Climate model

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A climate model is a numerical simulation of the climate. The mathmatics describing the complex nonlinear dynamics of the climate system cannot be solved analytically. Simulations run using climate models can provide insight into climate behaviors and modes, and the impact of changes considered external the the climate system, because they cannot yet be predicted or because they are the result of human behavior.

The external changes, called forcings, are inputs to the climate simulations. Climate forcings include variations in solar activity, volcanic emissions of aerosols, particulates and greenhouse gases, human emissions of aerosols, particulates and greenhouse gases, human land use changes, and surface characteristics. Some surface characteristics such as topography are static over the course of a simulation while others may change as a result of simulated internal processes of the climate, such as soil moisture content or snow cover. The latter are examples of climate feedbacks.

Climate feedbacks are internal climate processes that positively reinforce or negatively oppose the direct effect of external climate forcings. For example, the direct effect of increases in solar activity or increases in greenhouse gas levels is a warming effect. The resulting increases in temperature increase evaporation. The increased water vapor, the most abundant greenhouse gas, is expected to further increase the direct warming effect, and represents a positive feedback to either of those forcings.

While humans live in the atmosphere on the land, nearly all the heat capacity of the climate system is in the oceans. Therefore, simulations of the atmosphere, must be coupled to simulations of the oceans for any hope of realistic long term simulations. A warming or cooling of the climate should be reflected in the heat content of the ocean. A global climate model (GCM) that is coupled to the ocean is called an Atmosphere Ocean GCM (AOGCM).

Climate Prediction

The climate is generally not considered predictable, because we cannot yet predict future solar behavior or volcanic activity and not all the internal processes of the climate are well understood. Climate models can be used to attempt to project the climate based on certain assumptions about future forcings such as greenhouse gas emissions scenerios or changes in solar activity. The usefulness of such projections for human decision making is dependent on the skill of the models in representing the internal climate processes involved. Climate scientists attempt to validate or prove the skill of the models by tuning them to match observations of the climate. Currently the most advanced climate models, still disagree by more than a factor of two in their sensitivity to greenhouse gas forcing, and have significant disagreements with observed climate behavior at high lattitudes.

Models use by the IPCC AR4

Most of the models used by the International Panel on Climate Change 4th Assessment Report (IPCC AR4) are AOGCMs, and have been extensively studied with results and analyses appearing the peer review literature.