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  • Alexander M, Dunkerton T. 1999. A spectral parameterization of mean-flow forcing due to breaking gravity waves. J. Atmos. Sci. 56: 41674182.
  • Andersson E, Pailleux J, Thepaut J, Eyre J, McNally A, Kelly G, Courtier P. 1994. Use of cloud-cleared radiances in three/four-dimensional variational data assimilation. Q. J. R. Meteorol. Soc. 120: 627627.
  • Andrews D, Holton J, Leovy C. 1987. Middle Atmosphere Dynamics. Academic press: London.
  • Aumann H, Chahine M, Gautier C, Goldberg M, Kalnay E, McMillin L, Revercomb H, Rosenkranz P, Smith W, Staelin D, et al. 2003. AIRS/AMSU/HSB on the Aqua mission: design, science objectives, data products, and processing systems. IEEE Trans. Geosci. Remote Sens. 41: 253264.
  • Beagley S, De Grandpre J, Koshy J, McFarlane N, Shepherd T. 1997. Radiative-dynamical climatology of the first-generation Canadian middle atmosphere model. Atmos. Ocean 35: 293331.
  • Becker E. 2004. Direct heating rates associated with gravity wave saturation. J. Atmos. Sol. Terr. Phys. 66: 683696.
  • Boville B. 1984. The influence of the polar night jet on the tropospheric circulation in a GCM. J. Atmos. Sci. 41: 11321142.
  • Bushell A, Scaife A, Warner C. 2007. UMDP no 34: nonorographic (spectral) gravity wave parametrization. Technical report, Met Office.
  • Callis L, Boughner R, Lambeth J. 1987. The stratosphere: climatologies of the radiative heating and cooling rates and the diabatically diagnosed net circulation fields. J. Geophys. Res. D 92: 55855607.
  • Charney J, Drazin P. 1961. Propagation of planetary-scale disturbances from the lower into the upper atmosphere. J. Geophys. Res. 66: 83109.
  • Chou M, Suarez M. 1999. A solar radiation parameterization for atmospheric studies. NASA Tech. Memo 104606: 40.
  • Chou M, Suarez M, Liang X, Yan M. 2001. A thermal infrared radiation parameterization for atmospheric studies. NASA Tech. Memo 104606: 19.
  • Courtier P, Thépaut J, Hollingsworth A. 1994. A strategy for operational implementation of 4D-Var, using an incremental approach. Q. J. R. Meteorol. Soc. 120: 13671387.
  • Cracknell A. 1997. The Advanced Very High Resolution Radiometer (AVHRR). CRC Press: Boca Raton, FL.
  • Cullen M. 1993. The unified forecast/climate model. Meteorol. Mag. 122: 8194.
  • Davies T, Cullen M, Malcolm A, Mawson M, Staniforth A, White A, Wood N. 2005. A new dynamical core for the Met Offices global and regional modelling of the atmosphere. Q. J. R. Meteorol. Soc. 131: 17591782.
  • Durre I, Vose R,Wuertz D. 2006. Overview of the integrated global radiosonde archive. J. Climate 19: 5368.
  • Edwards J, Slingo A. 1996. Studies with a flexible new radiation code. I. Choosing a configuration for a large-scale model. Q. J. R. Meteorol. Soc. 122: 689719.
  • Eluszkiewicz J, Crisp D, Zurek R, Elson L, Fishbein E, Froidevaux L, Waters J, Grainger R, Lambert A, Harwood R, et al. 1996. Residual circulation in the stratosphere and lower mesosphere as diagnosed from Microwave Limb Sounder data. J. Atmos. Sci. 53: 217240.
  • Fels S. 1985. Radiative–dynamical interactions in the middle atmosphere. Adv. Geophys. 28: 277300.
  • Filipiak M. 1999. EOS MLS retrieved geophysical parameter precision estimates. Edinburgh University Meteorology Department Technical Report (also Jet Propulsion Laboratory Document D-16160), Version 1: 15.
  • Fleming E, Chandra S, Barnett J, Corney M. 1990. Zonal mean temperature, pressure, zonal wind, and geopotential height as functions of latitude, COSPAR International Reference Atmosphere: 1986, Part II: Middle Atmosphere Models. Adv. Space Res. 10: 1159.
  • Fomichev V, Ward W, Beagley S, McLandress C, McConnell J, McFarlane N, Shepherd T. 2002. Extended Canadian middle atmosphere model: zonal-mean climatology and physical parameterizations. J. Geophys. Res. 107: 4087, DOI: 10.1029/2001JD000479.
  • Fomichev V, Ogibalov V, Beagley S. 2004. Solar heating by the near-IR CO2 bands in the mesosphere. Geophys. Res. Lett. 31: L21102, DOI: 10.1029/2004GL020324.
  • Fritts D, Alexander M. 2003. Gravity wave dynamics and effects in the middle atmosphere. Rev. Geophys. 41: 1003, DOI: 10.1029/2001RG000106.
  • Fritts D, Werne J. 2000. Turbulence dynamics and mixing due to gravity waves in the lower and middle atmosphere. Geophys. Monog. 123: 143159.
  • Garcia R, Boville B. 1994. Downward control of the mean meridional circulation and temperature distribution of the polar winter stratosphere. J. Atmos. Sci. 51: 22382245.
  • Garcia R, Lieberman R, Russell III J, Mlynczak M. 2005. Large-scale waves in the mesosphere and lower thermosphere observed by SABER. J. Atmos. Sci. 62: 43844399.
  • Gille J, Lyjak L. 1986. Radiative heating and cooling rates in the middle atmosphere. J. Atmos. Sci. 43: 22152229.
  • Gille J, Russell J. 1984. The Limb Infrared Monitor of the Stratosphere: experiment description, performance, and results. J. Geophys. Res. 89: 51255140.
  • Gobiet A, Foelsche U, Steiner A, Borsche M, Kirchengast G, Wickert J. 2005. Climatological validation of stratospheric temperatures in ECMWF operational analyses with CHAMP radio occultation data. Geophys. Res. Lett. 32: L12806, DOI: 10.1029/2005GL022617.
  • Gregory D, Shutts G, Mitchell J. 1998. A new gravity wave-drag scheme incorporating anisotropic orography and low-level wave breaking: impact upon the climate of the UK Meteorological Office Unified Model. Q. J. R. Meteorol. Soc. 124: 463493.
  • Hamilton K, Wilson R, Hemler R. 1999. Middle atmosphere simulated with high vertical and horizontal resolution versions of a GCM: improvements in the cold pole bias and generation of a QBO-like oscillation in the tropics. J. Atmos. Sci. 56: 38293846.
  • Haynes P. 2005. Stratospheric dynamics. Annu. Rev. Fluid Mech. 37: 263293.
  • Haynes P, McIntyre M, Shepherd T, Marks C, Shine K. 1991. On the downward control of extratropical diabatic circulations by eddy-induced mean zonal forces. J. Atmos. Sci. 48: 651678.
  • Holton J. 1982. The role of gravity wave induced drag and diffusion in the momentum budget of the mesosphere. J. Atmos. Sci. 39: 791799.
  • Holton J. 2004. An Introduction to Dynamic Meteorology. Academic Press: London.
  • Holton J, Alexander M. 2000. The role of waves in the transport circulation of the middle atmosphere. Geophys. Monog. 123: 2135.
  • Huang T, Smith A. 1991. The mesospheric diabatic circulation and the parameterized thermal effect of gravity wave breaking on the circulation. J. Atmos. Sci. 48: 10931111.
  • Ingram W. 1990. Radiation, Meteorological Office Unified Model Doc Paper no.23. Technical report, Met Office.
  • Jackson D. 2007. Assimilation of EOS MLS ozone observations in the Met Office data-assimilation system. Q. J. R. Meteorol. Soc. 133: 17711788.
  • Jackson D, Austin J, Butchart N. 2001. An updated climatology of the troposphere–stratosphere configuration of the Met Office's Unified Model. J. Atmos. Sci. 58: 20002008.
  • Jackson D, Keil M, Devenish B. 2008. Use of Canadian Quick covariances in the Met Office data assimilation system. Q. J. R. Meteorol. Soc. 134: 15671582.
  • Jiang J, Eckermann S, Wu D, Wang D. 2006. Inter-annual variation of gravity waves in the Arctic and Antarctic winter middle atmosphere. Adv. Space Res. 38: 24182423.
  • Kiehl J, Solomon S. 1986. On the radiative balance of the stratosphere. J. Atmos. Sci. 43: 15251534.
  • Koenig E. 1980. Performance of the HIRS-2 instrument on TIROS-N (High Resolution Infrared Radiation Sounder). Remote Sens. Atmos. Oceans. 1: 6791.
  • Kunkee D, Poe G, Boucher D, Swadley S, Hong Y, Wessel J, Uliana E. 2008. Design and evaluation of the first special sensor microwave imager/sounder. IEEE Trans. Geosci. Remote Sens. 46: 863883.
  • Kurucz R, Bell B. 1995. Kurucz CD-Rom 23. Atomic Line Data. SAO, Cambridge, MA.
  • Li D, Shine K. 1995. A 4-dimensional ozone climatology for UGAMP models. UGAMP Internal Report 35.
  • Lindzen R. 1981. Turbulence and stress owing to gravity wave and tidal breakdown. J. Geophys. Res. 86: 97079714.
  • Livesey N, Read W, Froidevaux L, Waters J, Santee M, Pumphrey H, Wu D, Shippony Z, Jarnot R. 2003. The UARS Microwave Limb Sounder version 5 dataset: theory, characterization and validation. J. Geophys. Res. 108: 4378, DOI: 10.1029/2002JD002273.
  • Livesey N, Read WG, Lambert A, Cofield RE, Cuddy DT, Froidevaux L, et al. 2007. EOS MLS version 2.2 Level 2 data quality and description document. Technical report, Jet Propulsion Laboratory, Pasadena, CA.
  • Loiselet M, Stricker N, Menard Y, Luntama J. 2000. GRASMetop's GPS-based atmospheric sounder. ESA Bull. 102: 3844.
  • Long D. 2011. Met Office upper stratospheric and mesospheric analyses: validation and improvement of gravity wave drag scheme. PhD thesis, College of Engineering, Mathematics and Physical Sciences, University of Exeter, UK.
  • Lorenc A, Payne T. 2007. 4D-Var and the butterfly effect: statistical four-dimensional data assimilation for a wide range of scales. Q. J. R. Meteorol. Soc. 133: 607614.
  • Lorenc A, Ballard S, Bell R, Ingleby N, Andrews P, Barker D, Bray J, Clayton A, Dalby T, Li D, et al. 2000. The Met Office global three-dimensional variational data assimilation scheme. Q. J. R. Meteorol. Soc. 126: 29913012.
  • Lübken F. 1997. Seasonal variation of turbulent energy dissipation rates at high latitudes as determined by in situ measurements of neutral density fluctuations. J. Geophys. Res. 102: 1344113456.
  • Manney G, Allen D, Krüger K, Naujokat B, Santee M, Sabutis J, Pawson S, Swinbank R, Randall C, Simmons A, et al. 2005a. Diagnostic comparison of meteorological analyses during the 2002 Antarctic winter. Mon. Weather Rev. 133: 12611278.
  • Manney G, Sabutis J, Allen D, Lahoz W, Scaife A, Swinbank R, Randall C, Pawson S, Naujokat B. 2005b. Simulations of dynamics and transport during the September 2002 Antarctic major warming. J. Atmos. Sci. 62: 690707.
  • Manney G, Kruger K, Pawson S, Minschwaner K, Schwartz M, Daffer W, Livesey N, Mlynczak M, Remsberg E, Russell J, et al. 2008. The evolution of the stratopause during the 2006 major warming: Satellite data and assimilated meteorological analyses. J. Geophys. Res. 113: D11115, DOI: 10.1029/2007JD009097.
  • Marks C. 1989. Some features of the climatology of the middle atmosphere revealed by Nimbus 5 and 6. J. Atmos. Sci. 46: 24852508.
  • Mathison C, Jackson D, Keil M. 2007. Methods of improving the representation of ozone in the Met Office model. NWP Technical Report No. 502, Met Office.
  • McLandress C, Ward W, Fomichev V, Semeniuk K, Beagley S, McFarlane N, Shepherd T. 2006. Large-scale dynamics of the mesosphere and lower thermosphere: an analysis using the extended Canadian Middle Atmosphere Model. J. Geophys. Res. 111: D17111, DOI: 10.1029/2005JD006776.
  • Pawson S, Kodera K, Hamilton K, Shepherd T, Beagley S, Boville B, Farrara J, Fairlie T, Kitoh A, Lahoz W, et al. 2000. The GCM-Reality Intercomparison Project for SPARC (GRIPS): scientific issues and initial results. Bull. Am. Meteorol. Soc. 81: 781796.
  • Polavarapu S, Ren S, Rochon Y, Sankey D, Ek N, Koshyk J, Tarasick D. 2005. Data assimilation with the Canadian middle atmosphere model. Atmos.–Ocean 43: 77100.
  • Pulido M, Thuburn J. 2008. The seasonal cycle of gravity wave drag in the middle atmosphere. J. Climate 21: 46644679.
  • Randel W, Wu F. 1999. A stratospheric ozone trends data set for global modeling studies. Geophys. Res. Lett. 26: 30893092.
  • Randel W, Udelhofen P, Fleming E, Geller M, Gelman M, Hamilton K, Karoly D, Ortland D, Pawson S, Swinbank R, et al. 2004. The SPARC intercomparison of middle atmosphere climatologies. J. Climate 17: 9861003.
  • Rawlins F, Ballard S, Bovis K, Clayton A, LI D, Inverarity G, Lorenc A, Payne T. 2007. The Met Office global four-dimensional variational data assimilation scheme. Q. J. R. Meteorol. Soc. 133: 347362.
  • Reale A, Tilley F, Ferguson M, Allegrino A. 2008. NOAA operational sounding products for advanced TOVS. Int. J. Remote Sens. 29: 46154651.
  • Reinecker M, Suarez MJ, Todling R, Bacmeister J, Takacs L, Liu H-C, et al. 2007. The GEOS-5 data assimilation system: a documentation of GEOS-5.0. NASA Technical Report 104606 V.
  • Remsberg E, Marshall B, Garcia-Comas M, Krueger D, Lingenfelser G, Martin-Torres J, Mlynczak M, Russell J III, Smith A, Zhao Y, et al. 2008. Assessment of the quality of the version 1.07 temperature-versus-pressure profiles of the middle atmosphere from timed/SABER. J. Geophys. Res. 113: D17101, DOI: 10.1029/2008JD010013.
  • Rocken C, Ying-Hwa K, Schreiner W, Hunt D, Sokolovskiy S, McCormick C. 2000. COSMIC system description. Terr. Atmos. Ocean. Sci. 11: 2152.
  • Rodgers C. 2000. Inverse Methods for Atmospheric Sounding: Theory and Practice. World Scientific: Singapore.
  • Rosenfield J, Schoeberl M, Geller M. 1987. A computation of the stratospheric diabatic circulation using an accurate radiative transfer model. J. Atmos. Sci. 44: 859876.
  • Russell JM III, Gordley LL, Park JH, Drayson SR, Hesketh WD, Cicerone RJ, et al. 1993. The halogen occultation experiment. J. Geophys. Res. 98: 777797.
  • Russell J III, Mlynczak M, Gordley L, Tansock J, Esplin R. 1999. An overview of the SABER experiment and preliminary calibration results. Opt. Spectrosc. Tech. Instrum. Atmos. Space Res. III: 277288.
  • Saunders R, Brunel P, Chevallier F, Deblonde G, English S, Matricardi M, Rayer P. 2002. RTTOV-7 science and validation report. NWP Forecasting Research Technical Report 387.
  • Scaife A, Butchart N, Warner C, Stainforth D, Norton W, Austin J. 2000. Realistic quasi-biennial oscillations in a simulation of the global climate. Geophys. Res. Lett. 27: 34813484.
  • Scaife A, Butchart N, Warner C, Swinbank R. 2002. Impact of a spectral gravity wave parameterization on the stratosphere in the Met Office Unified Model. J. Atmos. Sci. 59: 14731489.
  • Schoeberl M. 2004. Extratropical stratosphere–troposphere mass exchange. J. Geophys. Res. 109: D13303, DOI: 10.1029/2004JD004525.
  • Schöllhammer K, Marquardt C, Labitzke K. 2003. Comparison of three different meteorlogical datasets (ECMWF, Met Office and NCEP). First CHAMP Mission Results for Gravity, Magnetic and Atmospheric Studies: 529535.
  • Schwartz M, Lambert A, Manney G, Read W, Livesey N, Froidevaux L, Ao C, Bernath P, Boone C, Cofield R, et al. 2008. Validation of the aura microwave limb sounder temperature and geopotential height measurements. J. Geophys. Res.—Atmos. 113: D15S11, DOI: 10.1029/2007JD008783.
  • Shaw T, Shepherd T. 2007. Angular momentum conservation and gravity wave drag parameterization: implications for climate models. J. Atmos. Sci. 64: 190203.
  • Shaw T, Sigmond M, Shepherd T, Scinocca J. 2009. Sensitivity of simulated climate to conservation of momentum in gravity wave drag parameterization. J. Climate 22: 27262742.
  • Shepherd T. 2000. The middle atmosphere. J. Atmos. Solar-Terr. Physics 62: 15871601.
  • Shepherd T, Shaw T. 2004. The angular momentum constraint on climate sensitivity and downward influence in the middle atmosphere. J. Atmos. Sci. 61: 28992908.
  • Shine K. 1987. The middle atmosphere in the absence of dynamical heat fluxes. Q. J. R. Meteorol. Soc. 113: 603633.
  • Shine K. 1989. Sources and sinks of zonal momentum in the middle atmosphere diagnosed using the diabatic circulation. Q. J. R. Meteorol. Soc. 115: 265292.
  • Siméoni D, Singer C, Chalon G. 1997. Infrared atmospheric sounding interferometer. Acta Astronaut. 40: 113118.
  • Simmons A, Hortal M, Kelly G, McNally A, Untch A, Uppala S. 2005. ECMWF analyses and forecasts of stratospheric winter polar vortex breakup: September 2002 in the Southern Hemisphere and related events. J. Atmos. Sci. 62: 668689.
  • Smith A. 2003. The origin of stationary planetary waves in the upper mesosphere. J. Atmos. Sci. 60: 30333041.
  • Smith A, Lyjak L. 1985. An observational estimate of gravity wave drag from the momentum balance in the middle atmosphere. J. Geophys. Res. 90: 22332242.
  • Smith W, Woolf H, Hayden C, Wark D, McMillin L. 1979. The TIROS-N operational vertical sounder. Bull. Am. Meteorol. Soc. 60 11771187.
  • Solomon S, Kiehl J, Garcia R, Grose W. 1986. Tracer transport by the diabatic circulation deduced from satellite observations. J. Atmos. Sci. 43: 16031617.
  • Staniforth A, White A, Wood N, Thurburn J, Zerroukat M, Cordero E. 2004. UMDP no 15: Joy of U.M. 6.0 Model Formulation. Technical report, Met Office.
  • Swinbank R, O’Neill A. 1994. A stratosphere–troposphere data assimilation system. Mon. Weather Rev. 122: 686702.
  • Thelen JC. 2006. Informal Met Office Report: Radiative aspects relating to the middle atmosphere model. Technical report, Met Office.
  • Warner C, McIntyre M. 2001. An ultrasimple spectral parameterization for nonorographic gravity waves. J. Atmos. Sci. 58: 18371857.
  • Watanabe S, Kawatani Y, Tomikawa Y, Miyazaki K, Takahashi M, Sato K. 2008. General aspects of a T213L256 middle atmosphere general circulation model. J. Geophys. Res. 113: D12110, DOI: 10.1029/2008JD010026.
  • White A, Hoskins B, Roulstone I, Staniforth A. 2005. Consistent approximate models of the global atmosphere: shallow, deep, hydrostatic, quasi-hydrostatic and nonhydrostatic. Q. J. R. Meteorol. Soc. 131: 20812107.
  • Wickert J, Schmidt T, Beyerle G, König R, Reigber C, Jakowski N. 2004. The radio occultation experiment aboard CHAMP: operational data analysis and validation of vertical atmospheric profiles. J. Meteorol. Soc. Jpn 82: 381395.
  • Zhong W, Osprey S, Gray L, Haigh J. 2008. Influence of the prescribed solar spectrum on calculations of atmospheric temperature. Geophys. Res. Lett. 35: L22813, DOI: 10.1029/2008GL035993.