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We propose to apply the elevation class scheme to the ACME model in three stagesphases. In the first stagephase, targeting ACME V2.0, elevation classes are added to the land model but not the atmosphere model. Land forcing fields (temperature, precipitation, downward longwave) from the atmosphere are lapsed with surface elevation at prescribed rates. Adjustments to ensure conservation of the grid cell mean are applied. Fluxes returned from land to atmosphere are aggregated to form grid cell mean. No changes in the coupler or atmosphere are needed. The elevation classes defined in the land model will be the same as that used in the second stage to facilitate comparison of results from the first and second stages and to reduce efforts for the second stage.
The second stagephase, targeting ACME V3.0, will assume the atmosphere and land models operate on the same grid and adopt the same elevation classification algorithm. This results in a one-to-one mapping between elevation classes in the land and atmosphere, so that no interpolation is required to couple the land and atmosphere for each elevation class. Although we expect this configuration to yield spectacular results, it does not allow the land model to distinguish subgrid watersheds.
In stage In phase three, targeting ACME V4.0, the land model will represent watersheds, so that interpolation will be required to couple elevation classes in the land and atmosphere. Conservation will require normalizing fields to preserve grid cell means.
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A design document that identifies the challenges, describes methods to address them, and specifies tests to determine whether the scheme is working properly in the ACME model, has been prepared. While some of the work has been done as March May 2017, staffing limitations have been a bottleneck and need to be resolved. Completing development for each stage each phase will require involvement of ACME staff from the land, atmosphere, and coupling teams.
An estimate of staffing for completing stage tasks in phase one is listed below here.
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An estimate of staffing for completing stage tasks in phase two is listed below.
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here.
Staffing for phase three is expected to be more involved. An estimate of staffing will wait until the first two phases are nearly complete.
Ghan, S. J., X. Bian, A. G. Hunt, and A. Coleman, 2002: The thermodynamic influence of subgrid orography in a global climate model, Climate Dynamics, 20, 31-44, 10.1007/s00382-002-0257-5.
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