Page Comparison

Previous work by Leung and Ghan (1995, 1998) and Ghan et al. (2002, 2996a,b) showed that applying all atmospheric and land physics to multiple elevation classes within each grid cell and adding an orographic forcing term to the heat and tracer budgets within each elevation class can yield greatly improved simulations of local climate in regions with complex terrain. The spatial distributions of simulated surface temperature, precipitation, and snow water in particular, after mapping from elevation classes according to a high-resolution (order 5 km) distribution of surface elevation, agree much better with data mapped to the same resolution from station measurements. The computation computational cost of the scheme depends on the width of the elevation bands selected for the classification, but Ghan found impressive results in CAM3 with a maximum of twelve elevation classes that yield on average about two classes per grid cell. A load balancing scheme (Ghan and Shippert, 2005) limited the computational burden to about a factor of two.

However, because the scheme (originally developed and applied to a regional model MM5 by Leung and Ghan,1995, 1998) does not distinguish between precipitation on the windward and lee sides of subgrid topography, it consistently under-simulates rainshadow effects of topography when applied at resolutions too coarse to resolve rainshadows.

...

In stage two, 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.

There are numerous challenges with implementing elevation classes in ACME that did not exist in the first implementations in MM5 and CAM3, mostly because a coupler was not used to couple the atmosphere and land in MM5 or CAM3.

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 2017, staffing limitations have been a bottleneck and need to be resolved. Completing development for each stage will require involvement of ACME staff from the land, atmosphere, and coupling teams. An estimate of staffing for completing stage one is listed in the table.

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.

...