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Premium member Presentation Transcript Radiosonde and Hygrometer humitidy measurements at Sodankylä NDACC-H2O workshop, IAP, University of Bern July 5-7, 2006 Esko Kyrö, Tuomo Suortti, Rigel Kivi, and Alexey Karpechko, Finnish Meterological Institute –Arctic Research Centre : Radiosonde and Hygrometer humitidy measurements at Sodankylä NDACC-H2O workshop, IAP, University of Bern July 5-7, 2006 Esko Kyrö, Tuomo Suortti, Rigel Kivi, and Alexey Karpechko, Finnish Meterological Institute –Arctic Research Centre RS13/15 : 1967-1975 RS13 : 1976-1981 RS80: 1982-1999 RS90: 2000-2004 RS92: 2005->: RS13/15 : 1967-1975 RS13 : 1976-1981 RS80: 1982-1999 RS90: 2000-2004 RS92: 2005->Sonde sensor evolution creates discontinuities in the timeseries: Sonde sensor evolution creates discontinuities in the timeseriesSlide4: 1. Finnish Met. Institute-Arctic Research Centre , Sodankylä, Finland 2. Vaisala Oyj, Helsinki, Finland 3. Meteolabor AG, Zürich, Switzerland 4. German Weather Service, Meteorological Observatory Lindenberg, Germany 5. Central Aerological Observatory, Moscow, Russia 6. University of Colorado, Boulder, USA 7. Alfred Wegener Institute for Polar and Marine Research, Potsdam, Germany 8. University of Bern , Switzerland Hygrometer Intercomparison Campaign at Sodankylä, LAUTLOS Jan 26-Feb 28 2004Vaisala radiosonde RS-92 (2004-), sensorboom and Sonde packages: Vaisala radiosonde RS-92 (2004-), sensorboom and Sonde packagesSlide6: Vaisala radiosonde RS-80 (1982-1999 at FMI)Slide7: FN-sonde of Lindenberg Observatory, Germany, uses slightly modified Vaisala RS-90 and Lindenberg’s own calibration/calculation methodSnow White Hygrometer, Meteolabor, Switzerland: Snow White Hygrometer, Meteolabor, SwitzerlandCryogenic Frostpoint Hygrometer (CFH) of Colorado University: Cryogen coolled frostpoint mirror, control board and sonde package: Cryogenic Frostpoint Hygrometer (CFH) of Colorado University: Cryogen coolled frostpoint mirror, control board and sonde packageLyman Alpha hygrometer from Central Aerological Observatory, FLASH: Lyman Alpha hygrometer from Central Aerological Observatory, FLASH22 Ghz Microwave radiometer of University of Bern: 22 Ghz Microwave radiometer of University of BernVarious temperature dependent -, Time lag -, and Bias corrections have been developed for radiosondes and they correct to some extent (at least in statistical sense) the sensor biases up to upper troposphere. In the stratosphere the data from the current commercial radiosondes are not usable. : Various temperature dependent -, Time lag -, and Bias corrections have been developed for radiosondes and they correct to some extent (at least in statistical sense) the sensor biases up to upper troposphere. In the stratosphere the data from the current commercial radiosondes are not usable. LAUTLOS: Tropospheric results: LAUTLOS: Tropospheric results Tuomo Suortti Finnish Meteorological Institute Hygrometer inter-comparisons: Radiosondes: RS80-A, RS80-H, RS90, RS92 and FN Frost point hygrometers: NOAA/CMDL, CFH and Snow White Ly-alpha: FLASH-B PLOT KEY: - Plot shows RH differences as a function of temperature (i.e. temperature dependence, TD) - RS92 as used as a reference - Ambient RH is shown by the color scale. - CL=Leiterer TD-correction for RS80-A - CM=Miloshevich TD-correctionSlide17: Holger Vömel et al.: Radiation dry bias of the Vaisala RS92 humidity sensorFLASH - Lyman-α vs. NOOA, Figure from Holger Vömel’s presentation: FLASH - Lyman-α vs. NOOA, Figure from Holger Vömel’s presentationLAUTLOS publications:: LAUTLOS publications: Deuber B., A. Haefele, D. G. Feist, L. Martin, N. Kampfer, G. E. Nedoluha, V. Yushkov, S. Khaykin, R. Kivi, H. Vomel, , Middle Atmospheric Water Vapour Radiometer: Validation and first results of the LAPBIAT Upper Tropospheric Lower Stratospheric Water Vapour Validation Project campaign, J. Geophys. Res., 110, 2005. Karpechko, A., A. Lukyanov, E. Kyro, S. Khaikin, L. Korshunov, R. Kivi and H. Vomel,The water vapour distribution in the Arctic lowermost stratosphere during LAUTLOS campaign and related transport processes including stratosphere-troposphere exchange, Atmos. Chem. Phys. Discuss., Vol. 6, pp 4727-4754, 13-6-2006. Maturilli M., F. Fierli, V. Yushkov, A. Lukyanov, S. Khaykin, and A. Hauchecorne, Stratospheric Water Vapour in the Vicinity of the Arctic Polar Vortex, Annales Geophysicae, accepted , 2006. Suortti, T. M., L. M. Miloshevich, A. Paukkunen, U. Leiterer, A. Kats, R. Kivi, H. Vomel, V. Yushkov, P. Ruppert, R. Neuber, N. Kampfer, The LAUTLOS-WAVAP: Tropospheric comparisons, Submitted to J. Atmos. Oceanic Technol., 2006. Vomel, H., V. Yushkov, S. Khaykin, L. Korshunov, E. Kyro, R.Kivi, Intercomparisons of stratospheric water vapor sensors: FLASH-B and NOAA/CMDL frost point hygrometer, undergoing review process in J. Atmos. Oceanic Technol., 2006. Yushkov, V., A. Lukyanov, S. Khaykin, L. Korshunov, R. Neuber, M. Mueller, E. Kyro, R. Kivi, H. Vomel,, I. Sasano, H. Nakane, Vertical distribution of water vapor in Arctic stratosphere based on LAUTLOS field campaign in January-February 2004, Izvestija Fizika Atmosferoe i Okeana, 2005, T. 41, No. 4, p. 1-9. /in Russian language/ udk 551.506:551.507 Mauritius WMO intercomparison of modern digital radiosondes February 2005: Mauritius WMO intercomparison of modern digital radiosondes February 2005 Vaisala RS92 (Finland) [pressure sensor and GPS height] Graw DFM-97 (Germany) [pressure sensor and GPS height] MODEM M2K2 (France) [GPS height only] Sippican MKIIA (USA) [GPS height only] Meisei RS-01G (Japan) [GPS height only] Meteolabor, SRSD-C34 (Switzerland) [Hypsometer pressure sensor] B. Pathack, Mauritius Meteorological Services, Vacoas, J. Nash and R. Smout, Met Office, Exeter,UK, and, S. Kurnosenko ,Scientific software consultant, US: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 : B. Pathack, Mauritius Meteorological Services, Vacoas, J. Nash and R. Smout, Met Office, Exeter,UK, and, S. Kurnosenko ,Scientific software consultant, US: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 Slide22: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 Slide23: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 Slide24: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005Sodankylä stratospheric water vapor soundings : Sodankylä stratospheric water vapor soundings Observations 1996, 2002-2006 Arctic H2O observations in the LS: Arctic H2O observations in the LS Balloon borne frost point hygrometers flown in the winters of 2002/2003-2005/2006 in Sodankylä (67.4°N). Profiles inside the Arctic vortex (right) and in the vicinity of the vortex (left). From Kivi et al., 2006Slide28: Water vapour in the lower stratosphere during LAUTLOS ΔΘ above therm.trop Height above therm.trop. Potential temperature ΔΘ above dynam.trop DATA: 11 balloon flights of FLASH-B hygrometer; LAUTLOS campaign; 21.01.2004-27.02.2004; Sodankylä, Finland. RESULTS: Troposphere-to-stratosphere transport (TST) occured mainly below 345K. Layer influenced by TST extended up to 2.5 km above local tropopause (or 30K in potential temperature scale) (see Karpechko et al., ACPD, 2006)CFH vs. FLASH-B in Sodankylä, 2006: CFH vs. FLASH-B in Sodankylä, 2006Table from Holger Vömel’s presentation: Table from Holger Vömel’s presentation You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
RS kyro FunSchool Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 124 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 18, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Radiosonde and Hygrometer humitidy measurements at Sodankylä NDACC-H2O workshop, IAP, University of Bern July 5-7, 2006 Esko Kyrö, Tuomo Suortti, Rigel Kivi, and Alexey Karpechko, Finnish Meterological Institute –Arctic Research Centre : Radiosonde and Hygrometer humitidy measurements at Sodankylä NDACC-H2O workshop, IAP, University of Bern July 5-7, 2006 Esko Kyrö, Tuomo Suortti, Rigel Kivi, and Alexey Karpechko, Finnish Meterological Institute –Arctic Research Centre RS13/15 : 1967-1975 RS13 : 1976-1981 RS80: 1982-1999 RS90: 2000-2004 RS92: 2005->: RS13/15 : 1967-1975 RS13 : 1976-1981 RS80: 1982-1999 RS90: 2000-2004 RS92: 2005->Sonde sensor evolution creates discontinuities in the timeseries: Sonde sensor evolution creates discontinuities in the timeseriesSlide4: 1. Finnish Met. Institute-Arctic Research Centre , Sodankylä, Finland 2. Vaisala Oyj, Helsinki, Finland 3. Meteolabor AG, Zürich, Switzerland 4. German Weather Service, Meteorological Observatory Lindenberg, Germany 5. Central Aerological Observatory, Moscow, Russia 6. University of Colorado, Boulder, USA 7. Alfred Wegener Institute for Polar and Marine Research, Potsdam, Germany 8. University of Bern , Switzerland Hygrometer Intercomparison Campaign at Sodankylä, LAUTLOS Jan 26-Feb 28 2004Vaisala radiosonde RS-92 (2004-), sensorboom and Sonde packages: Vaisala radiosonde RS-92 (2004-), sensorboom and Sonde packagesSlide6: Vaisala radiosonde RS-80 (1982-1999 at FMI)Slide7: FN-sonde of Lindenberg Observatory, Germany, uses slightly modified Vaisala RS-90 and Lindenberg’s own calibration/calculation methodSnow White Hygrometer, Meteolabor, Switzerland: Snow White Hygrometer, Meteolabor, SwitzerlandCryogenic Frostpoint Hygrometer (CFH) of Colorado University: Cryogen coolled frostpoint mirror, control board and sonde package: Cryogenic Frostpoint Hygrometer (CFH) of Colorado University: Cryogen coolled frostpoint mirror, control board and sonde packageLyman Alpha hygrometer from Central Aerological Observatory, FLASH: Lyman Alpha hygrometer from Central Aerological Observatory, FLASH22 Ghz Microwave radiometer of University of Bern: 22 Ghz Microwave radiometer of University of BernVarious temperature dependent -, Time lag -, and Bias corrections have been developed for radiosondes and they correct to some extent (at least in statistical sense) the sensor biases up to upper troposphere. In the stratosphere the data from the current commercial radiosondes are not usable. : Various temperature dependent -, Time lag -, and Bias corrections have been developed for radiosondes and they correct to some extent (at least in statistical sense) the sensor biases up to upper troposphere. In the stratosphere the data from the current commercial radiosondes are not usable. LAUTLOS: Tropospheric results: LAUTLOS: Tropospheric results Tuomo Suortti Finnish Meteorological Institute Hygrometer inter-comparisons: Radiosondes: RS80-A, RS80-H, RS90, RS92 and FN Frost point hygrometers: NOAA/CMDL, CFH and Snow White Ly-alpha: FLASH-B PLOT KEY: - Plot shows RH differences as a function of temperature (i.e. temperature dependence, TD) - RS92 as used as a reference - Ambient RH is shown by the color scale. - CL=Leiterer TD-correction for RS80-A - CM=Miloshevich TD-correctionSlide17: Holger Vömel et al.: Radiation dry bias of the Vaisala RS92 humidity sensorFLASH - Lyman-α vs. NOOA, Figure from Holger Vömel’s presentation: FLASH - Lyman-α vs. NOOA, Figure from Holger Vömel’s presentationLAUTLOS publications:: LAUTLOS publications: Deuber B., A. Haefele, D. G. Feist, L. Martin, N. Kampfer, G. E. Nedoluha, V. Yushkov, S. Khaykin, R. Kivi, H. Vomel, , Middle Atmospheric Water Vapour Radiometer: Validation and first results of the LAPBIAT Upper Tropospheric Lower Stratospheric Water Vapour Validation Project campaign, J. Geophys. Res., 110, 2005. Karpechko, A., A. Lukyanov, E. Kyro, S. Khaikin, L. Korshunov, R. Kivi and H. Vomel,The water vapour distribution in the Arctic lowermost stratosphere during LAUTLOS campaign and related transport processes including stratosphere-troposphere exchange, Atmos. Chem. Phys. Discuss., Vol. 6, pp 4727-4754, 13-6-2006. Maturilli M., F. Fierli, V. Yushkov, A. Lukyanov, S. Khaykin, and A. Hauchecorne, Stratospheric Water Vapour in the Vicinity of the Arctic Polar Vortex, Annales Geophysicae, accepted , 2006. Suortti, T. M., L. M. Miloshevich, A. Paukkunen, U. Leiterer, A. Kats, R. Kivi, H. Vomel, V. Yushkov, P. Ruppert, R. Neuber, N. Kampfer, The LAUTLOS-WAVAP: Tropospheric comparisons, Submitted to J. Atmos. Oceanic Technol., 2006. Vomel, H., V. Yushkov, S. Khaykin, L. Korshunov, E. Kyro, R.Kivi, Intercomparisons of stratospheric water vapor sensors: FLASH-B and NOAA/CMDL frost point hygrometer, undergoing review process in J. Atmos. Oceanic Technol., 2006. Yushkov, V., A. Lukyanov, S. Khaykin, L. Korshunov, R. Neuber, M. Mueller, E. Kyro, R. Kivi, H. Vomel,, I. Sasano, H. Nakane, Vertical distribution of water vapor in Arctic stratosphere based on LAUTLOS field campaign in January-February 2004, Izvestija Fizika Atmosferoe i Okeana, 2005, T. 41, No. 4, p. 1-9. /in Russian language/ udk 551.506:551.507 Mauritius WMO intercomparison of modern digital radiosondes February 2005: Mauritius WMO intercomparison of modern digital radiosondes February 2005 Vaisala RS92 (Finland) [pressure sensor and GPS height] Graw DFM-97 (Germany) [pressure sensor and GPS height] MODEM M2K2 (France) [GPS height only] Sippican MKIIA (USA) [GPS height only] Meisei RS-01G (Japan) [GPS height only] Meteolabor, SRSD-C34 (Switzerland) [Hypsometer pressure sensor] B. Pathack, Mauritius Meteorological Services, Vacoas, J. Nash and R. Smout, Met Office, Exeter,UK, and, S. Kurnosenko ,Scientific software consultant, US: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 : B. Pathack, Mauritius Meteorological Services, Vacoas, J. Nash and R. Smout, Met Office, Exeter,UK, and, S. Kurnosenko ,Scientific software consultant, US: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 Slide22: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 Slide23: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 Slide24: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005 B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005: B. Pathack, J. Nash, R. Smout, and S. Kurnosenko: Preliminary Results of WMO Intercomparison of high quality radiosonde systems, Mauritius, February 2005Sodankylä stratospheric water vapor soundings : Sodankylä stratospheric water vapor soundings Observations 1996, 2002-2006 Arctic H2O observations in the LS: Arctic H2O observations in the LS Balloon borne frost point hygrometers flown in the winters of 2002/2003-2005/2006 in Sodankylä (67.4°N). Profiles inside the Arctic vortex (right) and in the vicinity of the vortex (left). From Kivi et al., 2006Slide28: Water vapour in the lower stratosphere during LAUTLOS ΔΘ above therm.trop Height above therm.trop. Potential temperature ΔΘ above dynam.trop DATA: 11 balloon flights of FLASH-B hygrometer; LAUTLOS campaign; 21.01.2004-27.02.2004; Sodankylä, Finland. RESULTS: Troposphere-to-stratosphere transport (TST) occured mainly below 345K. Layer influenced by TST extended up to 2.5 km above local tropopause (or 30K in potential temperature scale) (see Karpechko et al., ACPD, 2006)CFH vs. FLASH-B in Sodankylä, 2006: CFH vs. FLASH-B in Sodankylä, 2006Table from Holger Vömel’s presentation: Table from Holger Vömel’s presentation