A review of coastal fog microphysics during C-FOG

Our goal is to provide an overview of the microphysical measurements made during the C-FOG (Toward Improving Coastal Fog Prediction) field project. In addition, we evaluate microphysical parametrizations using the C-FOG dataset. The C-FOG project is designed to advance understanding of liquid fog fo...

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Published in:	Boundary-Layer Meteorology
Other Authors:	Gultepe, I. (author), Heymsfield, Andrew J. (author), Fernando, H. J. S. (author), Pardyjak, E. (author), Dorman, C. E. (author), Wang, Q. (author), Creegan, E. (author), Hoch, S. W. (author), Flagg, D. D. (author), Yamaguchi, R. (author), Krishnamurthy, R. (author), GaberÅ¡ek, S. (author), Perrie, W. (author), Perelet, A. (author), Singh, D. K. (author), Chang, R. (author), Nagare, B. (author), Wagh, S. (author), Wang, S. (author)
Format:	Article in Journal/Newspaper
Language:	English
Published:	2021
Subjects:	Newfoundland
Online Access:	https://doi.org/10.1007/s10546-021-00659-5

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spelling	ftncar:oai:drupal-site.org:articles_24859 2024-04-28T08:28:55+00:00 A review of coastal fog microphysics during C-FOG Gultepe, I. (author) Heymsfield, Andrew J. (author) Fernando, H. J. S. (author) Pardyjak, E. (author) Dorman, C. E. (author) Wang, Q. (author) Creegan, E. (author) Hoch, S. W. (author) Flagg, D. D. (author) Yamaguchi, R. (author) Krishnamurthy, R. (author) GaberÅ¡ek, S. (author) Perrie, W. (author) Perelet, A. (author) Singh, D. K. (author) Chang, R. (author) Nagare, B. (author) Wagh, S. (author) Wang, S. (author) 2021-12 https://doi.org/10.1007/s10546-021-00659-5 en eng Boundary-Layer Meteorology--Boundary-Layer Meteorol--0006-8314--1573-1472 articles:24859 doi:10.1007/s10546-021-00659-5 ark:/85065/d790279m Copyright Springer Nature Switzerland article Text 2021 ftncar https://doi.org/10.1007/s10546-021-00659-5 2024-04-04T17:33:50Z Our goal is to provide an overview of the microphysical measurements made during the C-FOG (Toward Improving Coastal Fog Prediction) field project. In addition, we evaluate microphysical parametrizations using the C-FOG dataset. The C-FOG project is designed to advance understanding of liquid fog formation, particularly its development and dissipation in coastal environments, so as to improve fog predictability and monitoring. The project took place along eastern Canada's (Nova Scotia and Newfoundland) coastlines and open water environments from August-October 2018, where environmental conditions play an important role for late-season fog formation. Visibility, wind speed, and atmospheric turbulence along coastlines are the most critical weather-related factors affecting marine transportation and aviation. In the analysis, microphysical observations are summarized first and then, together with three-dimensional wind components, used for fog intensity (visibility) evaluation. Results suggest that detailed microphysical observations collected at the supersites and aboard the Research Vessel Hugh R. Sharp are useful for developing microphysical parametrizations. The fog life cycle and turbulence-kinetic-energy dissipation rate are strongly related to each other. The magnitudes of three-dimensional wind fluctuations are higher during the formation and dissipation stages. An array of cutting-edge instruments used for data collection provides new insight into the variability and intensity of fog (visibility) and microphysics. It is concluded that further modifications in microphysical observations and parametrizations are needed to improve fog predictability of numerical-weather-prediction models. Article in Journal/Newspaper Newfoundland OpenSky (NCAR/UCAR - National Center for Atmospheric Research/University Corporation for Atmospheric Research) Boundary-Layer Meteorology 181 2-3 227 265
institution	Open Polar
collection	OpenSky (NCAR/UCAR - National Center for Atmospheric Research/University Corporation for Atmospheric Research)
op_collection_id	ftncar
language	English
description	Our goal is to provide an overview of the microphysical measurements made during the C-FOG (Toward Improving Coastal Fog Prediction) field project. In addition, we evaluate microphysical parametrizations using the C-FOG dataset. The C-FOG project is designed to advance understanding of liquid fog formation, particularly its development and dissipation in coastal environments, so as to improve fog predictability and monitoring. The project took place along eastern Canada's (Nova Scotia and Newfoundland) coastlines and open water environments from August-October 2018, where environmental conditions play an important role for late-season fog formation. Visibility, wind speed, and atmospheric turbulence along coastlines are the most critical weather-related factors affecting marine transportation and aviation. In the analysis, microphysical observations are summarized first and then, together with three-dimensional wind components, used for fog intensity (visibility) evaluation. Results suggest that detailed microphysical observations collected at the supersites and aboard the Research Vessel Hugh R. Sharp are useful for developing microphysical parametrizations. The fog life cycle and turbulence-kinetic-energy dissipation rate are strongly related to each other. The magnitudes of three-dimensional wind fluctuations are higher during the formation and dissipation stages. An array of cutting-edge instruments used for data collection provides new insight into the variability and intensity of fog (visibility) and microphysics. It is concluded that further modifications in microphysical observations and parametrizations are needed to improve fog predictability of numerical-weather-prediction models.
author2	Gultepe, I. (author) Heymsfield, Andrew J. (author) Fernando, H. J. S. (author) Pardyjak, E. (author) Dorman, C. E. (author) Wang, Q. (author) Creegan, E. (author) Hoch, S. W. (author) Flagg, D. D. (author) Yamaguchi, R. (author) Krishnamurthy, R. (author) GaberÅ¡ek, S. (author) Perrie, W. (author) Perelet, A. (author) Singh, D. K. (author) Chang, R. (author) Nagare, B. (author) Wagh, S. (author) Wang, S. (author)
format	Article in Journal/Newspaper
title	A review of coastal fog microphysics during C-FOG
spellingShingle	A review of coastal fog microphysics during C-FOG
title_short	A review of coastal fog microphysics during C-FOG
title_full	A review of coastal fog microphysics during C-FOG
title_fullStr	A review of coastal fog microphysics during C-FOG
title_full_unstemmed	A review of coastal fog microphysics during C-FOG
title_sort	review of coastal fog microphysics during c-fog
publishDate	2021
url	https://doi.org/10.1007/s10546-021-00659-5
genre	Newfoundland
genre_facet	Newfoundland
op_relation	Boundary-Layer Meteorology--Boundary-Layer Meteorol--0006-8314--1573-1472 articles:24859 doi:10.1007/s10546-021-00659-5 ark:/85065/d790279m
op_rights	Copyright Springer Nature Switzerland
op_doi	https://doi.org/10.1007/s10546-021-00659-5
container_title	Boundary-Layer Meteorology
container_volume	181
container_issue	2-3
container_start_page	227
op_container_end_page	265
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A review of coastal fog microphysics during C-FOG

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