Welcome

1. Welcome JCOMM Observations Coordination Group (OCG) Geneva, 23-25 April 2007 photo courtesy of MeteoFrance

2. JCOMMObservations Programme Area Observations Coordination Group (OCG) Geneva, 23-25 April 2007 Mike Johnson Observations Programme Area Coordinator photo courtesy of MeteoFrance

3. 2.1 Goals of the Meeting

4. OCG-II Each programme brings itsunique strengths and limitations. Together they are building a global ocean observing system.OCG-II focus on coordination and cross-cutting solutions to multiple-user requirements. Satellite Remote Sensing Requirements Data Assimilation and Modeling Capacity Building DMPA SPA

5. OCG Terms of Reference • Keep under review and advise on the effectiveness, coordination and operation of the observations work programme, including performance measured against scientific requirements, delivery of raw data, measurement standards, logistics and resources; • Provide advice to JCOMM and to Observation Teams on possible solutions for newly identified requirements, consulting as appropriate with relevant scientific groups and CBS; • Review in situ data requirements and recommend changes as appropriate, taking into account the continuing development of satellite observations and their capabilities; • Coordinate the development of standardized, high quality observing practices and instrumentation and prepare recommendations for JCOMM; • With the concurrence of the co-presidents of JCOMM, establish and create Expert Teams, Task Teams, Pilot Projects and appoint Rapporteurs, as appropriate, to undertake the work of the Observations Programme Area; • Examine trade-offs and use of new and improved techniques/developments against requirements and available resources; • Liaise with and input to CBS activities regarding the consolidated requirements database and operational satellites; • Identify capacity building requirements related to the Programme Area. • Identify satellite remote sensing requirements in the meteorological and ocean domains related to the Programme Area.

6. The Plan is in place • GCOS-92: • Initial GOOS • GEOSS Ocean Baseline • UNFCCC Priority • G8 Commitment Implement the ocean domain of GCOS-92: JCOMM is identified as the implementing agent for 21 specific actions. Observations Programme Area Tsunami IPY Regional GOOS

7. GCOS-92 Implementation Targets are designed for climate but also serve global weather prediction, global and coastal ocean prediction, marine transportation, marine hazards warning, marine environmental monitoring, naval applications, and many other non-climate users. • Tide gauge stations • Surface Drifting Buoys • Tropical Moored Buoys • Profiling Floats • Ships of Opportunity • Ocean Reference Stations • Ocean Carbon Networks • Arctic Observing System • Dedicated Ship Support • Data & Assimilation Subsystems • Management and Product Delivery • Satellites -- SST, Surface Topography, Wind, Color, Sea Ice 8 of 9 GEOSS Societal Benefits

8. Initial Global Ocean Observing System for ClimateStatus against the GCOS Implementation Plan and JCOMM targets 57% January 2007 Total in situ networks 57% 100% 42% 81% 81% 43% 66% 21% 48% • A total of 5635 platforms are • maintained globally.

9. Multi-year Phased Implementation Plan (International targets presented at JCOMM-II -- representative milestones) 2001 2002 2010 2000 2003 2004 2005 2006 2007 2008 2009 170 Real-time Stations, Initial GCOS Subset 51 56 67 67 69 126 148 79 91 106 Tide Gauge Stations 1250 1250 1250 1250 1250 1250 975 Number of buoys 807 671 779 787 Surface Drifting Buoys 119 97 104 115 Number of moorings 83 86 91 77 77 79 79 Tropical Moored Buoys 200 200 200 200 Number of ships recruited 180 0 0 150 108 112 VOS Clim Ships 60 51 51 51 High resolution & frequently repeated lines occupied 23 24 44 49 39 Ships of Opportunity 26 26 27 3000 3000 3000 3000 3000 20 31 544 2300 Number of floats 1572 Argo Floats 923 89 Observatories, flux, and ocean transport stations 15 29 35 37 78 49 54 60 41 42 Reference Stations 31 Repeat Sections Completed, One inventory per 10 years 28 0 0 1 4 20 23 15 17 Ocean Carbon Network 9 Initial Ocean Observing System Milestones 57 JCOMM-I JCOMM-II 99 88 77 66 60 48 55 System % Complete Total System 40 45 30 34 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010

10. Goals of the Meeting -- OCG-II • Meeting focus on system-wide requirements and coordinated, system-wide solutions. • Status of JCOMM component programmes: DBCP (inc TIP), SOT, GLOSS, and the JCOMM affiliated programmes Argo, OceanSITES, IOOCP. • User requirements • GOOS/GOOS implementation from OOPC • NWP • Services PA – Global operational oceanography

11. Goals of the Meeting (Continued) • JCOMM and the Tsunami systems • IPY – Legacy observing networks in Antarctic and Arctic • JCOMMOPS and expanded JCOMMOPS-C • Work plan and other action items for the OCG • Review of JCOMMOPS for JCOMM-III • Draft OPA implementation plan • Resources to meet implementation targets

12. Goals of the Meeting (Continued) • Cross-cutting issues • Data dissemination, management and QC • Standards and best practices references • Capacity building • WMO Information System (WIS) • WMO Integrated Global Observing System (WIGOS) • Satellite data requirements and satellite systems • Satellite telecommunications • Relationship of JCOMM to GOOS Regional Alliances

13. Progress and Challenges

14. Systems Approach to Standard Mapping and Reporting OCG-I OCG-II 2003 2005 Standard Baser Map: Equidistant Cylindrical Projection, 90N to 90S, broken at 30 E

15. Surface Drifting Buoys 1250 sustained array (achieved) • Issues: • Global deployment strategy with Argo, • SOT, IOCCP,OceanSITES. • Iridium pilot project. • Users workshop: • Implement hourly reporting • Need barometers on all drifters • (presently 407)

16. Tropical Moored Buoys • Issues: • Tropical Ocean Reference Stations • with OceanSITES • Deployment coordination with • Tsunameters stations. • Platforms for IOCCP. • TAO/TRITON sustained • PIRATA Extensions implemented • Indian Ocean Array getting started

17. Argo Profiling Float Array • Issues: • Global deployment strategy with DBCP • SOT, IOCCP,OceanSITES. • Iridium pilot project. • Cal/val with IOCCP and SOT/SOOP. 2851 active floats -- will reach 3000 by mid-2007

18. GCOS Climate Reference Network of Tide Gauge Stations GEO-located • Issues: • Real-time reporting for Marine Hazards • warning (tsunami). • Implement standard CREX with DMP.

19. Issues: • Ocean Reference Stations on GTS • Withhold from assimilation schemes • Real-time observing system monitoring • Broad use of real time data • OceanSITES -- DBCP Action Group or • JCOMM affiliated implementation panel • Iridium pilot project with DBCP • Deployment coordination with tsunameter • Stations. • Platforms for IOCCP. Deploying and maintaining 89 Ocean Reference Stations (42 now in service)

20. Integrating tsunami buoys into GOOS (JCOMM DBCP and OceanSITES) Chilean Tsunami Buoy being deployed during a U.S. Climate mission • Issue: • DBCP to invite the Intergovernmental • Tsunameter Coordination Group to become • an Action Group Met sensors installed by USA on the Chilean tsunami buoy: October 2006 Sites where Tsunami and Climate plans overlap -- potential for coordination Sites where Climate missions already deploy tsunami buoys routinely

21. PX38 AX03 AX10 AX07 PX37 PX40 AX20 PX44 PX10 AX34 AX11 PX18 PX21 PX09 PX31 PX11 IX10 PX04 AX29 PX05 PX13 IX08 PX17 AX15 IX09S IX07 IX06 PX02 AX08 IX01 IX22 PX81 IX12 PX30 PX08 PX06 IX21 IX15 PX50 AX18 PX34 AX25 IX28 AX22 PX36 • Issues: • SOT fleet is the backbone for deployment • of the drifting arrays. • Platforms for IOCCP. Note : AX08 is Under sampled in FRX Mode 41 of 51 UOT XBT lines now occupied 910 VOS reporting at least 25 obs/month

22. Measuring Ocean Carbon Sources and Sinks • 1. Inventory 10-year survey • 2. Ships of opportunity • Network design underway • 3. Moored buoy time series • Issues: • Cal/Val for Argo. • DBCP,SOT, OceanSITES -- platforms • for IOCCP. • Sub-Argo ocean measurement system. 38% complete

23. IPY -- legacy (sustained) networks • Issues: • DBCP, SOT, GLOSS, • OceanSITES, Argo, IOCCP.

24. The FutureObserving Programme Support Center This system will not operate itself. v 5635 Platforms 68 Counties System = programme coordination + full-time technical coordination

25. 2.2 Component Reportsand Issues

26. 4.1 Integrated Performance Metrics

27. JCOMMOPSProduct Delivery

28. Observing System Status: 2006, Q4. Error in Global Measurement of Sea Surface Temperature Requirement: 0.2°C - 0.5°C accuracy; 500km horizontal resolution; 25 samples per week (GOOS/GCOS, 1999) Performance Measure: Reduce the error in global measurement of Sea Surface Temperature Metric: Potential satellite bias error (degrees Celsius) Ship observations not shown 100 80 Requirement: All boxes blue Drifting Buoys Moored Buoys Ships Total Goal: 100% Global Coverage 60 40 20 0 Drifting Buoys + Moored Buoys + Weighted Ship Observations Percent of 5x5 Boxes with 25 Observations per Week

29. Observing System Status: 2006, Q4 Temperature Profiles Sampling requirements: 1 profile Every 10 days In every 3 x 3 º BATHY (mostly XBTs) TRACKOB (surface underway data) TESAC (mostly Argo floats) BUOY (moored and drifting) Requirement: All boxes blue Goal: 100% Global Coverage

30. Observing System Status: 2006, Q4 Salinity Profiles Sampling requirements: 1 profile Every 10 days In every 3 x 3 º BATHY (mostly XBTs) TRACKOB (surface underway data) TESAC (mostly Argo floats) BUOY (moored and drifting) Requirement: All boxes blue Goal: 100% Global Coverage

31. Observing System Status: 2006, Q4 Sea Surface Salinity Sampling requirements: 1 observation Every 10 days In every 2 x 2 º BATHY (mostly XBTs) TRACKOB (surface underway data) TESAC (mostly Argo floats) BUOY (moored and drifting) Requirement: All boxes blue Goal: 100% Global Coverage

33. Observing System Monitoring Center Near-real-time tool for system statistics and data (Data from GTS. Some web sources by May 2007) • Sort by: • Platform type • Variables being sampled • Time frame • Contributing Country • Drill down for platform metadata and real-time data.

34. Designed especially for reporting contributions by Countries. • Example: Australia had 141 Platforms reporting during the past month

35. Services • Issue (possible future capability): • SPA graphic entry point for met-ocean services. • Graphic entry point for port met offices and National contacts.

36. Test Version 2.00 beta: www.jcommops.org/network_status • By May 1: • OceanSITES from spread sheet. • - Need GTS for real-time display. • Tide gauges from UHSLC real-time system. • Rubber banding for regional display.

37. 4.8 Crosscutting Issues

38. 4.8 Crosscutting Issues • OceanSITES -- DBCP Action Group and/or JCOMM affiliated implementation panel • DBCP invite the International Tsunameter Coordination Group to become an Action Group. • OceanSITES real-time data on the GTS: • Issues: 1) withholding validation data from assimilation schemes; 2) broad use of real-time data; 3) observing system monitoring, e.g., OSMC • Options: 1) data flag; 2) bulletin header: 3) list of WMO IDs provided to users • JCOMM as partner in GOOS Regional Alliances; e.g., Arctic GOOS • GLOSS needs: • A system monitoring activity. • Regional traveling technician support (beyond the Australia and UHSLC programs). • Argo needs: • Sustained funding • Ship deployment opportunities • Coordination of hydrography programs

39. 4.8 Crosscutting Issues (Continued) • OceanSITES needs: • Reliability, calibration, inter-calibration of sensors. • Sensor-to-sensor-to-DCP communication protocols. • Satellite communications telemetry -- JTA including Argos and others? • Data from all systems, availability through a single service portal. • Sustained support. • Should JCOMM send representatives at science meetings? • IOCCP needs: • Single data information portal. • Tracking/coordinating repeat non-carbon hydrography obs (e.g. Tropical Moored Buoy deployments). • Observation support center. • OOPC needs: • Continued pressure to meet implementation targets. • Observing system support center. • Surface salinity pilot project.

40. 5. JCOMMOPS

41. - Looking to the Future -JCOMM Observing Platform Support Center (JCOMMOPS)(presently supporting DBCP, SOT, Argo) v • Roundtable, May 2006: representatives from the OCG, DBCP,SOT, GLOSS, Argo, OceanSITES, IOCCP, POGO • Agreed value and mutual benefit in evolving toward a Global Observing Program Support Center. • Estimate seven personnel needed versus the present two working at JCOMMOPS. • Shared benefit, shared responsibility: the Systems benefiting should pay in proportion to their demand for JCOMMOPS services. • Consider possible relocation of JCOMMOPS to a national center that might be interested in hosting an international center, and furnish in-kind contributions and additional support. • JCOMM Management Committee (07 October, Geneva): OCG will develop requirements/specifications for future JCOMMOPS evolution and call for proposals -- April 2007. 5635 Platforms 68 Counties

42. 5.0 Discussion Paper • Focus on the technical requirements. • Provide enough management information for institutions to make an informed decision to propose, but don’t try to specify all details. • Management will be a subject of negotiation after proposals are received • JCOMMOPS is a special case dependent upon concurrence by • WMO • IOC • JCOMM Management • DBCP and SOT donors • Argo donors • IOCCP and other potential program donors

43. 6.2 Strategic and Implementation Plan

44. The Plan is in place • GCOS-92: • International GOOS • GEOSS Ocean Baseline • UNFCCC Priority • G8 Commitment Implement the ocean domain of GCOS-92: JCOMM is identified as the implementing agent for 21 specific actions. Observations Programme Area

45. Initial Global Ocean Observing System for ClimateStatus against the GCOS Implementation Plan and JCOMM targets 57% January 2007 Total in situ networks 57% 100% 42% 81% 81% 43% 66% 21% 48% • A total of 5635 platforms are • maintained globally.

46. Multi-year Phased Implementation Plan (International targets presented at JCOMM-II -- representative milestones) 2001 2002 2010 2000 2003 2004 2005 2006 2007 2008 2009 170 Real-time Stations, Initial GCOS Subset 51 56 67 67 69 126 148 79 91 106 Tide Gauge Stations 1250 1250 1250 1250 1250 1250 975 Number of buoys 807 671 779 787 Surface Drifting Buoys 119 97 104 115 Number of moorings 83 86 91 77 77 79 79 Tropical Moored Buoys 200 200 200 200 Number of ships recruited 180 0 0 150 108 112 VOS Clim Ships 60 51 51 51 High resolution & frequently repeated lines occupied 23 24 44 49 39 Ships of Opportunity 26 26 27 3000 3000 3000 3000 3000 20 31 544 2300 Number of floats 1572 Argo Floats 923 89 Observatories, flux, and ocean transport stations 15 29 35 37 78 49 54 60 41 42 Reference Stations 31 Repeat Sections Completed, One inventory per 10 years 28 0 0 1 4 20 23 15 17 Ocean Carbon Network 9 Initial Ocean Observing System Milestones 57 JCOMM-I JCOMM-II 99 88 77 66 60 48 55 System % Complete Total System 40 45 30 34 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010

47. Thank You photo courtesy of MeteoFrance