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Below is the combined list of references from refs_sat.bib and refs_external.bib. It is intended for our group's internal use.

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Group references

In the Pipeline

    Articles

      2015 Back to top

    1. Mathew, N., V. O. John, C. S. Raju, and K. K. Moorthy (2015), Upper tropospheric humidity from SAPHIR on-board Megha-TropiquesCurr. Sci., 108(10), 1915–1922.
    2. Clain, G., H. Brogniez, V. H. Payne and, V. O. John, and M. Luo (2015), An assessment of SAPHIR calibration using quality tropical soundingsJ. Atmos. Oceanic Technol., 32, 61–78, doi:10.1175/JTECH-D-14-00054.1.

      3. 2013 Back to top

    3. Moradi, I., S. A. Buehler, V. O. John, A. Reale, and R. R. Ferraro (2013), Evaluating instrumental inhomogeneities in global radiosonde upper tropospheric humidity data using microwave satellite dataIEEE Geosci. Remote Sens., 51(6), 3615–3624, doi:10.1109/TGRS.2012.2220551.

      4. 2012 Back to top

    4. Kottayil, A., S. A. Buehler, V. O. John, L. M. Miloshevich, M. Milz, and G. Holl (2012), On the importance of Vaisala RS92 radiosonde humidity corrections for a better agreement between measured and modeled satellite radiancesJ. Atmos. Oceanic Technol., 29, 248–259, doi:10.1175/JTECH-D-11-00080.1.

      5. 2011 Back to top

    5. Moradi, I., S. A. Buehler, V. O. John, and S. Eliasson (2011), Correction to "Comparing upper tropospheric humidity data from microwave satellite instruments and tropical radiosondes"J. Geophys. Res., 116, D10305, doi:10.1029/2011JD015962.

      6. 2010 Back to top

    6. Moradi, I., S. A. Buehler, V. O. John, and S. Eliasson (2010), Comparing upper tropospheric humidity data from microwave satellite instruments and tropical radiosondesJ. Geophys. Res., 115, D24310, doi:10.1029/2010JD013962.

      7. 2005 Back to top

    7. John, V. O. and S. A. Buehler (2005), Comparison of microwave satellite humidity data and radiosonde profiles: A Survey of European stationsAtmos. Chem. Phys., 5, 1843–1853, SRef-ID:1680-7324/acp/2005-5-1843, doi:10.5194/acp-5-1843-2005.

      8. 2004 Back to top

    8. Buehler, S. A., M. Kuvatov, V. O. John, U. Leiterer, and H. Dier (2004), Comparison of Microwave Satellite Humidity Data and Radiosonde Profiles: A Case StudyJ. Geophys. Res., 109, D13103, doi:10.1029/2004JD004605.

    Books and Book Contributions

      Theses

        Technical Reports and Proposals

          Articles in Conference Proceedings and Newsletters

            2010 Back to top

          1. Moradi, I, S. A. Buehler, and V. O. John (2010), Comparing upper tropospheric humidity from microwave satellite instruments and IGRA radiosonde data, In: Microwave Radiometry and Remote Sensing of the Environment (MicroRad), 2010 11th Specialist Meeting on, pp. 146–151, IEEE, doi:10.1109/MICRORAD.2010.5559573.

          Internal Reports

            External references

            1. Angell, J. K. (2000), Difference in radiosonde temperature trend for the period 1979–1998 of MSU data and the period 1959–1998 twice as longGeophys. Res. Lett., 27(15), 2177–2180.
            2. Balling Jr., R. C. and R. S. Cerveny (2003), Analysis of radiosonde-based lapse rates and the difference between near-surface and satellite-based lower-tropospheric air temperatures over the central United StatesGeophys. Res. Lett., 30(7), doi:10.1029/2002GL0106693.
            3. Bauer, M., A. D. del Genio, and J. R. Lanzante (2002), Observed and Simulated Temperature-Humidity Relationships: Sensitivity to Sampling and AnalysisJ. Climate, 15, 203–215.
            4. Brzoska, B., A. Jaczewski, and Z. Litynska (1111), Homogenisation of water vapour data from RS-80A and RS-90 radiosondes, Institute of Meterology and Water Management.
            5. Chrysoulakis, N., M. Proedrou, and C. Cartalis (2003), Variations and trends in annual and seasonal means of precipitable water in Greece as deduced from radiosonde measurements, Institute of Applied Mathematics, University of Athens.
            6. Cimini, D., F. Nasir, E. R. Westwater, V. H. Payne, D. D. Turner, E. J. Mlawer, M. L. Exner, and M. P. Cadeddu (2009), Comparison of Ground-Based Millimeter-Wave Observations and Simulations in the Arctic WinterIEEE T. Geosci. Remote, 47(9), 3098–3106, doi:10.1109/TGRS.2009.2020743.
            7. Dai, A., J. Wang, R. H. Ware, and T. Van Hove (2002), Diurnal variation in water vapor over North America and its implications for sampling errors in radiosonde humidityJ. Geophys. Res., 107(D10), doi:10.1029/2001JD000642.
            8. Decker, M. T., E. R. Westwater, and F. O. Guiraud (1978), Experimental Evaluation of Ground-Based Microwave Radiometric Sensing of Atmospheric Temperature and Water Vapor ProfilesJ. Appl. Meteorol., 17(12), 1788–1795.
            9. Dirksen, R. J., M. Sommer, F. J. Immler, D.F. Hurst, R. Kivi, and H. Vömel (2014), Reference quality upper-air measurements: GRUAN data processing for the Vaisala RS92 radiosondeAtmos. Meas. Tech., 7(12), 4463–4490, doi:10.5194/amt-7-4463-2014.
            10. I. Durre, R. S. Vose and D. B. Wuertz (2006), Overview of the Integrated Global Radiosonde ArchivsJ. Climate, 19(1), 53–68, doi:10.1175/JCLI3594.1.
            11. Durre, I. and Y. Xungang (2008), Enhanced radiosonde data for studies of vertical structureBull. Amer. Met. Soc., 89(9), 1257–1262, doi:10.1175/2008BAMS2603.1.
            12. Elliott, W. P., R. J. Ross, and W. H. Blackmore (2002), Recent Changes in NWS Upper-Air Observations with Emphasis on Changes from VIZ to Vaisala RadiosondesBull. Amer. Met. Soc., 1003–1017.
            13. Elliott, W. P. and D. J. Gaffen (1991), On the Utility of Radiosonde Humidity Archives for Climate StudiesBull. Amer. Met. Soc., 72(10), 1507–1520.
            14. England, M. N., F. J. Schmidlin, and J. M. Johansson (1993), Atmospheric Moisture Measurements: A Microwave Radiometer - Radiosonde ComparisonIEEE Geosci. Remote Sens., 31(2), 389–398.
            15. Fiorucci, I., G. Muscari, C. Bianchi, P. Di Girolamo, F. Esposito, G. Grieco, D. Summa, G. Bianchini, L. Palchetti, M. Cacciani, T. Di Iorio, G. Pavese D. Cimini, and R. L. de Zafra (2008), Measurements of low amounts of precipitable water vapor by millimeter wave spectroscopy: An intercomparison with radiosonde, Raman lidar, and Fourier transform infrared dataJ. Geophys. Res., 113, D14314, doi:10.1029/2008JD009831.
            16. Folkins, I. (2013), The melting level stability anomaly in the tropicsAtmos. Chem. Phys., 13, 1167–1176, doi:10.5194/acp-13-1167-2013.
            17. Free, M., et al. (2002), Creating Climate Refence Datasets. CARDS Workshop on Adjusting Radiosonde Temperature Data for Climate MonitoringBull. Amer. Met. Soc., 891–899.
            18. Garand, L., C. Grassotti, J. Halle, and G. L. Klein (1992), On Differences in Radiosonde Humidity-Reporting Practices and Their Implications for Numerical Weather Prediction and Remote SensingBull. Amer. Met. Soc., 73(9), 1417–1423.
            19. Guo, Y., P. W. Thorne, M. P. McCarthy, H. A. Titchner, B. Huang, P. Zhaia, and Y. Dinga (2008), Radiosonde temperature trends and their uncertainties over eastern ChinaInt. J. Climatol., 28, 1269–1281, doi:10.1002/joc.1633.
            20. Hurrell, J. W., S. J. Brown, K. E. Trenberth, and J. R. Christy (2000), Comparison of Tropospheric Temperatures from Radiosonde and Satellite: 1979–98Bull. Amer. Met. Soc., 81(9), 2165–2177.
            21. Immler, F. J., J. Dykema, T. Gardiner, D. N. Whiteman, P. W. Thorne, and H. Vömel (2010), Reference Quality Upper-Air Measurements: guidance for developing GRUAN data productsAtmos. Meas. Tech., 3, 1217–1231, doi:10.5194/amt-3-1217-2010.
            22. Jeannet, P., B. Hoegger, and G. Levrat (2002), Comparison of a chilled mirror hygrometer and a carbon hygristor for radiosonde humidity measurements, MeteoSwiss.
            23. Klein, M. and A. J. Gasiewski (1998), The Sensitivity of Millimeter and Sub-millimeter Frequencies to Atmospheric Temperature and Water Vapor Variations, , pp. 568–571, This paper appears in Geoscience and Remote Sensing Symposium Proceedings, 1998. IGARSS '98. 1998 IEEE International.
            24. Lait, L. R. (2002), Systematic differences between radiosonde instrumentsGeophys. Res. Lett., 29, doi:10.1029/2001GL014337.
            25. Leiterer, U., H. Dier, D. Nagel, and T. Naebert (2002), Method for Correction of RS80 A-Humicap Humidity Profiles, Meteorologica Observatory Lindenberg, Institute for Tropospheric Research (IfT).
            26. Leiterer, U., H. Dier, and T. Naebert (1997), Improvements in Radiosonde Humidity Profiles Using RS80/RS90 Radiosonde of VaisalaPhys. Atmosph., 70(4), 319–336.
            27. Leiterer, U. (1111), Technische Beschreibung der Radiosonde RS 80, , Allgemeine Beschreibung und Arbeitsweise.
            28. Lesht, B. M. and J. C. Liljegren (1996), Comparison of Precipitable Water Vapor Measurements Obtained by Microwave Radiometry and Radiosondes at the Southern Great Plains Cloud and Radiation Testbed Site, Argonne National Laboratory, Pacific Northwest National Laboratory.
            29. Lesht, B. M. (1997), An Internal Analysis of SGP/CART Radiosonde Performance During the September 1996 Water Vapor Intensive Observation Period, Argonne National Laboratory.
            30. Lesht, B. M. (1999), Reanalysis of Radiosonde Data from the 1996 and 1997 Water Vapor Intensive Observation Periods: Application of the Vaisala RS-80H Contamination Correction Algorithm to Dual-Sonde Sounding, Argonne National Laboratory, Ninth ARM Science Team Meeting Proceedings.
            31. Liou, Y.-A., Y.-T. Teng, T. van Hove, and J. C. Liljegren (2001), Comparison of Precipitable Water Observations in the Near Tropics by GPS, Microwave Radiometer, and RadiosondesJ. Appl. Meteorol., 40, 5–15.
            32. Mahesh, A., V. P. Walden, and S. G. Warren (1997), Radiosonde Temperature Measurements in Strong Inversions: Correction for Thermal Lag Based on an Experiment at the South PoleJ. Atmos. Oceanic Technol., 14, 45–53.
            33. Mattioli, V., P. Basili, S. Bonafoni, P. Ciotti, and E. R. Westwater (2009), Analysis and improvements of cloud models for propagation studiesRadio Sci., 44, RS2005, doi:10.1029/2008RS003876.
            34. McMillin, L. M., M. E. Gelman, A. Sanyal, and M. Sylva (1988), A Method for the Use of Satellite Retrievals as a Transfer Standard to Determine Systematic Radiosonde ErrorsMon. Weather Rev., 116, 1091–1102.
            35. Miloshevich, L. M., A. J. Heymsfield, and A. Paukkunen (2001), Preliminary Correction of Vaisala Radiosonde Humidity Measurements for Slow Sensor Time-Response at Cold Temperatures, National Center for Atmospheric Research, Vaisala Oy, Eleventh ARM Science Team Meeting Proceedings.
            36. Miloshevich, L. M., A. Paukkunen, H. Voemel, and S. J. Oltmans (2002), Impact of Vaisala Radiosonde Humidity Corrections on ARM IOP Data, National Center for Atmospheric Research, Vaisala Oy, National Oceanic and Atmospheric Administration, Twelfth ARM Science Team Meeting Proceedings.
            37. Miloshevich, L. M., A. Paukkunen, H. Vömel, and S. J. Oltmans (2004), Development and Validation of a Time-Lag Correction for Vaisala Radiosonde Humidity MeasurementJ. Atmos. Oceanic Technol., 21, 1305–1327, doi:10.1175/1520-0426(2004)021<1305:DAVOAT>2.0.CO;2.
            38. Miloshevich, L. M., H. Vömel, D. N. Whiteman, and T. Leblanc (2009), Accuracy assessment and correction of Vaisala RS92 radiosonde water vapor measurementsJ. Geophys. Res., 114, D11305, doi:10.1029/2008JD011565.
            39. Nakamura, H., H. Seko, and Y. Shoji (2004), Dry Biases of Humidity Measurements from the Vaisala RS80-A and Meisei RS2-91 Radiosondes from Ground-Based GPSJ. Meteorol. Soc. Jpn., 82(1B), 277–299.
            40. Niell, A. E., A. J. Coster, F. S. Solheim, V. B. Mendes, P. C. Toor, R. B. Langley, and C. A. Ruggles (1996), Measurements of Water Vapor by GPS, WVR, and Radiosonde, Haystack Observatory, Lincoln Laboratory, Radiometrics Corp., University of New Brunswick.
            41. Parker, D. J., A. Fink, S. Janicot, J.-B. Ngamini, M. Douglas, E. Afiesimama, A. Agusti-Panareda, A. Beljaars, F. Dide, A. Diedhiou, T. Lebel, J. Polcher, J.-L. Redelsperger, and C. Thorncroft And G. A. Wilson (2008), The AMMA radiosonde program and its implications for the future of atmospheric monitoring over AfricaBull. Amer. Met. Soc., 89, 1015–1027, doi:10.1175/2008BAMS2436.1.
            42. Pulvirenti, L., N. Pierdicca, and F. S. Marzano (2005), Simulating Brightness Temperatures in Cloudy Conditions Over the Mediterranean Sea, In: Proceedings of the XXIXth General Assembly of International Union of Radio Science (URSI), New Delhi.
            43. Rosenkranz, P. W. and C. D. Barnet (2006), Microwave radiative transfer model validationJ. Geophys. Res., 111, D09S07, doi:10.1029/2005JD006008.
            44. Rosenkranz, P. W. (2006), Satellite-based Radiometer Measurements at 150 and 183 GHz Compared with Calculated Brightness Temperatures, Research Laboratory of Electronics, Massachusetts Institute of Technology.
            45. Ross, R. J., W. P. Elliot, and D. J. Seidel (2002), Lower-Tropospheric Humidity-Temperature Relationships in Radiosonde Observations and Atmospheric General Circulation ModelsJournal of Hydrometerology, 3, 26–38.
            46. Roy, B., J. B. Halverson, and J. Wang (2004), The Influence of Radiosonde "Age" on TRMM Field Campaign Sounding Humidity CorrectionJ. Atmos. Oceanic Technol., 21, 470–480.
            47. Santer, B. D., T. M. L. Wigley, J. S. Boyle, D. J. Gaffen, J. J. Hnilo, D. Nychka, D. E. Parker, and K. E. Taylor (2000), Statistical significance of trends and trend differences in layer-average atmospheric temperature time seriesJ. Geophys. Res., 105(D6), 7337–7356, doi:10.1029/1999JD901105.
            48. Schroeder, S. R. (1111), Completing Instrument Metadata and Adjusting Biases in the Radiosonde Record to Allow Determination of Global Precipitable Water Trends, Texas A&M University.
            49. Schroeder, S. R. (1111), Global Precipitable Water Variations since 1973 based on Preliminary Radiosonde Instrument Adjustments, Texas A&M University.
            50. Seidel, D. J., R. J. Ross, J. K. Angell, and G. C. Reid (2001), Climatological characteristics of the tropical tropopause as revealed by radiosondesJ. Geophys. Res., 106(D8), 7857–7878, doi:10.1029/2000JD900837.
            51. Seidel, D. J., B. Sun, M. Pettey, and A. Reale (2011), Global radiosonde balloon drift statisticsJ. Geophys. Res.: Atm., 116, D07102, doi:10.1029/2010JD014891.
            52. Sharpe, M. C. and B. Macpherson (1111), Developments in the correction of radiosonde relative humidity biases, Met Office, Forecasting Research Technical Report No. 389.
            53. Smith, W. L. and C. M. R. Platt (1978), Comparison of Satellite-Deduced Cloud Heights with Indications from Radiosonde and Ground-Based Laser MeasurementsJ. Appl. Meteorol., 17, 1796–1802.
            54. Spencer, R. W. and J. R. Christy (1992), Precision and Radiosonde Validation of Satellite Gridpoint Temperature Anomalies. Part I: MSU Channel 2J. Climate, 5(8), 847–857, doi:10.1175/1520-0442.
            55. Suortti, T. M., A. Kats, R. Kivi, N. Kämpfer, U. Leiterer, L. M. Miloshevich, R. Neuber, A. Paukkunen, P. Ruppert, H. Vömel, and V. Yushkov (2008), Tropospheric Comparisons of Vaisala Radiosondes and Balloon-Borne Frost-Point and Lyman- Hygrometers during the LAUTLOS-WAVVAP ExperimentJ. Atmos. Oceanic Technol., 25, 149–166, doi:10.1175/2007JTECHA887.1.
            56. Thompson, A. M., J. C. Witte, S. J. Oltmans, and F. J. Schmidlin (2004), SHADOZ - A tropical ozonesonde-radiosonde network for the atmospheric communityBull. Amer. Met. Soc., 85(10), 1549–1564, doi:10.1175/BAMS-85-10-1549.
            57. Turner, D. D., B. M. Lesht, S. A. Clough, J. C. Liljegren, H. E. Revercomb, and D. C. Tobin (2003), Dry Bias and Variability in Vaisala RS80-H Radiosondes: The ARM ExperienceJ. Atmos. Oceanic Technol., 20, 117–132.
            58. Vance, A. K., J. P. Taylor, T. J. Hewison, and J. Elms (2004), Comparison of In Situ Humidity Data from Aircraft, Dropsonde, and RadiosondeJ. Atmos. Oceanic Technol., 21, 921–932.
            59. Vömel, H., H. Selkirk, L. Miloshevich, J. Valverde-Canossa, J. Valdes, E. Kyroe, R. Kivi, W. Stolz, G. Peng, and J. A. Diaz (2007), Radiation dry bias of the Vaisala RS92 humidity sensorJ. Atmos. Oceanic Technol., 24(6), 953–963, doi:10.1175/JTECH2019.1.
            60. Wang, J. H., H. L. Cole, D. J. Carlson, E. R. Miller, K. Beierle, A. Paukkunen, and T. K. Laine (2002), Corrections of humidity measurement errors from the Vaisala RS80 radiosonde - Application to TOGA COARE dataJ. Atmos. Oceanic Technol., 19(7), 981–1002, doi:10.1175/1520-0426(2002)019<0981:COHMEF>2.0.CO;2.
            61. Wang, J., D. J. Carlson, D. B. Parsons, T. F. Hock, D. Lauritsen, H. L. Cole, K. Beierle, and E. Chamberlain (2003), Performance of operational radiosonde humidity sensors in direct comparison with a chilled mirror dew-point hygrometer and its climate implicationGeophys. Res. Lett., 30(16), doi:10.1029/2003GL016985.
            62. Westwater, E. R., Y. Han, B. B. Stankov, C. N. Long, B. M. Lesht, and J. Shannahoff (2000), Microwave Radiometers and Radiosondes During Nauru99, University of Colorado, National Oceanic and Atmospheric Adminstration, Pacific Northwest National Laboratory, Argonne National Laboratory, Tenth ARM Science Team Meeting Proceedings.
            63. Westwater, E. R., Y. Han, B. B. Stankov, J. A. Shaw, D. Cimini, and B. M. Lesht (2001), Nauru 99: Scaling of Radiosondes by Microwave Radiometers, University of Colorado,National Oceanic and Atmospheric Adminstration, University of L'Aquila,Argonne National Laboratory, Eleventh ARM Science Team Meeting Proceedings.
            64. Westwater, E. R., B. B. Stankov, D. Cimini, Y. Han, J. A. Shaw, B. M. Lesht, and C. N. Long (2003), Radiosonde Humidity Soundings and Microwave Radiometers during Nauru99J. Atmos. Oceanic Technol., 20, 953–971.
            65. Zaitseva, N. A. (1993), Historical Developments in Radiosonde Systems in the Former Soviet UnionBull. Amer. Met. Soc., 74(10), 1893–1900.
            66. Zhai, P. and R. E. Eskridge (1996), Analyses of Inhomogeneities in Radiosonde Temperature and Humidity Time SeriesJ. Climate, 9, 1–17.