Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone.
This thesis summarizes the Marginal Ice Zone Experiment (MIZEX-83) conducted in the Arctic during the summer of 1983 and describes the mesoscale features and atmospheric refraction conditions. The three case studies examined are: warm air advection over dense pack ice causing strong elevated ducting...
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1984
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| Online Access: | http://www.dtic.mil/docs/citations/ADA155139 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA155139 |
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ftdtic:ADA155139 2023-05-15T14:54:43+02:00 Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. McNitt,J A NAVAL POSTGRADUATE SCHOOL MONTEREY CA 1984-12 text/html http://www.dtic.mil/docs/citations/ADA155139 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA155139 en eng http://www.dtic.mil/docs/citations/ADA155139 APPROVED FOR PUBLIC RELEASE DTIC AND NTIS Atmospheric Physics *ATMOSPHERIC REFRACTION *PACK ICE CLOUDS LOW TEMPERATURE STABILITY AIR LAYERS AIR FLOW THESES BOUNDARY LAYER CONVECTION TRAPPING(CHARGED PARTICLES) SURFACES CASE STUDIES ICE IMAGES DUCTS HIGH DENSITY ARTIFICIAL SATELLITES MIXING INVERSION VALUE REFRACTION LOW STRENGTH ADVECTION HEIGHT ENTRAINMENT OPEN WATER ARCTIC REGIONS GREENLAND SEA EAST(DIRECTION) CONVECTION(ATMOSPHERIC) QUADRANTS SHALLOW DEPTH MIZE(Marginal Ice Zone Experiment) MIZEX-83 project Atmospheric ducts Atmospheric boundary layer Text 1984 ftdtic 2016-02-21T00:27:12Z This thesis summarizes the Marginal Ice Zone Experiment (MIZEX-83) conducted in the Arctic during the summer of 1983 and describes the mesoscale features and atmospheric refraction conditions. The three case studies examined are: warm air advection over dense pack ice causing strong elevated ducting and subrefraction; cold air advection over relatively open water causing shallow convection and normal refraction conditions; and large scale subsidence in the western quadrants of an anticyclone leading to super-refraction and weak ducting. Developing synoptic scale cyclones adjacent to the MIZEX-83 area often determined the airflow over the region. The observed large horizontal sea surface temperature gradients were the dominant forcing mechanisms on surface layer stability. Trapping layers associated with subsidence inversions can be located on satellite imagery by assuming that stratiform clouds form immediately below the inversion. Uniform cloud and refraction layers were not common during MIZEX-83 due to strong mesoscale variability. Factors affecting inversion height include subsidence and entrainment mixing. Bulk Richardson number value for locations over the open water and pack ice show significant variability in stability conditions across the MIZ. Keywords: Fram Strait; East Greenland Sea; ABL mixing; and Atmospheric boundary layer. Text Arctic East Greenland Fram Strait Greenland Greenland Sea Defense Technical Information Center: DTIC Technical Reports database Arctic Greenland |
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Open Polar |
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Defense Technical Information Center: DTIC Technical Reports database |
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ftdtic |
| language |
English |
| topic |
Atmospheric Physics *ATMOSPHERIC REFRACTION *PACK ICE CLOUDS LOW TEMPERATURE STABILITY AIR LAYERS AIR FLOW THESES BOUNDARY LAYER CONVECTION TRAPPING(CHARGED PARTICLES) SURFACES CASE STUDIES ICE IMAGES DUCTS HIGH DENSITY ARTIFICIAL SATELLITES MIXING INVERSION VALUE REFRACTION LOW STRENGTH ADVECTION HEIGHT ENTRAINMENT OPEN WATER ARCTIC REGIONS GREENLAND SEA EAST(DIRECTION) CONVECTION(ATMOSPHERIC) QUADRANTS SHALLOW DEPTH MIZE(Marginal Ice Zone Experiment) MIZEX-83 project Atmospheric ducts Atmospheric boundary layer |
| spellingShingle |
Atmospheric Physics *ATMOSPHERIC REFRACTION *PACK ICE CLOUDS LOW TEMPERATURE STABILITY AIR LAYERS AIR FLOW THESES BOUNDARY LAYER CONVECTION TRAPPING(CHARGED PARTICLES) SURFACES CASE STUDIES ICE IMAGES DUCTS HIGH DENSITY ARTIFICIAL SATELLITES MIXING INVERSION VALUE REFRACTION LOW STRENGTH ADVECTION HEIGHT ENTRAINMENT OPEN WATER ARCTIC REGIONS GREENLAND SEA EAST(DIRECTION) CONVECTION(ATMOSPHERIC) QUADRANTS SHALLOW DEPTH MIZE(Marginal Ice Zone Experiment) MIZEX-83 project Atmospheric ducts Atmospheric boundary layer McNitt,J A Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. |
| topic_facet |
Atmospheric Physics *ATMOSPHERIC REFRACTION *PACK ICE CLOUDS LOW TEMPERATURE STABILITY AIR LAYERS AIR FLOW THESES BOUNDARY LAYER CONVECTION TRAPPING(CHARGED PARTICLES) SURFACES CASE STUDIES ICE IMAGES DUCTS HIGH DENSITY ARTIFICIAL SATELLITES MIXING INVERSION VALUE REFRACTION LOW STRENGTH ADVECTION HEIGHT ENTRAINMENT OPEN WATER ARCTIC REGIONS GREENLAND SEA EAST(DIRECTION) CONVECTION(ATMOSPHERIC) QUADRANTS SHALLOW DEPTH MIZE(Marginal Ice Zone Experiment) MIZEX-83 project Atmospheric ducts Atmospheric boundary layer |
| description |
This thesis summarizes the Marginal Ice Zone Experiment (MIZEX-83) conducted in the Arctic during the summer of 1983 and describes the mesoscale features and atmospheric refraction conditions. The three case studies examined are: warm air advection over dense pack ice causing strong elevated ducting and subrefraction; cold air advection over relatively open water causing shallow convection and normal refraction conditions; and large scale subsidence in the western quadrants of an anticyclone leading to super-refraction and weak ducting. Developing synoptic scale cyclones adjacent to the MIZEX-83 area often determined the airflow over the region. The observed large horizontal sea surface temperature gradients were the dominant forcing mechanisms on surface layer stability. Trapping layers associated with subsidence inversions can be located on satellite imagery by assuming that stratiform clouds form immediately below the inversion. Uniform cloud and refraction layers were not common during MIZEX-83 due to strong mesoscale variability. Factors affecting inversion height include subsidence and entrainment mixing. Bulk Richardson number value for locations over the open water and pack ice show significant variability in stability conditions across the MIZ. Keywords: Fram Strait; East Greenland Sea; ABL mixing; and Atmospheric boundary layer. |
| author2 |
NAVAL POSTGRADUATE SCHOOL MONTEREY CA |
| format |
Text |
| author |
McNitt,J A |
| author_facet |
McNitt,J A |
| author_sort |
McNitt,J A |
| title |
Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. |
| title_short |
Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. |
| title_full |
Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. |
| title_fullStr |
Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. |
| title_full_unstemmed |
Mesoscale Features and Atmospheric Refraction Conditions of the Arctic Marginal Ice Zone. |
| title_sort |
mesoscale features and atmospheric refraction conditions of the arctic marginal ice zone. |
| publishDate |
1984 |
| url |
http://www.dtic.mil/docs/citations/ADA155139 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA155139 |
| geographic |
Arctic Greenland |
| geographic_facet |
Arctic Greenland |
| genre |
Arctic East Greenland Fram Strait Greenland Greenland Sea |
| genre_facet |
Arctic East Greenland Fram Strait Greenland Greenland Sea |
| op_source |
DTIC AND NTIS |
| op_relation |
http://www.dtic.mil/docs/citations/ADA155139 |
| op_rights |
APPROVED FOR PUBLIC RELEASE |
| _version_ |
1766326478827421696 |