, Haiyan LiWei Huang, Yonghong Wang, Daniela Wimmer, Qiaozhi Zha, Juhani Virkanen, T. Gerard Spain, Simon O'Doherty, Tuija Jokinen, Federico Bianchi, Tuukka Petäjä, Douglas R. Worsnop, III Roy L. Mauldin, Jurgita Ovadnevaite, Darius Ceburnis, Norbert M. Maier, Markku Kulmala, Colin O’Dowd, Miikka Dal Maso, Alfonso Saiz-Lopez, Mikko Sipilä

Fysiikka

Tutkimustuotos: Artikkeli › Tieteellinen › vertaisarvioitu

36 Sitaatiot (Scopus)

15 Lataukset (Pure)

Abstrakti

Reactive iodine plays a key role in determining the oxidation capacity, or cleansing capacity, of the atmosphere in addition to being implicated in the formation of new particles in the marine boundary layer. The postulation that heterogeneous cycling of reactive iodine on aerosols may significantly influence the lifetime of ozone in the troposphere not only remains poorly understood but also heretofore has never been observed or quantified in the field. Here, we report direct ambient observations of hypoiodous acid (HOI) and heterogeneous recycling of interhalogen product species (i.e., iodine monochloride [ICl] and iodine monobromide [IBr]) in a midlatitude coastal environment. Significant levels of ICl and IBr with mean daily maxima of 4.3 and 3.0 parts per trillion by volume (1-min average), respectively, have been observed throughout the campaign. We show that the heterogeneous reaction of HOI on marine aerosol and subsequent production of iodine interhalogens are much faster than previously thought. These results indicate that the fast formation of iodine interhalogens, together with their rapid photolysis, results in more efficient recycling of atomic iodine than currently considered in models. Photolysis of the observed ICl and IBr leads to a 32% increase in the daytime average of atomic iodine production rate, thereby enhancing the average daytime iodine-catalyzed ozone loss rate by 10 to 20%. Our findings provide direct field evidence that the autocatalytic mechanism of iodine release from marine aerosol is important in the atmosphere and can have significant impacts on atmospheric oxidation capacity.

Alkuperäiskieli	Englanti
Artikkeli	e2009951118
Sivumäärä	8
Julkaisu	Proceedings of the National Academy of Sciences
Vuosikerta	118
Numero	4
DOI - pysyväislinkit	https://doi.org/10.1073/pnas.2009951118
Tila	Julkaistu - 26 tammik. 2021
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Julkaisufoorumi-taso

Jufo-taso 3

Pääsy asiakirjaan

10.1073/pnas.2009951118Lisenssi: CC BY-NC-ND

Direct field evidence of autocatalytic 2021
CC BY-NC-ND
Final published version, 1,56 MBLisenssi: CC BY-NC-ND

http://urn.fi/URN:NBN:fi:tuni-202104193099Lisenssi: CC BY-NC-ND

Dataset for Direct field evidence of autocatalytic iodine release from atmospheric aerosol
Tham, Y. J. (Creator), He, X.-C. (Creator), Qinyi, L. (Creator), Cuevas, C. A. (Creator), Shen, J. (Creator), Kalliokoski, J. (Creator), Yan, C. (Creator), Parameswaran Iyer, S. (Creator), Lehmusjärvi, T. (Creator), Jang, S. (Creator), Thakur, R. C. (Creator), Beck, L. (Creator), Kemppainen, D. (Creator), Olin, M. (Creator), Sarnela, N. (Creator), Mikkilä, J. (Creator), Hakala, J. (Creator), Marbouti, M. (Creator), Yao, L. (Creator), Li, H. (Creator), Huang, W. (Creator), Wang, Y. (Creator), Wimmer, D. (Creator), Zha, Q. (Creator), Virkanen, J. (Creator), Spain, T. G. (Creator), O'Doherty, S. (Creator), Jokinen, T. (Creator), Bianchi, F. (Creator), Petäjä, T. (Creator), Worsnop, D. R. (Creator), Mauldin III, R. L. (Creator), Ovadnevaite, J. (Creator), Ceburnis, D. (Creator), Maier, N. M. (Creator), Kulmala, M. (Creator), O'Dowd, C. (Creator), Dal Maso, M. (Creator), Saiz-Lopez, A. (Creator) & Sipilä, M. (Creator), Zenodo, 14 tammik. 2021
DOI - pysyväislinkki: 10.5281/zenodo.4438584
Tietoaineisto: Dataset

Siteeraa tätä

Tham, Y. J., He, X.-C., Li, Q., Cuevas, C. A., Shen, J., Kalliokoski, J., Yan, C., Iyer, S., Lehmusjärvi, T., Jang, S., Thakur, R. C., Beck, L., Kemppainen, D., Olin, M., Sarnela, N., Mikkilä, J., Hakala, J., Marbouti, M., Yao, L., ... Sipilä, M. (2021). Direct field evidence of autocatalytic iodine release from atmospheric aerosol. Proceedings of the National Academy of Sciences, 118(4), Artikkeli e2009951118. https://doi.org/10.1073/pnas.2009951118

@article{dcbd5606ff7e474b8560b4d1ad2362a1,

title = "Direct field evidence of autocatalytic iodine release from atmospheric aerosol",

abstract = "Reactive iodine plays a key role in determining the oxidation capacity, or cleansing capacity, of the atmosphere in addition to being implicated in the formation of new particles in the marine boundary layer. The postulation that heterogeneous cycling of reactive iodine on aerosols may significantly influence the lifetime of ozone in the troposphere not only remains poorly understood but also heretofore has never been observed or quantified in the field. Here, we report direct ambient observations of hypoiodous acid (HOI) and heterogeneous recycling of interhalogen product species (i.e., iodine monochloride [ICl] and iodine monobromide [IBr]) in a midlatitude coastal environment. Significant levels of ICl and IBr with mean daily maxima of 4.3 and 3.0 parts per trillion by volume (1-min average), respectively, have been observed throughout the campaign. We show that the heterogeneous reaction of HOI on marine aerosol and subsequent production of iodine interhalogens are much faster than previously thought. These results indicate that the fast formation of iodine interhalogens, together with their rapid photolysis, results in more efficient recycling of atomic iodine than currently considered in models. Photolysis of the observed ICl and IBr leads to a 32% increase in the daytime average of atomic iodine production rate, thereby enhancing the average daytime iodine-catalyzed ozone loss rate by 10 to 20%. Our findings provide direct field evidence that the autocatalytic mechanism of iodine release from marine aerosol is important in the atmosphere and can have significant impacts on atmospheric oxidation capacity.",

author = "Tham, {Yee Jun} and Xu-Cheng He and Qinyi Li and Cuevas, {Carlos A.} and Jiali Shen and Joni Kalliokoski and Chao Yan and Siddharth Iyer and Tuuli Lehmusj{\"a}rvi and Sehyun Jang and Thakur, {Roseline C.} and Lisa Beck and Deniz Kemppainen and Miska Olin and Nina Sarnela and Jyri Mikkil{\"a} and Jani Hakala and Marjan Marbouti and Lei Yao and Haiyan Li and Wei Huang and Yonghong Wang and Daniela Wimmer and Qiaozhi Zha and Juhani Virkanen and Spain, {T. Gerard} and Simon O'Doherty and Tuija Jokinen and Federico Bianchi and Tuukka Pet{\"a}j{\"a} and Worsnop, {Douglas R.} and {Roy L. Mauldin}, III and Jurgita Ovadnevaite and Darius Ceburnis and Maier, {Norbert M.} and Markku Kulmala and Colin O{\textquoteright}Dowd and Maso, {Miikka Dal} and Alfonso Saiz-Lopez and Mikko Sipil{\"a}",

year = "2021",

month = jan,

day = "26",

doi = "10.1073/pnas.2009951118",

language = "English",

volume = "118",

number = "4",

}

Tham, YJ, He, X-C, Li, Q, Cuevas, CA, Shen, J, Kalliokoski, J, Yan, C, Iyer, S, Lehmusjärvi, T, Jang, S, Thakur, RC, Beck, L, Kemppainen, D, Olin, M, Sarnela, N, Mikkilä, J, Hakala, J, Marbouti, M, Yao, L, Li, H, Huang, W, Wang, Y, Wimmer, D, Zha, Q, Virkanen, J, Spain, TG, O'Doherty, S, Jokinen, T, Bianchi, F, Petäjä, T, Worsnop, DR, Roy L. Mauldin, III, Ovadnevaite, J, Ceburnis, D, Maier, NM, Kulmala, M, O’Dowd, C, Maso, MD, Saiz-Lopez, A & Sipilä, M 2021, 'Direct field evidence of autocatalytic iodine release from atmospheric aerosol', Proceedings of the National Academy of Sciences, Vuosikerta 118, Nro 4, e2009951118. https://doi.org/10.1073/pnas.2009951118

TY - JOUR

T1 - Direct field evidence of autocatalytic iodine release from atmospheric aerosol

AU - Tham, Yee Jun

AU - He, Xu-Cheng

AU - Li, Qinyi

AU - Cuevas, Carlos A.

AU - Shen, Jiali

AU - Kalliokoski, Joni

AU - Yan, Chao

AU - Iyer, Siddharth

AU - Lehmusjärvi, Tuuli

AU - Jang, Sehyun

AU - Thakur, Roseline C.

AU - Beck, Lisa

AU - Kemppainen, Deniz

AU - Olin, Miska

AU - Sarnela, Nina

AU - Mikkilä, Jyri

AU - Hakala, Jani

AU - Marbouti, Marjan

AU - Yao, Lei

AU - Li, Haiyan

AU - Huang, Wei

AU - Wang, Yonghong

AU - Wimmer, Daniela

AU - Zha, Qiaozhi

AU - Virkanen, Juhani

AU - Spain, T. Gerard

AU - O'Doherty, Simon

AU - Jokinen, Tuija

AU - Bianchi, Federico

AU - Petäjä, Tuukka

AU - Worsnop, Douglas R.

AU - Roy L. Mauldin, III

AU - Ovadnevaite, Jurgita

AU - Ceburnis, Darius

AU - Maier, Norbert M.

AU - Kulmala, Markku

AU - O’Dowd, Colin

AU - Maso, Miikka Dal

AU - Saiz-Lopez, Alfonso

AU - Sipilä, Mikko

PY - 2021/1/26

Y1 - 2021/1/26

N2 - Reactive iodine plays a key role in determining the oxidation capacity, or cleansing capacity, of the atmosphere in addition to being implicated in the formation of new particles in the marine boundary layer. The postulation that heterogeneous cycling of reactive iodine on aerosols may significantly influence the lifetime of ozone in the troposphere not only remains poorly understood but also heretofore has never been observed or quantified in the field. Here, we report direct ambient observations of hypoiodous acid (HOI) and heterogeneous recycling of interhalogen product species (i.e., iodine monochloride [ICl] and iodine monobromide [IBr]) in a midlatitude coastal environment. Significant levels of ICl and IBr with mean daily maxima of 4.3 and 3.0 parts per trillion by volume (1-min average), respectively, have been observed throughout the campaign. We show that the heterogeneous reaction of HOI on marine aerosol and subsequent production of iodine interhalogens are much faster than previously thought. These results indicate that the fast formation of iodine interhalogens, together with their rapid photolysis, results in more efficient recycling of atomic iodine than currently considered in models. Photolysis of the observed ICl and IBr leads to a 32% increase in the daytime average of atomic iodine production rate, thereby enhancing the average daytime iodine-catalyzed ozone loss rate by 10 to 20%. Our findings provide direct field evidence that the autocatalytic mechanism of iodine release from marine aerosol is important in the atmosphere and can have significant impacts on atmospheric oxidation capacity.

AB - Reactive iodine plays a key role in determining the oxidation capacity, or cleansing capacity, of the atmosphere in addition to being implicated in the formation of new particles in the marine boundary layer. The postulation that heterogeneous cycling of reactive iodine on aerosols may significantly influence the lifetime of ozone in the troposphere not only remains poorly understood but also heretofore has never been observed or quantified in the field. Here, we report direct ambient observations of hypoiodous acid (HOI) and heterogeneous recycling of interhalogen product species (i.e., iodine monochloride [ICl] and iodine monobromide [IBr]) in a midlatitude coastal environment. Significant levels of ICl and IBr with mean daily maxima of 4.3 and 3.0 parts per trillion by volume (1-min average), respectively, have been observed throughout the campaign. We show that the heterogeneous reaction of HOI on marine aerosol and subsequent production of iodine interhalogens are much faster than previously thought. These results indicate that the fast formation of iodine interhalogens, together with their rapid photolysis, results in more efficient recycling of atomic iodine than currently considered in models. Photolysis of the observed ICl and IBr leads to a 32% increase in the daytime average of atomic iodine production rate, thereby enhancing the average daytime iodine-catalyzed ozone loss rate by 10 to 20%. Our findings provide direct field evidence that the autocatalytic mechanism of iodine release from marine aerosol is important in the atmosphere and can have significant impacts on atmospheric oxidation capacity.

U2 - 10.1073/pnas.2009951118

DO - 10.1073/pnas.2009951118

M3 - Article

SN - 0027-8424

VL - 118

JO - Proceedings of the National Academy of Sciences

JF - Proceedings of the National Academy of Sciences

IS - 4

M1 - e2009951118

ER -

Direct field evidence of autocatalytic iodine release from atmospheric aerosol

Abstrakti

Julkaisufoorumi-taso

Pääsy asiakirjaan

Sormenjälki

Tietoaineistot

Dataset for Direct field evidence of autocatalytic iodine release from atmospheric aerosol

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