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June 2011 Introduction to Using Climate Models in Class Cindy Shellito University of Northern Colorado.

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Presentation on theme: "June 2011 Introduction to Using Climate Models in Class Cindy Shellito University of Northern Colorado."— Presentation transcript:

1 June 2011 Introduction to Using Climate Models in Class Cindy Shellito University of Northern Colorado

2 Global Climate Modeling: A very brief overview What is a climate model? Mathematical representation of climate system and system interaction – Based on our understanding of physics, chemistry, biology Provide us with an independent way of testing whether a particular hypothesis can explain the data we have collected

3 The physics in the heart of every model… Δ heat = energy absorbed – energy emitted The Sun Earth Incoming shortwave at top of atmosphere: S o = 1367 W/m 2 Outgoing longwave radiation from Earth = σT earth 4 σ = Stefan-Boltzmann constant σ = 5.67 x 10 -8 W/m 2 K 4

4 Development and use of a model Model Development (driven by observations) Laws of physics, principles of chemistry, biology, parameterizations Model Development (driven by observations) Laws of physics, principles of chemistry, biology, parameterizations Simulation Model => Results Simulation Model => Results Analyze Results Test model validity against observations Make climate projections, Develop/test hypotheses Analyze Results Test model validity against observations Make climate projections, Develop/test hypotheses Forcings Boundary Conditions

5 Range of complexity: Energy Balance Models: simple models of Earth’s radiative balance (1-D & 2-D) EMICs: Earth Models of Intermediate Complexity (2-D & 3-D) 3-D Global Climate Models Regional Climate Models Geochemical Models

6 EBMs EMiCs GCMs: Includes Atmosphere, Ocean, Earth System Models GCMs: Includes Atmosphere, Ocean, Earth System Models Which model to use? Depends on: Assumptions we choose to make Knowledge of external forcing factors, response and interactions of Earth System Components Which questions we would like to answer

7 GCM Resolution: Depends on size of grid cells

8 Advantages of using GCMs in the classroom Allows students to use authentic ‘research’ tool Promotes inquiry Students consider climate system complexity Visualization may enhance understanding of system dynamics

9 Challenges of using GCMs in the classroom Most models are NOT USER- FRIENDLY! (Require extensive setup and advanced computing skills – for instructor AND students) User-friendly models tend to cost more than many departments can afford.

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