Wild, M., 2005: Solar radiation budgets in
atmospheric model intercomparisons from a surface perspective.
Not exact matches
Gregory, J.M., et al., 2005: A
model intercomparison of changes in the Atlantic thermohaline circulation in response to increasing
atmospheric CO2 concentration.
WCRP - JSC / CAS WGNE promotes co-ordinated numerical experimentation for validating
model results, observed atmospheric properties, exploring the natural and forced variability and predictability of the atmosphere, (e.g. the Atmospheric Model Intercomparison Project, AMIP), as well as studies aimed at refining numerical techniques, and the formulation of atmospheric physics proce
model results, observed
atmospheric properties, exploring the natural and forced variability and predictability of the atmosphere, (e.g. the
Atmospheric Model Intercomparison Project, AMIP), as well as studies aimed at refining numerical techniques, and the formulation of atmospheric physics proce
Model Intercomparison Project, AMIP), as well as studies aimed at refining numerical techniques, and the formulation of
atmospheric physics processes.
GCM results are used: «The large - scale thermodynamic boundary conditions for the experiments —
atmospheric temperature and moisture profiles and SSTs — are derived from nine different Coupled
Model Intercomparison Project (CMIP2 +) climate
models.»
The only systematic evaluation of carbon
models that were interactively coupled to climate
models occurred as part of the Coupled Climate - Carbon Cycle
Model Intercomparison Project (C4MIP), where Friedlingstein et al. (2006) compared the ability of a suite of
models to simulate historical
atmospheric CO2 concentration forced by observed emissions.
Here, we review the past literature on the
atmospheric lifetime of fossil fuel CO2 and its impact on climate, and we present initial results from a
model intercomparison project on this topic.
Here seven GVMs are used to investigate possible responses of global natural terrestrial vegetation to a major new set of future climate and
atmospheric CO2 projections generated as part of the fifth phase of the Coupled
Model Intercomparison Project (CMIP5)(6), the primary climate
modeling contribution to the latest Intergovernmental Panel on Climate Change assessment.
* be full 3D coupled ocean -
atmospheric GCMs, * be documented in the peer reviewed literature, * have performed a multi-century control run (for stability reasons) and * have participated in CMIP2 (Second Coupled
Model Intercomparison Project).
WCRP - JSC / CAS WGNE promotes co-ordinated numerical experimentation for validating
model results, observed atmospheric properties, exploring the natural and forced variability and predictability of the atmosphere, (e.g. the Atmospheric Model Intercomparison Project, AMIP), as well as studies aimed at refining numerical techniques, and the formulation of atmospheric physics proce
model results, observed
atmospheric properties, exploring the natural and forced variability and predictability of the atmosphere, (e.g. the
Atmospheric Model Intercomparison Project, AMIP), as well as studies aimed at refining numerical techniques, and the formulation of atmospheric physics proce
Model Intercomparison Project, AMIP), as well as studies aimed at refining numerical techniques, and the formulation of
atmospheric physics processes.