Characterization of Upper-Troposphere Water Vapor Measurements during AFWEX Using LASE

Water vapor mass mixing ratio profiles from NASA's Lidar Atmospheric Sensing Experiment (LASE) system acquired during the Atmospheric Radiation Measurement (ARM)–First International Satellite Cloud Climatology Project (ISCCP) Regional Experiment (FIRE) Water Vapor Experiment (AFWEX) are used as...

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Published inJournal of atmospheric and oceanic technology Vol. 21; no. 12; pp. 1790 - 1808
Main Authors Ferrare, R. A., Browell, E. V., Ismail, S., Kooi, S. A., Brasseur, L. H., Brackett, V. G., Clayton, M. B., Barrick, J. D. W., Diskin, G. S., Goldsmith, J. E. M., Lesht, B. M., Podolske, J. R., Sachse, G. W., Schmidlin, F. J., Turner, D. D., Whiteman, D. N., Tobin, D., Miloshevich, L. M., Revercomb, H. E., Demoz, B. B., Di Girolamo, P.
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.12.2004
Subjects
Aircraft
Atmosphere
Climate
Climatology
Comparative studies
Lidar
Radiation measurement
Radiosondes
Troposphere
Water vapor
USA, Oklahoma
Online AccessGet full text
ISSN0739-0572
1520-0426
DOI10.1175/JTECH-1652.1

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Abstract Water vapor mass mixing ratio profiles from NASA's Lidar Atmospheric Sensing Experiment (LASE) system acquired during the Atmospheric Radiation Measurement (ARM)–First International Satellite Cloud Climatology Project (ISCCP) Regional Experiment (FIRE) Water Vapor Experiment (AFWEX) are used as a reference to characterize upper-troposphere water vapor (UTWV) measured by ground-based Raman lidars, radiosondes, and in situ aircraft sensors over the Department of Energy (DOE) ARM Southern Great Plains (SGP) site in northern Oklahoma. LASE was deployed from the NASA DC-8 aircraft and measured water vapor over the ARM SGP Central Facility (CF) site during seven flights between 27 November and 10 December 2000. Initially, the DOE ARM SGP Cloud and Radiation Testbed (CART) Raman lidar (CARL) UTWV profiles were about 5%–7% wetter than LASE in the upper troposphere, and the Vaisala RS80-H radiosonde profiles were about 10% drier than LASE between 8 and 12 km. Scaling the Vaisala water vapor profiles to match the precipitable water vapor (PWV) measured by the ARM SGP microwave radiometer (MWR) did not change these results significantly. By accounting for an overlap correction of the CARL water vapor profiles and by employing schemes designed to correct the Vaisala RS80-H calibration method and account for the time response of the Vaisala RS80-H water vapor sensor, the average differences between the CARL and Vaisala radiosonde upper-troposphere water vapor profiles are reduced to about 5%, which is within the ARM goal of mean differences of less than 10%. The LASE and DC-8 in situ diode laser hygrometer (DLH) UTWV measurements generally agreed to within about 3%–4%. The DC-8 in situ frost point cryogenic hygrometer and Snow White chilled-mirror measurements were drier than the LASE, Raman lidars, and corrected Vaisala RS80H measurements by about 10%–25% and 10%–15%, respectively. Sippican (formerly VIZ Manufacturing) carbon hygristor radiosondes exhibited large variabilities and poor agreement with the other measurements. PWV derived from the LASE profiles agreed to within about 3% on average with PWV derived from the ARM SGP microwave radiometer. The agreement between the LASE and MWR PWV and the LASE and CARL UTWV measurements supports the hypotheses that MWR measurements of the 22-GHz water vapor line can accurately constrain the total water vapor amount and that the CART Raman lidar, when calibrated using the MWR PWV, can provide an accurate, stable reference for characterizing upper-troposphere water vapor.
AbstractList Water vapor mass mixing ratio profiles from NASA's Lidar Atmospheric Sensing Experiment (LASE) system acquired during the Atmospheric Radiation Measurement (ARM)-First International Satellite Cloud Climatology Project (ISCCP) Regional Experiment (FIRE) Water Vapor Experiment (AFWEX) are used as a reference to characterize upper-troposphere water vapor (UTWV) measured by ground-based Raman lidars, radiosondes, and in situ aircraft sensors over the Department of Energy (DOE) ARM Southern Great Plains (SGP) site in northern Oklahoma. LASE was deployed from the NASA DC-8 aircraft and measured water vapor over the ARM SGP Central Facility (CF) site during seven flights between 27 November and 10 December 2000. Initially, the DOE ARM SGP Cloud and Radiation Testbed (CART) Raman lidar (CARL) UTWV profiles were about 5%-7% wetter than LASE in the upper troposphere, and the Vaisala RS80-H radiosonde profiles were about 10% drier than LASE between 8 and 12 km. Scaling the Vaisala water vapor profiles to match the precipitable water vapor (PWV) measured by the ARM SGP microwave radiometer (MWR) did not change these results significantly. By accounting for an overlap correction of the CARL water vapor profiles and by employing schemes designed to correct the Vaisala RS80-H calibration method and account for the time response of the Vaisala RS80-H water vapor sensor, the average differences between the CARL and Vaisala radiosonde upper-troposphere water vapor profiles are reduced to about 5%, which is within the ARM goal of mean differences of less than 10%. The LASE and DC-8 in situ diode laser hygrometer (DLH) UTWV measurements generally agreed to within about 3%-4%. The DC-8 in situ frost point cryogenic hygrometer and Snow White chilled-mirror measurements were drier than the LASE, Raman lidars, and corrected Vaisala RS80H measurements by about 10%-25% and 10%-15%, respectively. Sippican (formerly VIZ Manufacturing) carbon hygristor radiosondes exhibited large variabilities and poor agreement with the other measurements. PWV derived from the LASE profiles agreed to within about 3% on average with PWV derived from the ARM SGP microwave radiometer. The agreement between the LASE and MWR PWV and the LASE and CARL UTWV measurements supports the hypotheses that MWR measurements of the 22-GHz water vapor line can accurately constrain the total water vapor amount and that the CART Raman lidar, when calibrated using the MWR PWV, can provide an accurate, stable reference for characterizing upper-troposphere water vapor.
Water vapor mass mixing ratio profiles from NASA's Lidar Atmospheric Sensing Experiment (LASE) system acquired during the Atmospheric Radiation Measurement (ARM)-First International Satellite Cloud Climatology Project (ISCCP) Regional Experiment (FIRE) Water Vapor Experiment (AFWEX) are used as a reference to characterize upper-troposphere water vapor (UTWV) measured by ground-based Raman lidars, radiosondes, and in situ aircraft sensors over the Department of Energy (DOE) ARM Southern Great Plains (SGP) site in northern Oklahoma. LASE was deployed from the NASA DC-8 aircraft and measured water vapor over the ARM SGP Central Facility (CF) site during seven flights between 27 November and 10 December 2000. Initially, the DOE ARM SGP Cloud and Radiation Testbed (CART) Raman lidar (CARL) UTWV profiles were about 5%-7% wetter than LASE in the upper troposphere, and the Vaisala RS80-H radiosonde profiles were about 10% drier than LASE between 8 and 12 km. Scaling the Vaisala water vapor profiles to match the precipitable water vapor (PWV) measured by the ARM SGP microwave radiometer (MWR) did not change these results significantly. By accounting for an overlap correction of the CARL water vapor profiles and by employing schemes designed to correct the Vaisala RS80-H calibration method and account for the time response of the Vaisala RS80-H water vapor sensor, the average differences between the CARL and Vaisala radiosonde upper-troposphere water vapor profiles are reduced to about 5%, which is within the ARM goal of mean differences of less than 10%. The LASE and DC-8 in situ diode laser hygrometer (DLH) UTWV measurements generally agreed to within about 3%-4%. The DC-8 in situ frost point cryogenic hygrometer and Snow White chilled-mirror measurements were drier than the LASE, Raman lidars, and corrected Vaisala RS80H measurements by about 10%-25% and 10%-15%, respectively. Sippican (formerly VIZ Manufacturing) carbon hygristor radiosondes exhibited large variabilities and poor agreement with the other measurements. PWV derived from the LASE profiles agreed to within about 3% on average with PWV derived from the ARM SGP microwave radiometer. The agreement between the LASE and MWR PWV and the LASE and CARL UTWV measurements supports the hypotheses that MWR measurements of the 22-GHz water vapor line can accurately constrain the total water vapor amount and that the CART Raman lidar, when calibrated using the MWR PWV, can provide an accurate, stable reference for characterizing upper-troposphere water vapor. [PUBLICATION ABSTRACT]
Author Schmidlin, F. J.
Brasseur, L. H.
Tobin, D.
Sachse, G. W.
Whiteman, D. N.
Brackett, V. G.
Diskin, G. S.
Podolske, J. R.
Clayton, M. B.
Browell, E. V.
Ismail, S.
Kooi, S. A.
Lesht, B. M.
Barrick, J. D. W.
Revercomb, H. E.
Goldsmith, J. E. M.
Turner, D. D.
Miloshevich, L. M.
Demoz, B. B.
Ferrare, R. A.
Di Girolamo, P.
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  surname: Ferrare
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  organization: NASA Langley Research Center, Hampton, Virginia
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  organization: NASA Langley Research Center, Hampton, Virginia
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  organization: NASA Langley Research Center, Hampton, Virginia
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  organization: NASA Langley Research Center, Hampton, Virginia
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  surname: Diskin
  fullname: Diskin, G. S.
  organization: NASA Langley Research Center, Hampton, Virginia
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  surname: Goldsmith
  fullname: Goldsmith, J. E. M.
  organization: Sandia National Laboratories, Livermore, California
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  surname: Lesht
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  organization: Argonne National Lab, Argonne, Illinois
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  surname: Podolske
  fullname: Podolske, J. R.
  organization: NASA Ames Research Center, Moffett Field, California
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  givenname: G. W.
  surname: Sachse
  fullname: Sachse, G. W.
  organization: NASA Langley Research Center, Hampton, Virginia
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  givenname: F. J.
  surname: Schmidlin
  fullname: Schmidlin, F. J.
  organization: NASA Wallops Flight Facility, Wallops Island, Virginia
– sequence: 15
  givenname: D. D.
  surname: Turner
  fullname: Turner, D. D.
  organization: Pacific Northwest National Laboratory, Richland, Washington
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  surname: Whiteman
  fullname: Whiteman, D. N.
  organization: NASA Goddard Space Flight Center, Greenbelt, Maryland
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  surname: Tobin
  fullname: Tobin, D.
  organization: University of Wisconsin—Madison, Madison, Wisconsin
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  surname: Miloshevich
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  organization: National Center for Atmospheric Research, Boulder, Colorado
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  surname: Revercomb
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  organization: University of Wisconsin—Madison, Madison, Wisconsin
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  surname: Demoz
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  organization: NASA Goddard Space Flight Center, Greenbelt, Maryland
– sequence: 21
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  surname: Di Girolamo
  fullname: Di Girolamo, P.
  organization: DIFA, Università della Basilicata, Potenza, Italy
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PublicationCentury 2000
PublicationDate 2004-12-01
PublicationDateYYYYMMDD 2004-12-01
PublicationDate_xml – month: 12
  year: 2004
  text: 2004-12-01
  day: 01
PublicationDecade 2000
PublicationPlace Boston
PublicationPlace_xml – name: Boston
PublicationTitle Journal of atmospheric and oceanic technology
PublicationYear 2004
Publisher American Meteorological Society
Publisher_xml – name: American Meteorological Society
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Snippet Water vapor mass mixing ratio profiles from NASA's Lidar Atmospheric Sensing Experiment (LASE) system acquired during the Atmospheric Radiation Measurement...
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SubjectTerms Aircraft
Atmosphere
Climate
Climatology
Comparative studies
Lidar
Radiation measurement
Radiosondes
Troposphere
Water vapor
Title Characterization of Upper-Troposphere Water Vapor Measurements during AFWEX Using LASE
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Volume 21
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