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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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                1. Bar-Sever, Y. E., P. M. Kroger, and J. A. Borjesson (1998), Estimating horizontal gradients of tropospheric path delay with a single GPS receiverJ. Geophys. Res., 103(B3), 5019–5035.
                2. Battaglia, A., C. Simmer, and H. Czekala (2006), Three-dimensional effects in polarization signatures as observed from precipitating clouds by low frequency ground-based microwave radiometersAtmos. Chem. Phys., 6, 4383–4394, doi:10.5194/acp-6-4383-2006.
                3. Bevis, M., S. Businger, T. A. Herring, C. Rocken, R. A. Anthes, and R. H. Ware (1992), GPS Meteorology: Remote Sensing of Atmospheric Water Vapor Using the Global Positioning SystemJ. Geophys. Res., 97(D14), 15,787–15,801.
                4. Blumenstock, T., G. Kopp, F. Hase, G. Hochschild, S. Mikuteit, U. Raffalski, and R. Ruhnke (2006), Observation of unusual chlorine activation by ground-based infrared and microwave spectroscopy in the late Arctic winter 2000/2001Atmos. Chem. Phys., 6, 897–905, doi:10.5194/acp-6-897-2006.
                5. Cadeddu, M. P., G. E. Peckham, and C. Gaffard (2002), The Vertical Resolution of Ground-Based Microwave Radiometers Analyzed Through a Multiresolution Wavelet TechniqueIEEE Geosci. Remote Sens., 40(3), 531–540.
                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. Comstock, J. M. and C. Jakob (2004), Evaluation of tropical cirrus cloud properties derived from ECMWF model output and ground based measurements over Nauru IslandGeophys. Res. Lett., 31.
                8. Comstock, J. M., R. D. Entremont, D. DeSlover, G. G. Mace, S. Y. Matrosov, S. A. McFarlane, P. Minnins, D. Mitchell, K. Sassen, M. D. Shupe, D. D. Turner, and Z. Wang (2007), An Intercomparison of Microphysical Retrieval Algorithms for Upper-Tropospheric Ice CloudsBull. Amer. Met. Soc., 191–204, doi:10.1175/BAMS-88-2-191.
                9. Crewell, S., H. Czekala, U. Loehnert, and C. Simmer (2001), Microwave Radiometer for Cloud Carthography: A 22-channel ground-based microwave radiometer for atmospheric researchRadio Sci., 36(4), 621–638.
                10. Davis, J. L., T. A. Herring, I. I. Shapiro, A. E. E. Rogers, and G. Elgered (1985), Geodesy by radio interferometry: Effects of atmospheric modeling errors on estimates of baseline lengthRadio Sci., 20(6), 1593–1607.
                11. Davis, J. L., G. Elgered, A. E. Niell, and C. E. Kuehn (1993), Ground-based measurement of gradients in the 'wet' radio refractivity of airRadio Sci., 28(6), 1003–1018.
                12. 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.
                13. Elgered, G., B. O. Roennaeng, and J. I. H. Askne (1982), Measurements of atmospheric water vapor with microwave radiometryRadio Sci., 17(5), 1258–1264.
                14. Elgered, G., J. M. Johansson, B. O. Roennaeng, and J. L. Davis (1997), Measuring regional atmospheric water vapor using the Swedish permanent GPS networkGeophys. Res. Lett., 24(21), 2663–2666.
                15. Elosegui, P., J. L. Davis, L. P. Gradinarsky, G. Elgered, J. M. Johansson, D. A. Tahmoush, and A. Rius (1999), Sensing atmospheric structure using small-scale space geodetic networksGeophys. Res. Lett., 26(16), 2445–2448.
                16. Emardson, T. R. and J. M. Johansson (1998), Spatial interpolation of the atmospheric water vapor content between sites in a ground-based GPS networkGeophys. Res. Lett., 25(17), 3347–3350.
                17. Feist, D. G., C. P. Aellig, N. Kämpfer, R. Peter, P. M. Solomon, J. W. Barrett, S. Zoonematkermani, A. Parrish, P. Hartogh, C. Jarchow, R. M. Bevilacqua, and G. K. Hartmann (1996), Comparison of MAS stratospheric CIO measuremts with spaceborne, airborne, and ground-based experiments, In: XVIII. Quadrennial Ozone Symposium.
                18. Fionda, E., M. J. Falls, and E. R. Westwater (1991), Attenuation statistics at 20.6, 31.65 and 52.85 GHz derived from emission measurements by ground-based microwave radiometersIEEE Proceeding-H, 138(1), 46–49.
                19. Gueldner, J. and D. Spaenkuch (1999), Results of Year-Round Remotely Sensed Integrated Water Vapor by Ground-Based Microwave RadiometryJ. Appl. Meteorol., 38, 981–988.
                20. Guo, G., Q. Ji, P. Yang, and S.-C. Tsay (2005), Remote Sensing of Cirrus Optical and Microphysical Properties From Ground-Based Infrared Radiometric Measurements- Part II: Retrievals From CRYSTAL-FACE MeasurementsIEEE Geosci. Remote Sens. Let., 2(2), 132–135.
                21. Han, Y. and E. R. Westwater (2000), Analysis and Improvement of Tipping Calibration for Ground-Based Microwave RadiometersIEEE Geosci. Remote Sens. Let., 38(3), 1260–1276.
                22. Hegels, E., P. J. Crutzen, T. Kluepfel, D. Perner, J. P. Burrow, A. Ladstaetter-Weißenmayer, M. Eising, J. Callies, A. Hahne, K. Chance, U. Platt, and W. Balzer (1996), Satellite measurements of halogen oxides by the Global Ozone Monitoring Experiment, GOME, on ERS2: Distribution of Bro and comparison with groundbased observations, Proc. of the XVIII Quadrennial Ozone Symposium.
                23. Holdaway, M. A. and J. R. Pardo (1997), Modeling of the Submillimeter Opacity on Chajnanto, , MMA Memo 187.
                24. Illingworth, A. J., R. J. Hogan, E. J. O'Connor, D. Bouniol, J. Delanoë, J. Pelon, A. Protat, M. E. Brooks, N. Gaussiat, D. R. Wilson, D. P. Donovan, H. Klein Baltink, G-J. van Zadelhoff, J. D. Eastment, J. W. F. Goddard, C. L. Wrench, M. Haeffelin, O. A. Krasnov, H. W. J. Russchenberg, J-M. Piriou, F. Vinit, A. Seifert, A. M. Tompkins, and U. Willén (2007), Cloudnet — Continuous Evaluation of Cloud Profiles in Seven Operational Models Using Ground-Based ObservationsBull. Amer. Met. Soc., 88(6), 883–898, doi:10.1175/BAMS-88-6-883.
                25. Ingold, T., R. Peter, and N. Kämpfer (1998), Weighted mean tropopspheric temperature and transmittance determination at millimeter-wave frequencies for ground-based applicationsRadio Sci., 33(4), 905–918.
                26. Jarlemark, P. and G. Elgered (2003), Retrieval of atmospheric water vapour using a ground-based single-channel microwave radiometerInt. J. Remote Sensing, 24(19), 3821–3837.
                27. Krupnov, A. F. and A. A. Shvetsov (2002), Asymmetry of 118 GHz oxygen line in the Earth atmosphere: Pressure shift as a new element in atmospheric linesRadio Sci., 37(4), doi:10.1029/2001RS002554.
                28. Mace, G. G., S. Benson, and E. Vernon (2005), On the Relationship Between Cirrus Clouds and the Large-Scale Atmospheric State as Revealed by 6 Years of Ground-Based Data, University of Utah, Submitted to the Journal of Climate.
                29. Morland, J., B. Deuber, D. G. Feist, L. Martin, S. Nyeki, N. Kämpfer, C. Maetzler, P. Jeannet, and L. Vuilleumier (2006), The STARTWAVE atmospheric water databaseAtmos. Chem. Phys., 6, 2039–2056, doi:10.5194/acp-6-2039-2006.
                30. 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.
                31. Nilsson, T. and G. Elgered (2008), Long-term trends in the atmospheric water vapor content estimated from ground-based GPS dataJ. Geophys. Res., 113, D19101, doi:10.1029/2008JD010110.
                32. Pardo, J. R., E. Serabyn, and J. Cernicharo (2001), Submillimeter atmospheric transmission measurements on Mauna Kea during extremely dry El Nino conditions: implications for broadband opacity contributionsJ. Quant. Spectrosc. Radiat. Transfer, 68, 419–433.
                33. Pardo, J. R., L. Pagani, M. Gerin, and C. Prigent (1995), Evidence of the Zeeman Splitting in the 21→01 Rotational Transition of the Atmospheric 16O18O Molecule from Ground-based MeasurementsJ. Quant. Spectrosc. Radiat. Transfer, 54(6), 931–943.
                34. Pardo, J. R., J. Cernicharo, E. Lellouch, T. Encrenaz, and G. Paubert (1995), Ground-based measurements of middle atmospheric water vapor at 183 GHz during very dry tropospheric conditionsUnknown IEEE journal, 1401–1403.
                35. Pardo, J. R., M. Gerina, C. Prigent, J. Cernicharo, G. Rochard, and P. Brunel (1998), Remote Sensing of the Mesospheric Temperature Profile from Close-to-Nadir Observations: Discussion about the Capabilities of the 57.5–62.5 GHz Frequency Band and the 118.75 GHz Single O2 LineJ. Quant. Spectrosc. Radiat. Transfer, 60(4), 559–571.
                36. Rao, T. N. and S. Kirkwood (2005), Characteristics of tropopause folds over Arctic latitudesJ. Geophys. Res., 110, doi:10.1029/2004JD005374.
                37. Rathke, C., W. Armbruster, J. Fischer, E. Becker, and J. Notholf (2000), Comparison of stratus cloud properties derived from coincident airborne visible and ground-based infrared spectrometer measurementsGeophys. Res. Lett., 27(17), 2641–2644.
                38. Rocken, C., T. van Hove, and R. Ware (1997), Near real-time GPS sensing of atmospheric water vaporGeophys. Res. Lett., 24(24), 3221–3224.
                39. Serabyn, E. and E. W. Weisstein (1996), Calibration of planetary brightness temperature spectra at near-millimeter and submillimeter wavelengths with a Fourier-transform spectrometerAppl. Opt., 35(16), 2752–2763.
                40. Sinnhuber, B.-M., J. Langer, U. Klein, U. Raffalski, and K. Kuenzi (1998), Ground based millimeter-wave observations of Arctic ozone during winter and spring 1996/97Geophys. Res. Lett., 25(17), 3327–3330.
                41. Stankov, B. B. (1111), Ground- and Space-Based Humidity Profiling in a Cloudy Atmosphere with Strong Elevated Temperature Inversion, Environmental Technology Laboratory.
                42. Vey, S., R. Dietrich, K.-P. Johnsen, J. Miao, and G. Heygster (2004), Comparison of Tropospheric Water Vapour over Antarctica Derived from AMSU-B Data, Ground-Based GPS Data and the NCEP/NCAR ReanalysisJ. Meteorol. Soc. Jpn., 82(1B), 259–267.
                43. Wang, J., G. P. Anderson, H. E. Revercomb, and R. O. Knuteson (1996), Validation of FASCOD3 and MODTRANS3: comparison of model calculations with ground-based and airborne interferometer observations under clear-sky conditionsAppl. Opt., 35(30), 6028–6041.
                44. Ware, R., C. Alber, C. Rocken, and F. Solheim (1997), Sensing integrated water vapor along GPS ray pathsGeophys. Res. Lett., 24, 417–420.
                45. Westwater, E. R. and F. O. Guiraud (1980), Ground-based microwave radiometric retrieval of precipitable water vapor in the prescence of clouds with high liquid contentRadio Sci., 15(5), 947–957.
                46. Westwater, E. R. and J. B. Snider (1990), Ground-Based Radiometric Observations of Atmospheric Emission and Attenuation at 20.6, 31.65, and 90.0 GHz: A Comparison of Measurements and TheoryIEEE Trans. Antennas Propag., 38(10), 1569–1579.