Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem

Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem

Sea salt aerosol (SSA) is one of the major components of primary aerosols and has significant impact on the formation of secondary inorganic particles mass on a global scale. In this study, the fully online coupled WRF-Chem model was utilized to evaluate the SSA emission scheme and its influence...

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Main Authors: Y. Chen, Y. Cheng, N. Ma, R. Wolke, S. Nordmann, S. Schüttauf, L. Ran, B. Wehner, W. Birmili, H. A. C. D. van der Gon, Q. Mu, S. Barthel, G. Spindler, B. Stieger, K. Müller, G.-J. Zheng, U. Pöschl, H. Su, A. Wiedensohler
Format: Article
Language:English
Published: Copernicus Publications 2016-09-01
Series:Atmospheric Chemistry and Physics
Online Access:https://www.atmos-chem-phys.net/16/12081/2016/acp-16-12081-2016.pdf
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author Y. Chen
Y. Chen
Y. Cheng
N. Ma
N. Ma
R. Wolke
S. Nordmann
S. Schüttauf
L. Ran
B. Wehner
W. Birmili
W. Birmili
H. A. C. D. van der Gon
Q. Mu
S. Barthel
G. Spindler
B. Stieger
K. Müller
G.-J. Zheng
U. Pöschl
H. Su
A. Wiedensohler
spellingShingle Y. Chen
Y. Chen
Y. Cheng
N. Ma
N. Ma
R. Wolke
S. Nordmann
S. Schüttauf
L. Ran
B. Wehner
W. Birmili
W. Birmili
H. A. C. D. van der Gon
Q. Mu
S. Barthel
G. Spindler
B. Stieger
K. Müller
G.-J. Zheng
U. Pöschl
H. Su
A. Wiedensohler
Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem
Atmospheric Chemistry and Physics
author_facet Y. Chen
Y. Chen
Y. Cheng
N. Ma
N. Ma
R. Wolke
S. Nordmann
S. Schüttauf
L. Ran
B. Wehner
W. Birmili
W. Birmili
H. A. C. D. van der Gon
Q. Mu
S. Barthel
G. Spindler
B. Stieger
K. Müller
G.-J. Zheng
U. Pöschl
H. Su
A. Wiedensohler
author_sort Y. Chen
title Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem
title_short Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem
title_full Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem
title_fullStr Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem
title_full_unstemmed Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-Chem
title_sort sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern europe by wrf-chem
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2016-09-01
description Sea salt aerosol (SSA) is one of the major components of primary aerosols and has significant impact on the formation of secondary inorganic particles mass on a global scale. In this study, the fully online coupled WRF-Chem model was utilized to evaluate the SSA emission scheme and its influence on the nitrate simulation in a case study in Europe during 10–20 September 2013. Meteorological conditions near the surface, wind pattern and thermal stratification structure were well reproduced by the model. Nonetheless, the coarse-mode (PM<sub>1 − 10</sub>) particle mass concentration was substantially overestimated due to the overestimation of SSA and nitrate. Compared to filter measurements at four EMEP stations (coastal stations: Bilthoven, Kollumerwaard and Vredepeel; inland station: Melpitz), the model overestimated SSA concentrations by a factor of 8–20. We found that this overestimation was mainly caused by overestimated SSA emissions over the North Sea during 16–20 September. Over the coastal regions, SSA was injected into the continental free troposphere through an “aloft bridge” (about 500 to 1000 m above the ground), a result of the different thermodynamic properties and planetary boundary layer (PBL) structure between continental and marine regions. The injected SSA was further transported inland and mixed downward to the surface through downdraft and PBL turbulence. This process extended the influence of SSA to a larger downwind region, leading, for example, to an overestimation of SSA at Melpitz, Germany, by a factor of  ∼  20. As a result, the nitrate partitioning fraction (ratio between particulate nitrate and the summation of particulate nitrate and gas-phase nitric acid) increased by about 20 % for the coarse-mode nitrate due to the overestimation of SSA at Melpitz. However, no significant difference in the partitioning fraction for the fine-mode nitrate was found. About 140 % overestimation of the coarse-mode nitrate resulted from the influence of SSA at Melpitz. In contrast, the overestimation of SSA inhibited the nitrate particle formation in the fine mode by about 20 % because of the increased consumption of precursor by coarse-mode nitrate formation.
url https://www.atmos-chem-phys.net/16/12081/2016/acp-16-12081-2016.pdf
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spelling doaj-4805fa4d0a414cf3a6ec8a5d578fe0b72020-11-24T22:54:14ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242016-09-0116120811209710.5194/acp-16-12081-2016Sea salt emission, transport and influence on size-segregated nitrate simulation: a case study in northwestern Europe by WRF-ChemY. Chen0Y. Chen1Y. Cheng2N. Ma3N. Ma4R. Wolke5S. Nordmann6S. Schüttauf7L. Ran8B. Wehner9W. Birmili10W. Birmili11H. A. C. D. van der Gon12Q. Mu13S. Barthel14G. Spindler15B. Stieger16K. Müller17G.-J. Zheng18U. Pöschl19H. Su20A. Wiedensohler21Leibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyMultiphase Chemistry Department, Max Planck Institute for Chemistry, 55128 Mainz, GermanyMultiphase Chemistry Department, Max Planck Institute for Chemistry, 55128 Mainz, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyMultiphase Chemistry Department, Max Planck Institute for Chemistry, 55128 Mainz, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyGerman Environment Agency, 06844 Dessau-Roßlau, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyKey Laboratory of Middle Atmosphere and Global Environment Observation, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, 100029, ChinaLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyGerman Environment Agency, 06844 Dessau-Roßlau, GermanyDept. of Climate, Air and Sustainability, TNO, Princetonlaan 6, 3584 CB Utrecht, the NetherlandsMultiphase Chemistry Department, Max Planck Institute for Chemistry, 55128 Mainz, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanyState Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University, Beijing 100084, ChinaMultiphase Chemistry Department, Max Planck Institute for Chemistry, 55128 Mainz, GermanyMultiphase Chemistry Department, Max Planck Institute for Chemistry, 55128 Mainz, GermanyLeibniz Institute for Tropospheric Research, 04318 Leipzig, GermanySea salt aerosol (SSA) is one of the major components of primary aerosols and has significant impact on the formation of secondary inorganic particles mass on a global scale. In this study, the fully online coupled WRF-Chem model was utilized to evaluate the SSA emission scheme and its influence on the nitrate simulation in a case study in Europe during 10–20 September 2013. Meteorological conditions near the surface, wind pattern and thermal stratification structure were well reproduced by the model. Nonetheless, the coarse-mode (PM<sub>1 − 10</sub>) particle mass concentration was substantially overestimated due to the overestimation of SSA and nitrate. Compared to filter measurements at four EMEP stations (coastal stations: Bilthoven, Kollumerwaard and Vredepeel; inland station: Melpitz), the model overestimated SSA concentrations by a factor of 8–20. We found that this overestimation was mainly caused by overestimated SSA emissions over the North Sea during 16–20 September. Over the coastal regions, SSA was injected into the continental free troposphere through an “aloft bridge” (about 500 to 1000 m above the ground), a result of the different thermodynamic properties and planetary boundary layer (PBL) structure between continental and marine regions. The injected SSA was further transported inland and mixed downward to the surface through downdraft and PBL turbulence. This process extended the influence of SSA to a larger downwind region, leading, for example, to an overestimation of SSA at Melpitz, Germany, by a factor of  ∼  20. As a result, the nitrate partitioning fraction (ratio between particulate nitrate and the summation of particulate nitrate and gas-phase nitric acid) increased by about 20 % for the coarse-mode nitrate due to the overestimation of SSA at Melpitz. However, no significant difference in the partitioning fraction for the fine-mode nitrate was found. About 140 % overestimation of the coarse-mode nitrate resulted from the influence of SSA at Melpitz. In contrast, the overestimation of SSA inhibited the nitrate particle formation in the fine mode by about 20 % because of the increased consumption of precursor by coarse-mode nitrate formation.https://www.atmos-chem-phys.net/16/12081/2016/acp-16-12081-2016.pdf

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