Microwave remote sensing of sea ice

The long term objectives are: (1) to understand the physics of the multispectral microwave radiative characteristics of sea ice as it goes through different phases; (2) to improve characterization of sea ice cover using satellite microwave sensors; and (3) to study ice/ocean physical and biological...

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Bibliographic Details
Main Author: Comiso, J. C.
Format: Other/Unknown Material
Language:unknown
Published: 1988
Subjects:
OCEANOGRAPHY
Arctic
Weddell Sea
Austral
Greenland
Weddell
Pancake
Greenland Sea
ice pack
Sea ice
Online Access:http://hdl.handle.net/2060/19890018777
id ftnasantrs:oai:casi.ntrs.nasa.gov:19890018777
record_format openpolar
spelling ftnasantrs:oai:casi.ntrs.nasa.gov:19890018777 2023-05-15T14:51:52+02:00 Microwave remote sensing of sea ice Comiso, J. C. Unclassified, Unlimited, Publicly available JAN 1, 1988 application/pdf http://hdl.handle.net/2060/19890018777 unknown Document ID: 19890018777 Accession ID: 89N28148 http://hdl.handle.net/2060/19890018777 No Copyright CASI OCEANOGRAPHY Laboratory for Oceans; p 113-115 1988 ftnasantrs 2015-03-15T05:54:30Z The long term objectives are: (1) to understand the physics of the multispectral microwave radiative characteristics of sea ice as it goes through different phases; (2) to improve characterization of sea ice cover using satellite microwave sensors; and (3) to study ice/ocean physical and biological processes associated with polynya formations and variability of the marginal sea ice region. Two field experiments were conducted to pursue these objectives. One involved measurements of radiative and physical characteristics of sea ice from a ship during a 3-month long cruise through the Weddell Sea ice pack during the Austral winter of 1986. The other involved similar measurements from two aircrafts and a submarine over the Central Arctic and Greenland Sea region. Preliminary results have already led to an enhanced understanding of the microwave signatures of pancake ice, nilas, first year ice, multiyear ice and effects of snow cover. Coastal and deep ocean polynyas and their role in bottom water formation and ocean circulation were studied using a time series of ice images from SMMR. An unsupervised cluster analysis of Arctic sea ice using SMMR and THIR emissivity and brightness temperature data was implemented. The analysis indicates the existence of several unique and persistent clusters in the Central Arctic region during winter and that the sum of the area of these clusters excluding those of first year ice is about 20 percent less than minimum ice cover area inferred from a previous summer data. This result is consistent with saline surface for some multiyear ice floes as observed during MIZEZ and suggests that a significant fraction of multiyear ice floes in the Arctic have first year ice signatures. Other/Unknown Material Arctic Greenland Greenland Sea ice pack Sea ice Weddell Sea NASA Technical Reports Server (NTRS) Arctic Weddell Sea Austral Greenland Weddell Pancake ENVELOPE(-55.815,-55.815,52.600,52.600)
institution Open Polar
collection NASA Technical Reports Server (NTRS)
op_collection_id ftnasantrs
language unknown
topic OCEANOGRAPHY
spellingShingle OCEANOGRAPHY
Comiso, J. C.
Microwave remote sensing of sea ice
topic_facet OCEANOGRAPHY
description The long term objectives are: (1) to understand the physics of the multispectral microwave radiative characteristics of sea ice as it goes through different phases; (2) to improve characterization of sea ice cover using satellite microwave sensors; and (3) to study ice/ocean physical and biological processes associated with polynya formations and variability of the marginal sea ice region. Two field experiments were conducted to pursue these objectives. One involved measurements of radiative and physical characteristics of sea ice from a ship during a 3-month long cruise through the Weddell Sea ice pack during the Austral winter of 1986. The other involved similar measurements from two aircrafts and a submarine over the Central Arctic and Greenland Sea region. Preliminary results have already led to an enhanced understanding of the microwave signatures of pancake ice, nilas, first year ice, multiyear ice and effects of snow cover. Coastal and deep ocean polynyas and their role in bottom water formation and ocean circulation were studied using a time series of ice images from SMMR. An unsupervised cluster analysis of Arctic sea ice using SMMR and THIR emissivity and brightness temperature data was implemented. The analysis indicates the existence of several unique and persistent clusters in the Central Arctic region during winter and that the sum of the area of these clusters excluding those of first year ice is about 20 percent less than minimum ice cover area inferred from a previous summer data. This result is consistent with saline surface for some multiyear ice floes as observed during MIZEZ and suggests that a significant fraction of multiyear ice floes in the Arctic have first year ice signatures.
format Other/Unknown Material
author Comiso, J. C.
author_facet Comiso, J. C.
author_sort Comiso, J. C.
title Microwave remote sensing of sea ice
title_short Microwave remote sensing of sea ice
title_full Microwave remote sensing of sea ice
title_fullStr Microwave remote sensing of sea ice
title_full_unstemmed Microwave remote sensing of sea ice
title_sort microwave remote sensing of sea ice
publishDate 1988
url http://hdl.handle.net/2060/19890018777
op_coverage Unclassified, Unlimited, Publicly available
long_lat ENVELOPE(-55.815,-55.815,52.600,52.600)
geographic Arctic
Weddell Sea
Austral
Greenland
Weddell
Pancake
geographic_facet Arctic
Weddell Sea
Austral
Greenland
Weddell
Pancake
genre Arctic
Greenland
Greenland Sea
ice pack
Sea ice
Weddell Sea
genre_facet Arctic
Greenland
Greenland Sea
ice pack
Sea ice
Weddell Sea
op_source CASI
op_relation Document ID: 19890018777
Accession ID: 89N28148
http://hdl.handle.net/2060/19890018777
op_rights No Copyright
_version_ 1766323008221216768

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