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The impact of implementing the bare essentials of surface transfer land surface scheme into the BMRC GCM

Journal Article · · Climate Dynamics
 [1];  [2];  [3]
  1. Univ. of Arizona, Tucson, AZ (United States)
  2. Macquarie Univ., Sydney (Australia)
  3. Bureau of Meterology Research Centre, Melbourne (Australia); and others
+ Show Author Affiliations
This study describes the first order impacts of incorporating a complex land-surface scheme, the bare essentials of surface transfer (BEST), into the Australian Bureau of Meteorology Research Centre (BMRC) global atmospheric general circulation model (GCM). Land seasonal climatologies averaged over the last six years of integrations after equilibrium from the GCM with BEST and without BEST (the control) are compared. The modeled results are evaluated with comprehensive sources of data, including the layer-cloud climatologies project (ISCCP) data from 1983 to 1991 and the surface-observed global data of Warrent et al., a five-year climatology of surface albedo estimated from earth radiation budget experiment (ERBE) top-of-the-atmosphere (TOA) radiative fluxes, global grid point datasets of precipitation, and the climatological analyses of surface evaporation and albedo. Emphasis is placed on the surface evaluation of simulations of land-surface conditions such as surface roughness, surface albedo and the surface wetness factor, and on their effects on surface evaporation, precipitation, layer-cloud and surface temperature. The improvements due to the inclusion of BEST are: a realistic geographical distribution of surface roughness, a decrease in surface albedo over areas with seasonal snow cover, an an increase in surface albedo over snow-free land. The simulated reduction in surface evaporation due, in part, to the bio-physical control of vegetation, is also consistent with the previous studies. Since the control climate has a dry bias, the overall simulations from the GCM with BEST are degraded, except for significant improvements for the northern winter hemisphere because of the realistic vegetation-masking effects. The implications of our results for synergistic developments of other aspects of model parameterization schemes such as boundary layer dynamics, clouds, convection and rainfall are discussed. 82 refs., 9 figs., 3 tabs.
OSTI ID:
255245
Journal Information:
Climate Dynamics, Journal Name: Climate Dynamics Journal Issue: 5 Vol. 11; ISSN 0930-7575; ISSN CLDYEM
Country of Publication:
United States
Language:
English

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Related Subjects

54 ENVIRONMENTAL SCIENCES
EARTH PLANET
ENVIRONMENTAL EFFECTS
EVALUATION
GENERAL CIRCULATION MODELS
SURFACE PROPERTIES