Arctic Sea Ice: Using Airborne Topographic Mapper Measurements (ATM) to Determine Sea Ice Thickness

As the earth warms, signs of climate change range from subtle to significant, with the most dramatic alterations occurring in the Arctic. Because the concept of a new, navigable ocean to the north signals complications, the United States Navy is particularly interested in studying the Arctic region...

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Bibliographic Details
Main Author: Brugler, Eric
Other Authors: NAVAL ACADEMY ANNAPOLIS MD DEPT OF OCEANOGRAPHY
Format: Text
Language:English
Published: 2011
Subjects:
Patrol and Reconnaissance Aircraft
Geography
Snow
Ice and Permafrost
*AERIAL RECONNAISSANCE
*ARCTIC OCEAN
*HEIGHT FINDING
*LASER APPLICATIONS
*OVERFLIGHT
*SEA ICE
*THICKNESS
AIRBORNE
ARCTIC REGIONS
ELEVATION
HYDROSTATICS
MAPPING
MEASUREMENT
PATROL AIRCRAFT
REMOTE DETECTION
SYMPOSIA
TOPOGRAPHIC MAPS
*SEA ICE THICKNESS
ICEBRIDGE OPERATION
*AIRBORNE TOPOGRAPHIC MAPPER
*LASER ALTIMETRY
SEA ICE ELEVATION
AERIAL FLIGHTS
P-3B AIRCRAFT
NASA AIRCRAFT
Arctic
Arctic Ocean
Airborne Topographic Mapper
Climate change
Ice
permafrost
Sea ice
Online Access:http://www.dtic.mil/docs/citations/ADA549401
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA549401
Description
Summary:As the earth warms, signs of climate change range from subtle to significant, with the most dramatic alterations occurring in the Arctic. Because the concept of a new, navigable ocean to the north signals complications, the United States Navy is particularly interested in studying the Arctic region so as to project those changes and become better prepared for future operations in this emerging maritime environment. However, a key step in understanding sea ice fluctuation within the Arctic is being able to determine sea ice thickness over a vast area. Thus, obtaining an accurate sea ice thickness measurement for the entire expanse makes tracking further variations and predicting possible changes much easier. As such, this paper aims to look at the steps necessary in determining sea ice thickness based on laser altimetry data gathered during NASA's Operation IceBridge. Using the Airborne Topographic Mapper (ATM), sea ice elevation can be measured from an aircraft flying overhead. From this elevation data, an approximate freeboard is calculated in relation to the earth's geoid model. By determining locations of leads in the ice, further calculations may be performed to get a sea ice freeboard measurement. Then, through the use of the hydrostatic equation, sea ice thickness may be inferred for the region between successive leads. Therefore, flying over a lead in the ice is very important for determining the exact sea ice elevation. This paper outlines the process, approximations, and adjustments necessary to determine sea ice thickness by using laser altimetry measurements of sea ice elevation. Presented at the Symposium on the Impacts of an Ice-Diminishing Arctic on Naval and Maritime Operations (4th) held on June 20-22, 2011.

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