Atmospheric Radiation Measurement Program Science Plan
The Atmospheric Radiation Measurement (ARM) Program has matured into one of the key programs in the U.S. Climate Change Science Program. The ARM Program has achieved considerable scientific success in a broad range of activities, including site and instrument development, atmospheric radiative trans...
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ftunivnotexas:info:ark/67531/metadc880738 2023-05-15T17:40:16+02:00 Atmospheric Radiation Measurement Program Science Plan Ackerman, T United States. Department of Energy. Office of Science. 2004-10-31 Text https://doi.org/10.2172/876741 http://digital.library.unt.edu/ark:/67531/metadc880738/ English eng Pacific Northwest National Laboratory (U.S.) rep-no: DOE/ARM-0402 grantno: DE-AC05-76RL01830 doi:10.2172/876741 osti: 876741 http://digital.library.unt.edu/ark:/67531/metadc880738/ ark: ark:/67531/metadc880738 Aerosols Testing Clouds Radiant Heat Transfer Accuracy Simulation Heating Rate 54 Environmental Sciences Radiations Performance Climate Models Climates Report 2004 ftunivnotexas https://doi.org/10.2172/876741 2016-11-05T23:11:34Z The Atmospheric Radiation Measurement (ARM) Program has matured into one of the key programs in the U.S. Climate Change Science Program. The ARM Program has achieved considerable scientific success in a broad range of activities, including site and instrument development, atmospheric radiative transfer, aerosol science, determination of cloud properties, cloud modeling, and cloud parameterization testing and development. The focus of ARM science has naturally shifted during the last few years to an increasing emphasis on modeling and parameterization studies to take advantage of the long time series of data now available. During the next 5 years, the principal focus of the ARM science program will be to: Maintain the data record at the fixed ARM sites for at least the next five years. Improve significantly our understanding of and ability to parameterize the 3-D cloud-radiation problem at scales from the local atmospheric column to the global climate model (GCM) grid square. Continue developing techniques to retrieve the properties of all clouds, with a special focus on ice clouds and mixed-phase clouds. Develop a focused research effort on the indirect aerosol problem that spans observations, physical models, and climate model parameterizations. Implement and evaluate an operational methodology to calculate broad-band heating rates in the atmospheric columns at the ARM sites. Develop and implement methodologies to use ARM data more effectively to test atmospheric models, both at the cloud-resolving model scale and the GCM scale. Use these methodologies to diagnose cloud parameterization performance and then refine these parameterizations to improve the accuracy of climate model simulations. In addition, the ARM Program is actively developing a new ARM Mobile Facility (AMF) that will be available for short deployments (several months to a year or more) in climatically important regions. The AMF will have much of the same instrumentation as the remote facilities at ARM's Tropical Western Pacific and the North Slope of Alaska sites. Over time, this new facility will extend ARM science to a much broader range of conditions for model testing. Report north slope Alaska University of North Texas: UNT Digital Library Pacific |
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University of North Texas: UNT Digital Library |
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language |
English |
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Aerosols Testing Clouds Radiant Heat Transfer Accuracy Simulation Heating Rate 54 Environmental Sciences Radiations Performance Climate Models Climates |
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Aerosols Testing Clouds Radiant Heat Transfer Accuracy Simulation Heating Rate 54 Environmental Sciences Radiations Performance Climate Models Climates Ackerman, T Atmospheric Radiation Measurement Program Science Plan |
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Aerosols Testing Clouds Radiant Heat Transfer Accuracy Simulation Heating Rate 54 Environmental Sciences Radiations Performance Climate Models Climates |
description |
The Atmospheric Radiation Measurement (ARM) Program has matured into one of the key programs in the U.S. Climate Change Science Program. The ARM Program has achieved considerable scientific success in a broad range of activities, including site and instrument development, atmospheric radiative transfer, aerosol science, determination of cloud properties, cloud modeling, and cloud parameterization testing and development. The focus of ARM science has naturally shifted during the last few years to an increasing emphasis on modeling and parameterization studies to take advantage of the long time series of data now available. During the next 5 years, the principal focus of the ARM science program will be to: Maintain the data record at the fixed ARM sites for at least the next five years. Improve significantly our understanding of and ability to parameterize the 3-D cloud-radiation problem at scales from the local atmospheric column to the global climate model (GCM) grid square. Continue developing techniques to retrieve the properties of all clouds, with a special focus on ice clouds and mixed-phase clouds. Develop a focused research effort on the indirect aerosol problem that spans observations, physical models, and climate model parameterizations. Implement and evaluate an operational methodology to calculate broad-band heating rates in the atmospheric columns at the ARM sites. Develop and implement methodologies to use ARM data more effectively to test atmospheric models, both at the cloud-resolving model scale and the GCM scale. Use these methodologies to diagnose cloud parameterization performance and then refine these parameterizations to improve the accuracy of climate model simulations. In addition, the ARM Program is actively developing a new ARM Mobile Facility (AMF) that will be available for short deployments (several months to a year or more) in climatically important regions. The AMF will have much of the same instrumentation as the remote facilities at ARM's Tropical Western Pacific and the North Slope of Alaska sites. Over time, this new facility will extend ARM science to a much broader range of conditions for model testing. |
author2 |
United States. Department of Energy. Office of Science. |
format |
Report |
author |
Ackerman, T |
author_facet |
Ackerman, T |
author_sort |
Ackerman, T |
title |
Atmospheric Radiation Measurement Program Science Plan |
title_short |
Atmospheric Radiation Measurement Program Science Plan |
title_full |
Atmospheric Radiation Measurement Program Science Plan |
title_fullStr |
Atmospheric Radiation Measurement Program Science Plan |
title_full_unstemmed |
Atmospheric Radiation Measurement Program Science Plan |
title_sort |
atmospheric radiation measurement program science plan |
publisher |
Pacific Northwest National Laboratory (U.S.) |
publishDate |
2004 |
url |
https://doi.org/10.2172/876741 http://digital.library.unt.edu/ark:/67531/metadc880738/ |
geographic |
Pacific |
geographic_facet |
Pacific |
genre |
north slope Alaska |
genre_facet |
north slope Alaska |
op_relation |
rep-no: DOE/ARM-0402 grantno: DE-AC05-76RL01830 doi:10.2172/876741 osti: 876741 http://digital.library.unt.edu/ark:/67531/metadc880738/ ark: ark:/67531/metadc880738 |
op_doi |
https://doi.org/10.2172/876741 |
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1766141150809292800 |