The Mars General Circulation Modeling Group

1. The Mars General Circulation Modeling Group Alison F.C. Bridger SJSU MGCM & group: AFCB, Sept 2007 @ SJSU

2. The Mars General Circulation Modeling Group Our fearless leader is Dr. Bob Haberle of NASA-Ames; SJSU graduate. URL: http://www-mgcm.arc.nasa.gov/MGCM.html MGCM & group: AFCB, Sept 2007 @ SJSU

3. The NASA-Ames MGCM • Origin of the model • Derived originally from the UCLA model (Mintz, Arakawa) • Adapted to Mars originally by Leovy • Adaptations include… • Planetary constants (easy) • Radiation (not so easy!) • Other (some still being determined) MGCM & group: AFCB, Sept 2007 @ SJSU

4. The NASA-Ames MGCM • Model details • Finite difference (hydrostatic) • Roughly 0-80 km • Physics in the model • Shortwave heating – absorption by CO2 and dust • Solar heating of the ground • Sensible heat flux back up to the atmosphere • Heat conduction into/out of the regolith (soil model) • Melting of CO2 ice; effects of sub-surface ice MGCM & group: AFCB, Sept 2007 @ SJSU

5. The NASA-Ames MGCM • Physics in the model ctd. • Longwave heating/cooling (CO2) • Dust in the atmosphere • User-specified? Internally determined? • Observed spatial versus depth distributions • Dust particle properties (mineral, size, shape) • Radiative effects MGCM & group: AFCB, Sept 2007 @ SJSU

6. The NASA-Ames MGCM • Physics in the model ctd. • Water (vapor, ice) in the atmosphere • Water (ice) clouds & fog • CO2 ice clouds • CO2 deposition onto/sublimation from the ice caps & the CO2 annual cycle MGCM & group: AFCB, Sept 2007 @ SJSU

7. The NASA-Ames MGCM • Ongoing developments at NASA-Ames (led by Bob Haberle) • New dynamical “core” added in the last two years (GFDL) • allows multiple tracers, including water and dust • Soon to be replaced with a new core/grid structure MGCM & group: AFCB, Sept 2007 @ SJSU

8. The NASA-Ames MGCM • Ongoing developments • New radiation code • More powerful and sophisticated • More “expensive”! • Allows radiative effects of water ice, CO2 ice, & dust to be incorporated and explored MGCM & group: AFCB, Sept 2007 @ SJSU

9. The NASA-Ames MGCM • Ongoing developments • Ground ice…soil model • Clouds (CO2, water) • Aerosol/dust MGCM & group: AFCB, Sept 2007 @ SJSU

10. Applications • Mission support • Planning for conditions (densities) in the upper atmosphere during aerobraking activities • Planning for conditions during descent • Planning for conditions on the surface MGCM & group: AFCB, Sept 2007 @ SJSU

11. Applications • Interpretation of observations • E.g., MGS densities (Kelvin waves) • Streaks on the surface (wind scouring, prevailing wind directions) • Baroclinic wave activity! • Cloud observations! MGCM & group: AFCB, Sept 2007 @ SJSU

12. Applications • “Paleoclimate” • A “warm, wet” early Mars, or not? • Present-day climate • Climate change? • Viking versus MGS • “swiss cheese” observations MGCM & group: AFCB, Sept 2007 @ SJSU

13. Some of my recent work… • Simulations of the “MGS year 2” global dust storm • Goal = successful self-contained simulation of the storm • Now … still specifying dust distributions & history • Simulated temperatures compare well with MGS-TES observations • Use the model to suggest ways the storm might have expanded MGCM & group: AFCB, Sept 2007 @ SJSU

14. Results… MGCM & group: AFCB, Sept 2007 @ SJSU

15. Results… MGCM & group: AFCB, Sept 2007 @ SJSU