Modeling the global emission, transport and deposition of trace elements associated with mineral dust

Trace element deposition from desert dust has important impacts on ocean primary productivity, the quantification of which could be useful in determining the magnitude and sign of the biogeochemical feedback on radiative forcing. However, the impact of elemental deposition to remote ocean regions is...

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Main Authors: Zhang, Y., Mahowald, N., Scanza, R.A., Journet, E., Desboeufs, K., Albani, S., Kok, J.F., Zhuang, G., Chen, Y., Cohen, D.D., Paytan, A., Patey, M.D., Achterberg, E.P., Engelbrecht, J.P., Fomba, K.W.
Format: Article in Journal/Newspaper
Language:English
Published: München : European Geopyhsical Union 2015
Subjects:
concentration (composition)
data set
database
dust
emission inventory
global ocean
ice sheet
primary production
radiative forcing
trace element
uncertainty analysis
ddc:550
Ice Sheet
Online Access:https://oa.tib.eu/renate/handle/123456789/818
https://doi.org/10.34657/1090
id fttibhannoverren:oai:oa.tib.eu:123456789/818
record_format openpolar
spelling fttibhannoverren:oai:oa.tib.eu:123456789/818 2023-07-30T04:04:13+02:00 Modeling the global emission, transport and deposition of trace elements associated with mineral dust Zhang, Y. Mahowald, N. Scanza, R.A. Journet, E. Desboeufs, K. Albani, S. Kok, J.F. Zhuang, G. Chen, Y. Cohen, D.D. Paytan, A. Patey, M.D. Achterberg, E.P. Engelbrecht, J.P. Fomba, K.W. 2015 application/pdf https://oa.tib.eu/renate/handle/123456789/818 https://doi.org/10.34657/1090 eng eng München : European Geopyhsical Union DOI:https://doi.org/10.5194/bg-12-5771-2015 https://doi.org/10.34657/1090 https://oa.tib.eu/renate/handle/123456789/818 CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ frei zugänglich Biogeosciences, Volume 12, Issue 19, Page 5771-5792 concentration (composition) data set database dust emission inventory global ocean ice sheet primary production radiative forcing trace element uncertainty analysis ddc:550 status-type:publishedVersion doc-type:article doc-type:Text 2015 fttibhannoverren https://doi.org/10.34657/109010.5194/bg-12-5771-2015 2023-07-10T16:19:26Z Trace element deposition from desert dust has important impacts on ocean primary productivity, the quantification of which could be useful in determining the magnitude and sign of the biogeochemical feedback on radiative forcing. However, the impact of elemental deposition to remote ocean regions is not well understood and is not currently included in global climate models. In this study, emission inventories for eight elements primarily of soil origin, Mg, P, Ca, Mn, Fe, K, Al, and Si are determined based on a global mineral data set and a soil data set. The resulting elemental fractions are used to drive the desert dust model in the Community Earth System Model (CESM) in order to simulate the elemental concentrations of atmospheric dust. Spatial variability of mineral dust elemental fractions is evident on a global scale, particularly for Ca. Simulations of global variations in the Ca / Al ratio, which typically range from around 0.1 to 5.0 in soils, are consistent with observations, suggesting that this ratio is a good signature for dust source regions. The simulated variable fractions of chemical elements are sufficiently different; estimates of deposition should include elemental variations, especially for Ca, Al and Fe. The model results have been evaluated with observations of elemental aerosol concentrations from desert regions and dust events in non-dust regions, providing insights into uncertainties in the modeling approach. The ratios between modeled and observed elemental fractions range from 0.7 to 1.6, except for Mg and Mn (3.4 and 3.5, respectively). Using the soil database improves the correspondence of the spatial heterogeneity in the modeling of several elements (Ca, Al and Fe) compared to observations. Total and soluble dust element fluxes to different ocean basins and ice sheet regions have been estimated, based on the model results. The annual inputs of soluble Mg, P, Ca, Mn, Fe and K associated with dust using the mineral data set are 0.30 Tg, 16.89 Gg, 1.32 Tg, 22.84 Gg, 0.068 Tg, and 0.15 ... Article in Journal/Newspaper Ice Sheet Renate - Repositorium für Naturwissenschaften und Technik (TIB Hannover)
institution Open Polar
collection Renate - Repositorium für Naturwissenschaften und Technik (TIB Hannover)
op_collection_id fttibhannoverren
language English
topic concentration (composition)
data set
database
dust
emission inventory
global ocean
ice sheet
primary production
radiative forcing
trace element
uncertainty analysis
ddc:550
spellingShingle concentration (composition)
data set
database
dust
emission inventory
global ocean
ice sheet
primary production
radiative forcing
trace element
uncertainty analysis
ddc:550
Zhang, Y.
Mahowald, N.
Scanza, R.A.
Journet, E.
Desboeufs, K.
Albani, S.
Kok, J.F.
Zhuang, G.
Chen, Y.
Cohen, D.D.
Paytan, A.
Patey, M.D.
Achterberg, E.P.
Engelbrecht, J.P.
Fomba, K.W.
Modeling the global emission, transport and deposition of trace elements associated with mineral dust
topic_facet concentration (composition)
data set
database
dust
emission inventory
global ocean
ice sheet
primary production
radiative forcing
trace element
uncertainty analysis
ddc:550
description Trace element deposition from desert dust has important impacts on ocean primary productivity, the quantification of which could be useful in determining the magnitude and sign of the biogeochemical feedback on radiative forcing. However, the impact of elemental deposition to remote ocean regions is not well understood and is not currently included in global climate models. In this study, emission inventories for eight elements primarily of soil origin, Mg, P, Ca, Mn, Fe, K, Al, and Si are determined based on a global mineral data set and a soil data set. The resulting elemental fractions are used to drive the desert dust model in the Community Earth System Model (CESM) in order to simulate the elemental concentrations of atmospheric dust. Spatial variability of mineral dust elemental fractions is evident on a global scale, particularly for Ca. Simulations of global variations in the Ca / Al ratio, which typically range from around 0.1 to 5.0 in soils, are consistent with observations, suggesting that this ratio is a good signature for dust source regions. The simulated variable fractions of chemical elements are sufficiently different; estimates of deposition should include elemental variations, especially for Ca, Al and Fe. The model results have been evaluated with observations of elemental aerosol concentrations from desert regions and dust events in non-dust regions, providing insights into uncertainties in the modeling approach. The ratios between modeled and observed elemental fractions range from 0.7 to 1.6, except for Mg and Mn (3.4 and 3.5, respectively). Using the soil database improves the correspondence of the spatial heterogeneity in the modeling of several elements (Ca, Al and Fe) compared to observations. Total and soluble dust element fluxes to different ocean basins and ice sheet regions have been estimated, based on the model results. The annual inputs of soluble Mg, P, Ca, Mn, Fe and K associated with dust using the mineral data set are 0.30 Tg, 16.89 Gg, 1.32 Tg, 22.84 Gg, 0.068 Tg, and 0.15 ...
format Article in Journal/Newspaper
author Zhang, Y.
Mahowald, N.
Scanza, R.A.
Journet, E.
Desboeufs, K.
Albani, S.
Kok, J.F.
Zhuang, G.
Chen, Y.
Cohen, D.D.
Paytan, A.
Patey, M.D.
Achterberg, E.P.
Engelbrecht, J.P.
Fomba, K.W.
author_facet Zhang, Y.
Mahowald, N.
Scanza, R.A.
Journet, E.
Desboeufs, K.
Albani, S.
Kok, J.F.
Zhuang, G.
Chen, Y.
Cohen, D.D.
Paytan, A.
Patey, M.D.
Achterberg, E.P.
Engelbrecht, J.P.
Fomba, K.W.
author_sort Zhang, Y.
title Modeling the global emission, transport and deposition of trace elements associated with mineral dust
title_short Modeling the global emission, transport and deposition of trace elements associated with mineral dust
title_full Modeling the global emission, transport and deposition of trace elements associated with mineral dust
title_fullStr Modeling the global emission, transport and deposition of trace elements associated with mineral dust
title_full_unstemmed Modeling the global emission, transport and deposition of trace elements associated with mineral dust
title_sort modeling the global emission, transport and deposition of trace elements associated with mineral dust
publisher München : European Geopyhsical Union
publishDate 2015
url https://oa.tib.eu/renate/handle/123456789/818
https://doi.org/10.34657/1090
genre Ice Sheet
genre_facet Ice Sheet
op_source Biogeosciences, Volume 12, Issue 19, Page 5771-5792
op_relation DOI:https://doi.org/10.5194/bg-12-5771-2015
https://doi.org/10.34657/1090
https://oa.tib.eu/renate/handle/123456789/818
op_rights CC BY 3.0 Unported
https://creativecommons.org/licenses/by/3.0/
frei zugänglich
op_doi https://doi.org/10.34657/109010.5194/bg-12-5771-2015
_version_ 1772815467958763520

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