Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods

Mass deposition fluxes of mineral dust to the tropical northeast Atlantic Ocean were determined within this study. In the framework of SOPRAN (Surface Ocean Processes in the Anthropocene), the interaction between the atmosphere and the ocean in terms of material exchange were investigated at the Cap...

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Main Authors: Niedermeier, N., Held, A., Müller, T., Heinold, B., Schepanski, K., Tegen, I., Kandler, K., Ebert, M., Weinbruch, S., Read, K., Lee, J., Fomba, K.W., Müller, K., Herrmann, H., Wiedensohler, A.
Format: Article in Journal/Newspaper
Language:English
Published: München : European Geopyhsical Union 2014
Subjects:
anemometer
atmospheric deposition
atmospheric transport
dry deposition
dust
particle size
photometer
remote sensing
size distribution
wet deposition
550
Northeast Atlantic
Online Access:https://doi.org/10.34657/1074
https://oa.tib.eu/renate/handle/123456789/706
id ftleibnizopen:oai:oai.leibnizopen.de:QdpQoYoBbHMkKcxz1RM6
record_format openpolar
spelling ftleibnizopen:oai:oai.leibnizopen.de:QdpQoYoBbHMkKcxz1RM6 2023-10-09T21:54:20+02:00 Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods Niedermeier, N. Held, A. Müller, T. Heinold, B. Schepanski, K. Tegen, I. Kandler, K. Ebert, M. Weinbruch, S. Read, K. Lee, J. Fomba, K.W. Müller, K. Herrmann, H. Wiedensohler, A. 2014 application/pdf https://doi.org/10.34657/1074 https://oa.tib.eu/renate/handle/123456789/706 eng eng München : European Geopyhsical Union CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ Atmospheric Chemistry and Physics, Volume 14, Issue 5, Page 2245-2266 anemometer atmospheric deposition atmospheric transport dry deposition dust particle size photometer remote sensing size distribution wet deposition 550 article Text 2014 ftleibnizopen https://doi.org/10.34657/1074 2023-09-17T23:19:09Z Mass deposition fluxes of mineral dust to the tropical northeast Atlantic Ocean were determined within this study. In the framework of SOPRAN (Surface Ocean Processes in the Anthropocene), the interaction between the atmosphere and the ocean in terms of material exchange were investigated at the Cape Verde atmospheric observatory (CVAO) on the island Sao Vicente for January 2009. Five different methods were applied to estimate the deposition flux, using different meteorological and physical measurements, remote sensing, and regional dust transport simulations. The set of observations comprises micrometeorological measurements with an ultra-sonic anemometer and profile measurements using 2-D anemometers at two different heights, and microphysical measurements of the size-resolved mass concentrations of mineral dust. In addition, the total mass concentration of mineral dust was derived from absorption photometer observations and passive sampling. The regional dust model COSMO-MUSCAT was used for simulations of dust emission and transport, including dry and wet deposition processes. This model was used as it describes the AOD's and mass concentrations realistic compared to the measurements and because it was run for the time period of the measurements. The four observation-based methods yield a monthly average deposition flux of mineral dust of 12–29 ng m−2 s−1. The simulation results come close to the upper range of the measurements with an average value of 47 ng m−2 s−1. It is shown that the mass deposition flux of mineral dust obtained by the combination of micrometeorological (ultra-sonic anemometer) and microphysical measurements (particle mass size distribution of mineral dust) is difficult to compare to modeled mass deposition fluxes when the mineral dust is inhomogeneously distributed over the investigated area. publishedVersion Article in Journal/Newspaper Northeast Atlantic LeibnizOpen (The Leibniz Association)
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic anemometer
atmospheric deposition
atmospheric transport
dry deposition
dust
particle size
photometer
remote sensing
size distribution
wet deposition
550
spellingShingle anemometer
atmospheric deposition
atmospheric transport
dry deposition
dust
particle size
photometer
remote sensing
size distribution
wet deposition
550
Niedermeier, N.
Held, A.
Müller, T.
Heinold, B.
Schepanski, K.
Tegen, I.
Kandler, K.
Ebert, M.
Weinbruch, S.
Read, K.
Lee, J.
Fomba, K.W.
Müller, K.
Herrmann, H.
Wiedensohler, A.
Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods
topic_facet anemometer
atmospheric deposition
atmospheric transport
dry deposition
dust
particle size
photometer
remote sensing
size distribution
wet deposition
550
description Mass deposition fluxes of mineral dust to the tropical northeast Atlantic Ocean were determined within this study. In the framework of SOPRAN (Surface Ocean Processes in the Anthropocene), the interaction between the atmosphere and the ocean in terms of material exchange were investigated at the Cape Verde atmospheric observatory (CVAO) on the island Sao Vicente for January 2009. Five different methods were applied to estimate the deposition flux, using different meteorological and physical measurements, remote sensing, and regional dust transport simulations. The set of observations comprises micrometeorological measurements with an ultra-sonic anemometer and profile measurements using 2-D anemometers at two different heights, and microphysical measurements of the size-resolved mass concentrations of mineral dust. In addition, the total mass concentration of mineral dust was derived from absorption photometer observations and passive sampling. The regional dust model COSMO-MUSCAT was used for simulations of dust emission and transport, including dry and wet deposition processes. This model was used as it describes the AOD's and mass concentrations realistic compared to the measurements and because it was run for the time period of the measurements. The four observation-based methods yield a monthly average deposition flux of mineral dust of 12–29 ng m−2 s−1. The simulation results come close to the upper range of the measurements with an average value of 47 ng m−2 s−1. It is shown that the mass deposition flux of mineral dust obtained by the combination of micrometeorological (ultra-sonic anemometer) and microphysical measurements (particle mass size distribution of mineral dust) is difficult to compare to modeled mass deposition fluxes when the mineral dust is inhomogeneously distributed over the investigated area. publishedVersion
format Article in Journal/Newspaper
author Niedermeier, N.
Held, A.
Müller, T.
Heinold, B.
Schepanski, K.
Tegen, I.
Kandler, K.
Ebert, M.
Weinbruch, S.
Read, K.
Lee, J.
Fomba, K.W.
Müller, K.
Herrmann, H.
Wiedensohler, A.
author_facet Niedermeier, N.
Held, A.
Müller, T.
Heinold, B.
Schepanski, K.
Tegen, I.
Kandler, K.
Ebert, M.
Weinbruch, S.
Read, K.
Lee, J.
Fomba, K.W.
Müller, K.
Herrmann, H.
Wiedensohler, A.
author_sort Niedermeier, N.
title Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods
title_short Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods
title_full Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods
title_fullStr Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods
title_full_unstemmed Mass deposition fluxes of Saharan mineral dust to the tropical northeast Atlantic Ocean: An intercomparison of methods
title_sort mass deposition fluxes of saharan mineral dust to the tropical northeast atlantic ocean: an intercomparison of methods
publisher München : European Geopyhsical Union
publishDate 2014
url https://doi.org/10.34657/1074
https://oa.tib.eu/renate/handle/123456789/706
genre Northeast Atlantic
genre_facet Northeast Atlantic
op_source Atmospheric Chemistry and Physics, Volume 14, Issue 5, Page 2245-2266
op_rights CC BY 3.0 Unported
https://creativecommons.org/licenses/by/3.0/
op_doi https://doi.org/10.34657/1074
_version_ 1779317867768971264

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