Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust

Iceland is a highly active source of natural dust. Icelandic dust has the potential to affect directly the climate via dust-radiation interaction, and indirectly via dust-cloud interaction, snow/ice albedo effect and impacts on biogeochemical cycles. The impacts of Icelandic dust depend on its miner...

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Main Authors: Baldo, Clarissa, Formenti, Paola, Nowak, Sophie, Chevaillier, Servanne, Cazaunau, Mathieu, Pangui, Edouard, Biagio, Claudia, Doussin, Jean-Francois, Ignatyev, Konstantin, Dagsson Waldhauserova, Pavla, Arnalds, Olafur, MacKenzie, A. Robert, Shi, Zongbo
Format: Text
Language:English
Published: 2020
Subjects:
Iceland
North Atlantic
Online Access:https://doi.org/10.5194/acp-2020-437
https://www.atmos-chem-phys-discuss.net/acp-2020-437/
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spelling ftcopernicus:oai:publications.copernicus.org:acpd85492 2023-05-15T16:53:02+02:00 Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust Baldo, Clarissa Formenti, Paola Nowak, Sophie Chevaillier, Servanne Cazaunau, Mathieu Pangui, Edouard Biagio, Claudia Doussin, Jean-Francois Ignatyev, Konstantin Dagsson Waldhauserova, Pavla Arnalds, Olafur MacKenzie, A. Robert Shi, Zongbo 2020-06-09 application/pdf https://doi.org/10.5194/acp-2020-437 https://www.atmos-chem-phys-discuss.net/acp-2020-437/ eng eng doi:10.5194/acp-2020-437 https://www.atmos-chem-phys-discuss.net/acp-2020-437/ eISSN: 1680-7324 Text 2020 ftcopernicus https://doi.org/10.5194/acp-2020-437 2020-06-15T16:22:03Z Iceland is a highly active source of natural dust. Icelandic dust has the potential to affect directly the climate via dust-radiation interaction, and indirectly via dust-cloud interaction, snow/ice albedo effect and impacts on biogeochemical cycles. The impacts of Icelandic dust depend on its mineralogical and chemical composition. However, lack of data has prevented an accurate assessment of the role of Icelandic dust in the Earth system. Here, we collected surface sediment samples from five major Icelandic dust hotspots. Dust aerosols were generated and suspended in atmospheric chambers, and PM 10 and PM 20 fractions were collected for further analysis. We found that the dust samples primarily consist of amorphous basaltic material ranging from 8 wt% (from the Hagavatn hotspot) to 60–90 wt% (other hotspots). Samples had relatively high total Fe content (10–13 wt%). Sequential extraction of Fe to determine its chemical form shows that dithionite Fe (Fe oxides such as hematite and goethite) and ascorbate Fe (amorphous Fe) contribute respectively 1–6 %, and 0.3–1.4 % of the total Fe in Icelandic dust. The magnetite fraction is 7–15 % of total Fe and 1–2 wt% of PM 10 , which is orders of magnitude higher than in mineral dust from North Africa. Nevertheless, about 80–90 % of the Fe is contained in pyroxene and amorphous glass. The initial Fe solubility (ammonium acetate extraction at pH 4.7) is from 0.08–0.6 %, which is comparable to low latitude dust such as that from North Africa. The Fe solubility at low pH (i.e., 2) is significantly higher than typical low latitude dust (up to 30 % at pH 2 after 72 hrs). Our results revealed the fundamental differences in composition and mineralogy of Icelandic dust from low latitude dust. We attribute these differences to the low degree of chemical weathering, the basaltic composition of the parent sediments, and glacial processes. Icelandic dust contributes to the atmospheric deposition of soluble Fe and can impact primary productivity in the North Atlantic Ocean. The distinct chemical and mineralogical composition, particularly the high magnetite content (1–2 wt%), indicates a potentially significant impact of Icelandic dust on the radiation balance in the sub-polar and polar regions. Text Iceland North Atlantic Copernicus Publications: E-Journals
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Iceland is a highly active source of natural dust. Icelandic dust has the potential to affect directly the climate via dust-radiation interaction, and indirectly via dust-cloud interaction, snow/ice albedo effect and impacts on biogeochemical cycles. The impacts of Icelandic dust depend on its mineralogical and chemical composition. However, lack of data has prevented an accurate assessment of the role of Icelandic dust in the Earth system. Here, we collected surface sediment samples from five major Icelandic dust hotspots. Dust aerosols were generated and suspended in atmospheric chambers, and PM 10 and PM 20 fractions were collected for further analysis. We found that the dust samples primarily consist of amorphous basaltic material ranging from 8 wt% (from the Hagavatn hotspot) to 60–90 wt% (other hotspots). Samples had relatively high total Fe content (10–13 wt%). Sequential extraction of Fe to determine its chemical form shows that dithionite Fe (Fe oxides such as hematite and goethite) and ascorbate Fe (amorphous Fe) contribute respectively 1–6 %, and 0.3–1.4 % of the total Fe in Icelandic dust. The magnetite fraction is 7–15 % of total Fe and 1–2 wt% of PM 10 , which is orders of magnitude higher than in mineral dust from North Africa. Nevertheless, about 80–90 % of the Fe is contained in pyroxene and amorphous glass. The initial Fe solubility (ammonium acetate extraction at pH 4.7) is from 0.08–0.6 %, which is comparable to low latitude dust such as that from North Africa. The Fe solubility at low pH (i.e., 2) is significantly higher than typical low latitude dust (up to 30 % at pH 2 after 72 hrs). Our results revealed the fundamental differences in composition and mineralogy of Icelandic dust from low latitude dust. We attribute these differences to the low degree of chemical weathering, the basaltic composition of the parent sediments, and glacial processes. Icelandic dust contributes to the atmospheric deposition of soluble Fe and can impact primary productivity in the North Atlantic Ocean. The distinct chemical and mineralogical composition, particularly the high magnetite content (1–2 wt%), indicates a potentially significant impact of Icelandic dust on the radiation balance in the sub-polar and polar regions.
format Text
author Baldo, Clarissa
Formenti, Paola
Nowak, Sophie
Chevaillier, Servanne
Cazaunau, Mathieu
Pangui, Edouard
Biagio, Claudia
Doussin, Jean-Francois
Ignatyev, Konstantin
Dagsson Waldhauserova, Pavla
Arnalds, Olafur
MacKenzie, A. Robert
Shi, Zongbo
spellingShingle Baldo, Clarissa
Formenti, Paola
Nowak, Sophie
Chevaillier, Servanne
Cazaunau, Mathieu
Pangui, Edouard
Biagio, Claudia
Doussin, Jean-Francois
Ignatyev, Konstantin
Dagsson Waldhauserova, Pavla
Arnalds, Olafur
MacKenzie, A. Robert
Shi, Zongbo
Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust
author_facet Baldo, Clarissa
Formenti, Paola
Nowak, Sophie
Chevaillier, Servanne
Cazaunau, Mathieu
Pangui, Edouard
Biagio, Claudia
Doussin, Jean-Francois
Ignatyev, Konstantin
Dagsson Waldhauserova, Pavla
Arnalds, Olafur
MacKenzie, A. Robert
Shi, Zongbo
author_sort Baldo, Clarissa
title Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust
title_short Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust
title_full Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust
title_fullStr Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust
title_full_unstemmed Distinct chemical and mineralogical composition of Icelandic dust compared to North African and Asian dust
title_sort distinct chemical and mineralogical composition of icelandic dust compared to north african and asian dust
publishDate 2020
url https://doi.org/10.5194/acp-2020-437
https://www.atmos-chem-phys-discuss.net/acp-2020-437/
genre Iceland
North Atlantic
genre_facet Iceland
North Atlantic
op_source eISSN: 1680-7324
op_relation doi:10.5194/acp-2020-437
https://www.atmos-chem-phys-discuss.net/acp-2020-437/
op_doi https://doi.org/10.5194/acp-2020-437
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