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WMO TECO 2010

WMO TECO 2010. W O R L D M E T E O R O L O G I C A L O R G A N I Z A T I O N WMO TECHNICAL CONFERENCE ON METEOROLOGICAL AND ENVIRONMENTAL INSTRUMENTS AND METHODS OF OBSERVATION TECO-2010 Helsinki, Finland, 30 August - 1 September 2010 Observing Technologies and Systems in support of

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WMO TECO 2010

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  1. WMO TECO 2010 W O R L D M E T E O R O L O G I C A L O R G A N I Z A T I O N WMO TECHNICAL CONFERENCE ON METEOROLOGICAL AND ENVIRONMENTAL INSTRUMENTS AND METHODS OF OBSERVATION TECO-2010 Helsinki, Finland, 30 August - 1 September 2010 Observing Technologies and Systems in support of Evolving Demands on Weather, Climate and Water Services.

  2. INTERNATIONAL PROGRAMME COMMITTEE (IPC/TECO-2010), Helsinki, Finland, 30 August – 1 September 2010 Bertrand CALPINI (Chair) Vice-President of CIMO  MeteoSwiss John NASH President of CIMO  UK Met Office Jani POUTIAINEN Representative of the host country Finnish Meteorological Institute Russell STRINGER Co-chair OPAG-Upper-air Australia Bureau of Meteorology Rabia MERROUCHI Morocco Direction de la météorologie nationale Jitze Van Der MEULEN Co-chairperson of OPAG-SURFACE Royal Netherlands Meteorological Institute Heng ZHOU Co-chair OPAG-Upper-air China Meteorological Administration Bruce BAKERUSA NOAA/ Atmospheric Turbulence and Diffusion Laboratory

  3. CIMO TECO 2010 in numbers • 310 participants from 90 different countries • 29 oral presentations • 122 posters • All available on CD • SPECIAL THANKS TO • The local organizer FMI (Jani Poutiainen) • The WMO CIMO secretariat (Isabelle Ruedi, Jérôme Duvernoy) • THE SPONSORS • TECO-2010 and METEOREX-2010 provide a valuable opportunity • for training and capacity building. • Additionnal funds provided by • Météo-France • MeteoSwiss • Zentralanstalt für Meteorologie und Geodynamik (ZAMG)

  4. Monday, 30 August 2010

  5. Tuesday, 31 August 2010 18:00 Finnish Meteorological Institute visit

  6. Wednesday, 1 September 2010

  7. Wednesday, 1 September 2010 14:00 Round Table SESSION 1 - Surface Observing Technologies and Systems Chairs: Jitze Van der Meulen and Mike Molineux SESSION 2 - Upper-air and Remote-sensing Observing Technologies and Systems Chairs: Heng Zhou and Arkadi Koldaev SESSION 3 – Instruments comparisons and Testbeds experimentsChairs: Michel Leroy and Li Wei SESSION 4 – Technology transfer and capacity building in support of developing countries Chair: Mario Jorge Garcia SESSION 5 – Standards and Quality of observing systems Chair Eckhard Lanzinger

  8. Future challenges for CIMO, illustrated with examples of : QA studies on Surface-based in situ and remote sensing observations Bertrand Calpini Upper-air systems intercomparisons and testbeds John Nash

  9. Spectroscopic data (ozone cross section) • Rain fall intensities (weather radar estimates) • Ash particles • Water vapor lidar • Wind field (measurements > NWP) • Total precipitation • Meteorology vs metrology (WMO BIPM)

  10. 1921: Observatory Arosa: Ozone Layer time series…since then Spectroscopic data (ozone cross section)

  11. 80 years of continuous Ozone time series @ Arosa

  12. Trace gas detection • Ozone • Methane • Other essential trace gases • The search for absolute spectrosopic features: • Absorption cross section • Atmospheric induced effect (pressure broadening, temperature broadening, other interferences – Mie, other trace species, ..)

  13. Rain fall intensities by Weather radar plan view

  14. Measurement of the Eyjafjallajökull volcano plume over Switzerland by MeteoSwiss Ash particles measured by lidar

  15. Polychromator

  16. Friday - Saturday (16-17.04) • Cloud base alt • Cloud top alt. • Cloud intensity

  17. Federal Department of Home Affairs FDHAFederal Office of Meteorology and Climatology MeteoSwiss The Island volcanic eruption as seen by lidar Friday April 16th 2010, 11pm local time: Volcanic plume over the Swiss Plateau Sunday: April 18th 2010, 2 pm local time: « End of the event» and higher Mixing layer Saturday: April 17th 2010, 8 pm local time: « Dilution of the plume » Red saturated signal: the planetary boundary layer with intense « Mie scattering » Absolute scale: preliminary, based on first radiosonde in situ estimate ETHZ radiosonde

  18. Pollen Network – MeteoSwissBU – Bernard Clot – Saturday April 17th 2010 – midnight

  19. Water vapor lidar vs radiosonde NIGHT Vertical averaging < 4 km 15 m <6.5 km 30 m <9 km 100 m >9 km 300 m

  20. Wind field (measurements > NWP)

  21. Forecast Analysis WP

  22. Forecast Wind profiler Radiosonde future past t=0

  23. Total precipitation measurements(1-2 samples per year): • < 50 years • 50 – 80 years • > 80 years

  24. Total precipitation measurements Altitude above see level (m) Total Precipitation time series: correlation study

  25. WMO-BIPM workshop onMeasurement Challenges for Global Observation Systems for Climate Monitoring: Traceability, Stability, and UncertaintyWMO Geneva 30 March to 1 April 2010,

  26. Session A: Climate trends from satellite sounding data. • Session B1: Stable time series for key greenhouse gases and other trace species. • Session B2: Remote sensing of atmospheric composition and traceability issues in spectroscopic data. • Session C: Radiation and Earth energy balance. • Session D: Earth surface (land and water) temperature. • Session F: Microwave imagery data in climate and NWP. • Session G: Surface properties: albedo, land cover, and ocean cover. • Session H: Ocean salinity.

  27. CIMO mandate • Requirements for high quality observational data and their world-wide compatibility were a governing principle when the International Meteorological Organization (IMO) was established in 1873. • technical standards, • instrument intercomparisons, • testing and calibration • implement quality control procedures. • Responsibilities assigned to the Commission for Instruments and Methods of Observations (CIMO)

  28. CIMO Guide The WMO Guide to Meteorological Instruments and Methods of Observation (CIMO Guide) : • The 1st edition published in 1954, 12 chapters. • The 7th edition (2008) has 34 chapters, • covering the whole range of instruments, • from the simplest to the most complex and sophisticated. • Its purpose is to give comprehensive and up-to-date guidance on the most effective practices for carrying out meteorological observations and measurements

  29. I wish full success to TECO 2010 + METEOREX 2010

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