Pyrogenic iron: The missing link to high iron solubility in aerosols

Akinori Ito; Stelios Myriokefalitakis; Maria Kanakidou; Natalie M. Mahowald; Rachel A. Scanza; Douglas S. Hamilton; Alex R. Baker; Timothy Jickells; Manmohan Sarin; Srinivas Bikkina; Yuan Gao; Rachel U. Shelley; Clifton S. Buck; William M. Landing; Andrew R. Bowie; Morgane M.G. Perron; Cécile Guieu; Nicholas Meskhidze; Matthew S. Johnson; Yan Feng; Jasper F. Kok; Athanasios Nenes; Robert A. Duce

doi:10.1126/sciadv.aau7671

Pyrogenic iron: The missing link to high iron solubility in aerosols

Akinori Ito, Stelios Myriokefalitakis, Maria Kanakidou, Natalie M. Mahowald, Rachel A. Scanza, Douglas S. Hamilton, Alex R. Baker, Timothy Jickells, Manmohan Sarin, Srinivas Bikkina, Yuan Gao, Rachel U. Shelley, Clifton S. Buck, William M. Landing, Andrew R. Bowie, Morgane M.G. Perron, Cécile Guieu, Nicholas Meskhidze, Matthew S. Johnson, Yan FengJasper F. Kok, Athanasios Nenes, Robert A. Duce

Rutgers Newark, Earth & Environmental Science

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

116 Scopus citations

Abstract

Atmospheric deposition is a source of potentially bioavailable iron (Fe) and thus can partially control biological productivity in large parts of the ocean. However, the explanation of observed high aerosol Fe solubility compared to that in soil particles is still controversial, as several hypotheses have been proposed to explain this observation. Here, a statistical analysis of aerosol Fe solubility estimated from four models and observations compiled frommultiple field campaigns suggests that pyrogenic aerosols are themain sources of aerosolswith high Fe solubility at low concentration. Additionally, we find that field data over the Southern Ocean display a much wider range in aerosol Fe solubility compared to the models, which indicate an underestimation of labile Fe concentrations by a factor of 15. These findings suggest that pyrogenic Fe-containing aerosols are important sources of atmospheric bioavailable Fe to the open ocean and crucial for predicting anthropogenic perturbations to marine productivity.

Original language	English (US)
Article number	eaau7671
Journal	Science Advances
Volume	5
Issue number	5
DOIs	https://doi.org/10.1126/sciadv.aau7671
State	Published - 2019

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Ito, A., Myriokefalitakis, S., Kanakidou, M., Mahowald, N. M., Scanza, R. A., Hamilton, D. S., Baker, A. R., Jickells, T., Sarin, M., Bikkina, S., Gao, Y., Shelley, R. U., Buck, C. S., Landing, W. M., Bowie, A. R., Perron, M. M. G., Guieu, C., Meskhidze, N., Johnson, M. S., ... Duce, R. A. (2019). Pyrogenic iron: The missing link to high iron solubility in aerosols. Science Advances, 5(5), Article eaau7671. https://doi.org/10.1126/sciadv.aau7671

@article{b4251c5b15ff4b818a95bc56cb006722,

title = "Pyrogenic iron: The missing link to high iron solubility in aerosols",

abstract = "Atmospheric deposition is a source of potentially bioavailable iron (Fe) and thus can partially control biological productivity in large parts of the ocean. However, the explanation of observed high aerosol Fe solubility compared to that in soil particles is still controversial, as several hypotheses have been proposed to explain this observation. Here, a statistical analysis of aerosol Fe solubility estimated from four models and observations compiled frommultiple field campaigns suggests that pyrogenic aerosols are themain sources of aerosolswith high Fe solubility at low concentration. Additionally, we find that field data over the Southern Ocean display a much wider range in aerosol Fe solubility compared to the models, which indicate an underestimation of labile Fe concentrations by a factor of 15. These findings suggest that pyrogenic Fe-containing aerosols are important sources of atmospheric bioavailable Fe to the open ocean and crucial for predicting anthropogenic perturbations to marine productivity.",

author = "Akinori Ito and Stelios Myriokefalitakis and Maria Kanakidou and Mahowald, {Natalie M.} and Scanza, {Rachel A.} and Hamilton, {Douglas S.} and Baker, {Alex R.} and Timothy Jickells and Manmohan Sarin and Srinivas Bikkina and Yuan Gao and Shelley, {Rachel U.} and Buck, {Clifton S.} and Landing, {William M.} and Bowie, {Andrew R.} and Perron, {Morgane M.G.} and C{\'e}cile Guieu and Nicholas Meskhidze and Johnson, {Matthew S.} and Yan Feng and Kok, {Jasper F.} and Athanasios Nenes and Duce, {Robert A.}",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors.",

year = "2019",

doi = "10.1126/sciadv.aau7671",

language = "English (US)",

volume = "5",

journal = "Science Advances",

issn = "2375-2548",

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

number = "5",

}

Ito, A, Myriokefalitakis, S, Kanakidou, M, Mahowald, NM, Scanza, RA, Hamilton, DS, Baker, AR, Jickells, T, Sarin, M, Bikkina, S, Gao, Y, Shelley, RU, Buck, CS, Landing, WM, Bowie, AR, Perron, MMG, Guieu, C, Meskhidze, N, Johnson, MS, Feng, Y, Kok, JF, Nenes, A & Duce, RA 2019, 'Pyrogenic iron: The missing link to high iron solubility in aerosols', Science Advances, vol. 5, no. 5, eaau7671. https://doi.org/10.1126/sciadv.aau7671

TY - JOUR

T1 - Pyrogenic iron

T2 - The missing link to high iron solubility in aerosols

AU - Ito, Akinori

AU - Myriokefalitakis, Stelios

AU - Kanakidou, Maria

AU - Mahowald, Natalie M.

AU - Scanza, Rachel A.

AU - Hamilton, Douglas S.

AU - Baker, Alex R.

AU - Jickells, Timothy

AU - Sarin, Manmohan

AU - Bikkina, Srinivas

AU - Gao, Yuan

AU - Shelley, Rachel U.

AU - Buck, Clifton S.

AU - Landing, William M.

AU - Bowie, Andrew R.

AU - Perron, Morgane M.G.

AU - Guieu, Cécile

AU - Meskhidze, Nicholas

AU - Johnson, Matthew S.

AU - Feng, Yan

AU - Kok, Jasper F.

AU - Nenes, Athanasios

AU - Duce, Robert A.

PY - 2019

Y1 - 2019

N2 - Atmospheric deposition is a source of potentially bioavailable iron (Fe) and thus can partially control biological productivity in large parts of the ocean. However, the explanation of observed high aerosol Fe solubility compared to that in soil particles is still controversial, as several hypotheses have been proposed to explain this observation. Here, a statistical analysis of aerosol Fe solubility estimated from four models and observations compiled frommultiple field campaigns suggests that pyrogenic aerosols are themain sources of aerosolswith high Fe solubility at low concentration. Additionally, we find that field data over the Southern Ocean display a much wider range in aerosol Fe solubility compared to the models, which indicate an underestimation of labile Fe concentrations by a factor of 15. These findings suggest that pyrogenic Fe-containing aerosols are important sources of atmospheric bioavailable Fe to the open ocean and crucial for predicting anthropogenic perturbations to marine productivity.

AB - Atmospheric deposition is a source of potentially bioavailable iron (Fe) and thus can partially control biological productivity in large parts of the ocean. However, the explanation of observed high aerosol Fe solubility compared to that in soil particles is still controversial, as several hypotheses have been proposed to explain this observation. Here, a statistical analysis of aerosol Fe solubility estimated from four models and observations compiled frommultiple field campaigns suggests that pyrogenic aerosols are themain sources of aerosolswith high Fe solubility at low concentration. Additionally, we find that field data over the Southern Ocean display a much wider range in aerosol Fe solubility compared to the models, which indicate an underestimation of labile Fe concentrations by a factor of 15. These findings suggest that pyrogenic Fe-containing aerosols are important sources of atmospheric bioavailable Fe to the open ocean and crucial for predicting anthropogenic perturbations to marine productivity.

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DO - 10.1126/sciadv.aau7671

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AN - SCOPUS:85065589706

SN - 2375-2548

VL - 5

JO - Science Advances

JF - Science Advances

IS - 5

M1 - eaau7671

ER -

Pyrogenic iron: The missing link to high iron solubility in aerosols

Abstract

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