1. Canadian Meteorological and Oceanographic Society (CMOS) www.cmos.ca Purpose / Mission: CMOS exists for the advancement of meteorology and oceanography in Canada

2. What CMOS does… Operates 14 Centres across Canada Annual Congress brings together meteorologists, oceanographers, and related disciplines to discuss issues of common interest Takes public positions on topics such as natural hazards, weather modification, climate change

3. What CMOS does… Presents annual awards in the fields of meteorology and oceanography Provides scholarships/bursaries to students at graduate and undergraduate university levels Provides travel bursaries of up to $500 that are available to assist 20-30 students attending the annual Congress to give a paper on their thesis research

4. What CMOS does… Provides supplements to NSERC post- graduate scholarships Supports travel by Canadian high school teachers to Project Atmosphere Accredits consultants Endorses media weathercasters Publishes Atmosphere-Ocean (peer reviewed journal), CMOS Bulletin SCMO (bi-monthly), annual review, and Congress program/abstracts

5. Membership and Privileges - All members have the same privileges but receive different publications. - However, all members automatically receive at least the CMOS Bulletin SCMO and the Annual Review (on-line access). Fees: Regular member : $80 Sustaining member : $226 (receives all publications) Corporate member : $160 Student member : $20 (receives ATMOSPHERE-OCEAN on-line only) Retired member : $53 Associate member : $53

6. Last of all... own forumdirect contacts CMOS is our own Canadian society, and provides Canadian meteorologists, oceanographers, and related disciplines a forum for direct contacts with each other, through our membership, the CMOS web page, publications, and the annual Congress. No other society can provide the same benefits. your Support your society! Upcoming Congresses: 2010 – Ottawa (joint with CGU) 2011 – Victoria BC 2012 –Montreal, Quebec (joint with AMS) 2013 – Saskatoon, Saskatchewan

8. Global and regional climate modelling for mountainous regions Andrew Bush Dept. of Earth and Atmospheric Sciences University of Alberta -

9. Global atmosphere-ocean general circulation model with sea ice (Geophysical Fluid Dynamics Laboratory, Princeton, New Jersey, and also NCAR) Simulations to date: Last Glacial Maximum (21 kbp) 16 kbp 12 kbp 9 kbp 6 kbp Today The next century under mean IPCC forcing Doubled CO2

10. Simulated Observations Geophysical Fluid Dynamics Laboratory (GFDL) model used in IPCC studies

11. Factors involved in the global modelling: Atmospheric composition Solar forcing (including orbital parameters) Prescribed bare surface land albedo Continental ice extent (and albedo) Sea level (to within the model resolution) Gravity wave drag over large topographic features Ocean bathymetry (numerically problematic for the Arctic)

12. Interests: Atmosphere-ocean-cryosphere interaction/evolution Freshwater resources; alpine glaciers (Garry Clarke, UBC) Possibilities: Detailed regional interaction between the atmosphere, alpine glaciers, and the pedosphere (Andrew Weaver). Arctic sea ice modelling (Paul Myers).

20. Domain 3

29. EPA Never Exceed more than one day per year Ozone from measurements

31. Atmospheric CO2/1E3