The WMO Global Observing System (GOS) 18th Session GCOS Steering Committee

1. The WMO Global Observing System (GOS)18th Session GCOS Steering Committee Barbara J. Ryan Director, WMO Space Programme 28 September 2010 Geneva

2. “The GOS is comprised of more than the Space-based component” Miroslav Ondras 28 September 2010 Geneva, Switzerland

3. Surface-based component Upper Air component Airborne component (AMDAR) Other Observation Department entities: Climate Data and Monitoring (Baddour) Linkages with Commissions (CIMO, CBS, CCl)

4. Evolution of the WMO Space-based Global Observing System (GOS) 1961 1978 2009 1990

5. Space-based Component of the GOS

6. Satellite Missions in the Vision of the GOS to 2025 Heritage operational missions • GEO: imager, HS IR sounder, lightning • Sun-synchronous: imager, IR/MW sounders • Ocean surface topography constellation • Radio-Occultation Sounding constellation • Ocean Surface Wind constellation • Global Precipitation constellation • Earth Radiation Budget (incl. GEO) • Atmospheric Composition (incl. GEO) • Ocean colour and vegetation imaging • Dual-angle view IR imagery • Land Surface Imaging • Synthetic Aperture Radar • Space Weather • VIS/IR imagers in HEO • Doppler wind lidar, Low-frequency MW • GEO MW • GEO High-resolution narrow-band imagers • Gravimetric sensors Transition from R&D to operational status Other application areas Operational pathfinders and demonstrators

7. Satellite Missions in Vision for the GOS in 2025 Current Baseline • GEO: imager, HS IR sounder, lightning • Sun-synchronous: imager, IR/MW sounders • Ocean surface topography constellation (Jason-2, -3, Sentinel-3) • Radio-Occultation Sounding constellation (METOP/GRAS) • Ocean Surface Wind constellation (METOP/ASCAT) • Global Precipitation constellation • Earth Radiation Budget (incl. GEO) (Meteosat/GERB) • Atmospheric Composition (incl. GEO) (METOP/IASI, MTG/Sentinel-4, EPS2G/Sentinel-5) • Ocean colour and vegetation imaging • Dual-angle view IR imagery • Synthetic Aperture Radar • Land Surface Imaging • Space Weather • VIS/IR imagers in HEO (PCW and Arktica) • Doppler wind LIDAR, Low-frequency MW • GEO MW • GEO High-resolution narrow-band imagers • Gravimetric sensors Transitional Baseline Demonstrations

8. Satellite Missions in the Vision of the GOS to 2025 Implementing the new missions of the Vision ….

9. Long-term Observations are Needed for Climate Monitoring 9

11. As we look back in time from 2100, what will be the analog for climate monitoring? • anomaly correlation of seasonal forecasts? • ? • ? • ?

12. Challenges • Continuity and improvement of operational constellations • Sustained observation of all ECVs observable from space • Transition Research to Operations for priority, mature observations • Generation of QC products • Integration : network optimization, system interoperabilitycomposite products

13. ARCHITECTURE FOR CLIMATE MONITORING FROM SPACE • DRAFT OUTLINE OF THE CONCEPT DOCUMENT • Introduction • Motivation • A Structured Approach • User Requirements • Observational Capabilities • ECV Product Generation • User Interface • Coordination