AEROCOM meeting, Paris, 2.-3. June 2003 Christoph Wehrli Physikalisch-Meteorologisches Observatorium Dorfstrasse 33, 7260 Davos Dorf, Switzerland Goals.

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Presentation transcript:

AEROCOM meeting, Paris, June 2003 Christoph Wehrli Physikalisch-Meteorologisches Observatorium Dorfstrasse 33, 7260 Davos Dorf, Switzerland Goals of trial network Network extend Calibration scheme and Quality Control Results from selected stations Comparison with other networks Aerosol Optical Depth in GAW Trial Network

AEROCOM meeting, Paris, June 2003 Subsequent to the AOD fiasco in BAPMon, a World Optical depth Research and Calibration Center was proposed and established in 1996 at Davos and sponsored by Switzerland. WORCC Tasks Implement AOD measurements at 12 global observatories with new instrumentation, calibration scheme, data quality control and protocols. Test and verify new instruments and methods under operational network conditions. Train station operators in AOD measurements. WORCC is assisted by a international group of experts and works in cooperation with GAW QA/SAC SAG/Aerosols assumes these roles. WMO initiated contacts between potential stations and WORCC for placement of instruments donated by MeteoSwiss. Host stations are to provide tracking facility and limited manpower. WORCC mandate

AEROCOM meeting, Paris, June 2003 What is measured and how? Classic sunphotometer measurements at 4 WMO wavelengths 368, 415, 500 and 862nm  Optical depth, Ångström exponent Identical, precision filter radiometers (manufactured at PMOD/WRC) Continuous sampling at 1 (2) minute cadence by automated system Monthly data transfer to WORCC for centralized evaluation Quality control flags added, pointing, objective cloud filtering, … Hourly means to be archived at WDCA, Ispra. Currently available at WORCC upon request

AEROCOM meeting, Paris, June 2003 Cloud Filtering 3 different cloud flags are determined for individual samples 1.Harrison & Michalsky algorithm, modified for air masses <2 2.Aeronet algorithm applied as moving filter on continuous samples 3.Optically thick (OD>3) clouds

AEROCOM meeting, Paris, June 2003 Precision Filter Radiometer PFR specifications Automated, solar spectral radiometer 4 WMO channels at 862, 500, 412, 368nm using IAD interference filters Field of View: ±2.5°, slope angle 0.7° Dimensions: Ø90 x L300mm, Mass 3 kg Sensor at 20±0.1°C in range –25 ÷ 35°C internal shutter; N 2 purged, airtight case High cadence measurements built-in pointing sensor Data logger with 30 day storage capacity Simultaneous barometric measurements PFR N21 at Ryori, Japan.

AEROCOM meeting, Paris, June 2003 GAW/PFR network sites

AEROCOM meeting, Paris, June 2003 PFR Station List LocationSinceAltitude Davos, Switzerland (PMOD) 10/ Hohenpeissenberg, Germany06/ Mace Head, Ireland07/ Mauna Loa, Hawaii11/ Jungfraujoch, Switzerland (PMOD) 03/ Bratt‘s Lake, Canada04/ Izaña, Tenerife06/ Ryori, Japan06/ Alice Springs, Australia07/ Ny Ålesund, Spitzbergen05/ Summit, Greenland (ETH Zürich) 2001,

AEROCOM meeting, Paris, June 2003 WORCC Calibration Hierarchy Standard instruments are calibrated at high altitude stations (Jungfraujoch, Mauna Loa) by atmospheric extrapolation methods. One instrument was calibrated in 1998 from stratospheric balloon at 40km height. Working standards are calibrated by comparison with WORCC standards at Davos or Jungfraujoch. Stability of standard instruments is monitored by spectral comparison with a metrologically traceable absolute detector. Station instruments are linked to WORCC reference by travelling standards or exchange of sensors. Performance is tested through intercomparison of field instruments with other co-located networks. Launch of SIMBA98 experi- ment in Aire s Adours, F

AEROCOM meeting, Paris, June 2003 High Altitude Calibration Sphinx Research Station at Jungfraujoch Altitude 3580m Latitude46°32’55” N Longitude 7°59’11” E Automated solar dome of MS Objective, daily Langley calibrations Robust, statistical analysis for V 0 Annual drift <1±0.15%/y

AEROCOM meeting, Paris, June 2003 Radiometeric Calibration Spectral irradiance scale based on cryogenic radiometer of PTB (Berlin) transferred via calibrated trap detector Radiometric response determined every 6 months by spectral comparator facility.  Reference instrument N01 is assumed to be radiometrically stable to <±0.5%  Top_of_Atmosphere constant V 0 could be determined in the laboratory if an accurate extraterrestrial solar spectrum was available.

AEROCOM meeting, Paris, June 2003 Annual Statistics 2000

AEROCOM meeting, Paris, June 2003 Annual Statistics 2002

AEROCOM meeting, Paris, June 2003 More Stations 2001÷2002

AEROCOM meeting, Paris, June 2003 MLO Comparison 2000: Methodology Mauna Loa co-location site for Aeronet and GAW/PFR AERONET/CIMEL and GAW/PFR data compared at individual samples level Aeronet Level2 data (380, 440, 500, 870nm) as published on internet † GAW/PFR with interpolated calibration (drift <0.25%/year)  CIMEL channels are interpolated to WMO wavelengths of PFR by Ångström’s law using instantaneously derived wavelength exponents.  PFR one minute samples are interpolated in time to CIMEL observation scheme † with kind permission of Dr. Brent Holben, Aeronet PI, NASA/GSFC

AEROCOM meeting, Paris, June 2003 MLO Comparison 2000: Optical Depths N = 4705 cloudfree samples compared Wavelength: Mean slope: Mean bias : RMS diff. : Mean AOD :  Excellent agreement within OD at calibration site!

AEROCOM meeting, Paris, June 2003 MLO Comparison 2000: Ångström Averages Alpha(Cimel): 1.81±0.5; Aeronet(2000) : 1.83±0.3 Alpha(PFR) : 1.63±0.26; Aeronet(climat): 1.69±0.24  Marked differences between both radiometers, although they agree well in optical depth.  Ångström exponent  is a less reliable parameter for satellite ground truthing or model verification.

AEROCOM meeting, Paris, June 2003 BLO Comparison 2001 Five instruments operating under 4 network protocols co-located at Bratt‘s Lake were compared during 3 months in summer 2001: Cimel (Aeronet); PFR(GAW); SP01 (MSC), 2 MFRSR (MSC and USDA)  3 direct pointed radiometers agreed within ±0.01 (2  ) optical depths  Significant improvements were obtained through cloud screening algorithms  Difference between 2 MFRSR were almost as large as optical depths  Large differences in derived Ångström  parameters were found McArthur, B.L.J., Halliwell, D.H., Neibergall, O.J. O'Neill, N.T., Slusser, J.R. and Wehrli, C.; Field comparison of network sunphotometers JGR 2002JD002964R

AEROCOM meeting, Paris, June 2003 Conclusions A new network of AOD measurements is under construction within the WMO Global Atmosphere Watch program, that includes a calibration and data quality control concept. Data are available since 1999 with  10 stations in operation now. Uncertainty is  0.01 optical depths as estimated from comparisons.