Composition and Chemistry

Part of the Atmospheric and Oceanographic Sciences Library book series (ATSL, volume 32)


Total Ozone Lower Stratosphere Middle Atmosphere Lower Thermosphere Stratospheric Aerosol 
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  1. Abbas et al. (1996) p. 44 Abbas, M.M., M.R. Gunson, M.J. Newchurch, H.A. Michelsen, R.J. Salawitch, M. Allen, M.C. Abrams, A.Y. Chang, A. Goldman, F.W. Irion, E.J. Moyer, R. Nagaraju, C.P. Rinsland, G.P. Stiller, and R. Zander, The hydrogen budget of the stratosphere inferred from ATMOS measurements of H2O and CH4. Geophys Res Lett: 23, 2405, 1996a.CrossRefGoogle Scholar
  2. Abbas, M.M., H.A. Michelsen, M.R. Gunson, M.C. Abrams, M.J. Newchurch, R.J. Salawitch, A.Y. Chang, A. Goldman, F.W. Irion, G.L. Manney, E.J. Moyer, R. Nagaraju, C.P. Rinsland, G.P. Stiller, and R. Zander, Seasonal variations of water vapor in the lower stratosphere inferred from ATMOS/ATLAS-3 measurements of H2O and CH4. Geophys Res Lett: 23, 2401, 1996b.CrossRefGoogle Scholar
  3. Ackerman, M., D. Frimout, A. Girard, M. Gottignies, and C. Muller, Stratospheric HCl from infrared spectra. Geophys Res Lett: 3, 81, 1976.CrossRefGoogle Scholar
  4. Ackerman, M., D. Frimout, and C. Muller, Stratospheric CH4, HCl and ClO and the chlorine ozone cycle. Nature: 269, 226, 1977.CrossRefGoogle Scholar
  5. Adriani, A., T. Deshler, G. Di Donfranceso, and G.P. Gobbi, Polar stratospheric clouds and volcanic aerosol during spring 1992 over McMurdo Station Actarctica: Lidar and particle counter comparison. J Geophys Res: 100,25,877, 1995.Google Scholar
  6. Allan, P.J., J.M.C. Plane, and G. McFiggans, Observations of OIO in the remote marine boundary layer. Geophys Res Lett: 28, 1945, 2001.CrossRefGoogle Scholar
  7. Allen, M., Y.L. Yung, and J.W. Waters, Vertical transport and photochemistry in the terrestrial mesosphere and lower thermosphere (50–170 km). J Geophys Res: 86, 3617, 1981.CrossRefGoogle Scholar
  8. Allen, M., J.I. Lunine, and Y.L. Yung, The vertical distribution of ozone in the mesosphere and lower thermosphere. J Geophys Res: 89, 4841, 1984.CrossRefGoogle Scholar
  9. Anderson, J.G., Rocket measurement of OH in the mesosphere. J Geophys Res: 76, 7820, 1971.CrossRefGoogle Scholar
  10. Anderson, J.G., The absolute concentration of OH in the earth’s stratosphere. Geophys Res Lett: 3, 165, 1976.CrossRefGoogle Scholar
  11. Anderson, J.G., Free radicals in the earth’s stratosphere: A review of recent results, Proc of the NATO Advanced Institute on Atmospheric Ozone, A.C. Aikin, ed., U.S. Dept. of Transportation, FAA-EE-80-20, FAA, Washington, D.C., USA, 1980.Google Scholar
  12. Anderson, J.G., H.J. Grassl, R.E. Shetter, and J.J. Margitan, Stratospheric free chlorine measured by balloon-borne in situ resonance fluorescence. J Geophys Res: 85, 2869, 1980.CrossRefGoogle Scholar
  13. Angell, J.K., and J. Korshover, Quasi-Biennal variations in temperature, total ozone and tropopause height. J Atmos Sci: 21,5, 479, 1964.CrossRefGoogle Scholar
  14. Angell, J.K., and J. Korshover, Quasi-Biennal and long-term fluctuation in total ozone. Mon Wea Rev: 101, 426, 1973.CrossRefGoogle Scholar
  15. Arijs, E., and G. Brasseur, Acetonitrile in the stratosphere and implications for positive ion composition. J Geophys Res: 91, 4003, 1985.CrossRefGoogle Scholar
  16. Arijs, E., D. Nevejans, P. Frederick, and J. Ingels, Negative ion composition measurements in the stratosphere. Geophys Res Lett: 8, 121, 1981.CrossRefGoogle Scholar
  17. Arnold, F., and D. Krankowsky, Water vapour concentrations at the mesopause. Nature: 268, 218, 1977.CrossRefGoogle Scholar
  18. Arnold, F., and R. Fabian, First measurements of gas phase sulfuric acid in the stratosphere. Nature: 283, 55, 1980.CrossRefGoogle Scholar
  19. Arpag, K.A., P.V. Johnston, H.L. Miller, R.W. Sanders, and S. Solomon, Observations of the stratospheric BrO column over Colorado, 40°N. J Geophys Res: 99, 8175, 1994.CrossRefGoogle Scholar
  20. Atlas, E., W. Pollock, J. Greenberg, L. Heidt, and A.M. Thompson, Alkyl nitrates, nonmethane hydrocarbons, and halocarbon gases over the equatorial Pacific Ocean during SAGA 3. J Geophys Res: 98,16,933, 1993.Google Scholar
  21. Avallone, L.M., and D.W. Toohey, Tests of halogen photochemistry using in situ measurements of ClO and BrO in the lower polar stratosphere. J Geophys Res: 106,10,411, 2001.CrossRefGoogle Scholar
  22. Avallone, L.M., S.M. Schauffler, W.H. Pollock, L.E. Heidt, E.L. Atlas, and K.R. Chan, In situ measurements of BrO during AASE II. Geophys Res Lett: 22, 831, 1995.CrossRefGoogle Scholar
  23. Baker, K.D., A.F. Nagy, R.O. Olsen, E.S. Oran, J. Randhawa, D.F. Strobel, and T. Tohmatsu, Measurement of the nitric oxide altitude distribution in the mid-latitude mesosphere. J Geophys Res: 82, 3281, 1977.CrossRefGoogle Scholar
  24. Bandy, A.R., D.C. Thornton, D.L. Scott, M. Lalevic, E.E. Lewin, and A.R. Driedger III, A time series of carbonyl sulfide in the northern hemisphere. J Atmos Chem: 14, 527, 1992.CrossRefGoogle Scholar
  25. Bandy, A.R., D.C. Thornton, and A. Driedger III, Airborne measurements of sulfur dioxide, dimethyl sulfide, carbon disulfide, and carbon sulfide by isotope dilution gas chromatography/mass spectrometry. J Geophys Res: 98,23,423, 1993a.Google Scholar
  26. Bandy, A.R., D.C. Thornton, and J.E. Johnson, Carbon disulfide measurements in the atmosphere of the western north Atlantic and the northwestern south Atlantic oceans. J Geophys Res: 98,23,449, 1993b.Google Scholar
  27. Barbe, A., P. Mache, C. Secroun, and P. Jouve, Measurements of tropospheric and stratospheric H2CO by an infrared high resolution technique. Geophys Res Lett: 6, 463, 1979.CrossRefGoogle Scholar
  28. Barth, C.A., D.W. Rusch, R.J. Thomas, G.H. Mount, G.J. Rottman, G.E. Thomas, R.W. Sanders, and G.M. Lawrence, Solar mesosphere explorer: Scientific objectives and results. Geophys Res Lett: 10, 237, 1983.CrossRefGoogle Scholar
  29. Barth, C.A., S.M. Bailey, and S.C. Solomon, Solar-terrestrial coupling: Solar osft X-rays and thermospheric nitric oxide. Geophys Res Lett: 26, 1251, 1999.CrossRefGoogle Scholar
  30. Bates, D.R., and M. Nicolet, Atmospheric hydrogen. Publ Astron Soc Pacific: 62, 106, 1950.CrossRefGoogle Scholar
  31. Bates, D.R., and A.E. Witherspoon, The photochemisry of some minor constituents of the earth’s atmosphere (CO2, CO, CH4, N2O). Mon Notic Roy Astron Soc: 112, 101, 1952.Google Scholar
  32. Bekki, S., R. Toumi, and J.A. Pyle, Role of sulphur photochemistry in tropical ozone changes after the eruption of Mount Pinatubo. Nature: 362, 331, 1993.CrossRefGoogle Scholar
  33. Bergamaschi, P.R., M. Hein, M. Heinmann, and P.J. Crutzen, Inverse modeling of the global CO cycle, 1. Inversion of CO mixing rations. J Geophys Res: 105, 1909, 2000.CrossRefGoogle Scholar
  34. Bevilacqua, R.M., J.J. Olivero, P.R. Schwartz, C.J. Gibbins, J.M. Bologna, and D.J. Thacker, An observational study of water vapor in the mid-latitude mesosphere using ground-based microwave technique. J Geophys Res: 88, 8523, 1983.CrossRefGoogle Scholar
  35. Beyer, K.D., B. Luo, R. Neuber, and T. Peter, Temperature dependence of ternary solution particle volumes as observed by lidar in the Arctic stratosphere during winter 1992/1993. J Geophys Res: 102, 3603, 1997.CrossRefGoogle Scholar
  36. Bingemer, H.G., S. Bürgermeister, R.L. Zimmermanm, and H.-W. Georgii, Atmospheric OCS: Evidence for a contribution of anthropogenic sources? J Geophys Res: 95,20 617, 1990.Google Scholar
  37. Black, G., R.L. Sharpless, and T.G. Slanger, Rate coefficients for SO reactions with O2 and O3 over the temperature range of 230 to 420 K. Chem Phys Lett: 90, 598, 1982a.CrossRefGoogle Scholar
  38. Black, G., R.L. Sharpless, and T.G. Slanger, Rate coefficients at 198 K for SO reactions with O2, O3, and NO2. Chem Phys Lett: 90, 55, 1982b.CrossRefGoogle Scholar
  39. Boatman, J.F., D.L. Wellman, C.C. Van Valin, R.L. Gunter, J.D. Ray, H. Sievering, Y. Kim, S.W. Wilkinson, and M. Luria, Airborne sampling of selected trace chemicals above the central United States. J Geophys Res: 94, 5081, 1989.CrossRefGoogle Scholar
  40. Brasseur, G.P., The response of the middle atmopshere to a long-term and short-term solar variability: A two dimensional model. J Geophys Res: 98,23,079, 1993.Google Scholar
  41. Brasseur, G., and C. Granier, Mount Pinatubo aerosols, chlorofluorocarbons, and ozone depletion. Science: 257, 1239, 1992.CrossRefGoogle Scholar
  42. Brasseur, G.P., and S. Madronich, Chemistry-transport models, in Climate System Modeling. K.E. Trenberth, ed., Cambridge University Press, 1992.Google Scholar
  43. Brasseur, G., A. De Rudder, G.M. Keating, and M.C. Pitts, Response of the middle atmosphere to short-term solar ultraviolet variations, 2. Theory. J Geophys Res: 92, 903, 1987.CrossRefGoogle Scholar
  44. Brasseur, G.P., J.J. Orlando, and G.S. Tyndall (eds), Atmospheric Chemistry and Global Change, Oxford University Press, 1999.Google Scholar
  45. Breeding, R.J., J.P. Lodge, Jr., J.B. Pate, D.C. Sheesley, H.B. Klonis, B. Fogle, J.A. Anderson, T.R. Englert, P. Haagenson, R.B. McBeth, A.L. Morris, R. Pogue, and A.F. Wartburg, Background trace gas concentrations in the central United States. J Geophys Res: 78, 7057, 1973.CrossRefGoogle Scholar
  46. Brewer, A.W., Evidence for a world circulation provided by the measurements of helium and water vapour distributions in the stratosphere. Quart J Roy Met Soc: 75, 351, 1949.CrossRefGoogle Scholar
  47. Browell, E.V., C.F. Butler, S. Ismail, P.A. Robinette, A.F. Carter, N.S. Higdon, O.B. Toon, M.R. Schoeberl, and A.F. Tuck, Airborne lidar observations in the wintertime Arctic stratosphere: Polar stratospheric clouds. Geophys Res Lett: 17, 385, 1990.CrossRefGoogle Scholar
  48. Brownsword, R.A., M. Hillenkamp, T. Laurent, R.K. Vatsa, H.-R. Volpp, and J. Wolfrum, Quantum yield for H atom formation in the methane dissociation after photoexcitation at the Lyman-α (121.6 nm) wavelength. Chem Phys Lett: 266, 259, 1997.CrossRefGoogle Scholar
  49. Brune, W., OH and HO2: Sources, interactions with nitrogen oxides, and ozone production. IGAC Newsletter: 21, 2000.Google Scholar
  50. Brune, W.H., J.G. Anderson, and K.R. Chan, In situ observations of BrO over Antarctica: ER-2 aircraft results from 54°S to 72°S latitude. J Geophys Res: 94,16,639, 1989.Google Scholar
  51. Burkholder, J.B., A.R. Ravishankara, and S. Solomon, UV/visible and IR absorption cross sections of BrONO2. J Geophys Res: 100,16,793, 1995.Google Scholar
  52. Burnett, C.R., and E.B. Burnett, Spectroscopic measurement of the vertical column abundance of hydroxyl (OH) in the earth’s atmosphere. J Geophys Res: 86, 5185, 1981.CrossRefGoogle Scholar
  53. Burnett, C.R., and E.B. Burnett, Vertical column abundance of atmospheric OH at solar maximum from Fritz Peak, Colorado. Geophys Res Lett: 9, 708, 1982.CrossRefGoogle Scholar
  54. Bush, J.A., A.L. Schmeltekopf, F.C. Fehsenfeld, D.L. Albritton, J.R. McAffe, P.D. Goldan, and E.E. Ferguson, Stratospheric measurements of methane at several latitudes. Geophys Res Lett: 5, 1027, 1978.CrossRefGoogle Scholar
  55. Byrne, G.D., and A.C. Hindmarsh, A polyalgorithm for the numerical solution of ordinary differential equations. ACM Trans. Math Software: 1, 71, 1975.CrossRefGoogle Scholar
  56. Calvert, J.G., and W.R. Stockwell, Acid generation in the troposphere by gas phase chemistry. Environ Sci Technol: 17, 428A, 1983.CrossRefGoogle Scholar
  57. Carroll, M.A., R.W. Sanders, S. Solomon, and A.L. Schmeltekopf, Visible and nearultraviolet spectroscopy at McMurdo station, Antarctica, 6: Observations of BrO. J Geophys Res: 94,16,633, 1989.Google Scholar
  58. Carslaw, K.S., B.P. Luo, S.L. Clegg, T. Peter, P. Brimblecombe, and P.J. Crutzen, Stratospheric aerosol growth and HNO3 gas phase depletion from coupled HNO3 and water uptake by liquid particles. Geophys Res Lett: 21, 2479, 1994.CrossRefGoogle Scholar
  59. Carslaw, K.S., T. Peter, and S.L. Clegg, Modeling the composition of liquid stratospheric aerosols. Rev Geophys: 35, 125, 1997.CrossRefGoogle Scholar
  60. Carslaw, K.S., M. Wirth, A. Tsias, B.P. Luo, A. Dörnbrack, M. Leutbecher, H. Volkert, W. Renger, J.T. Bacmeister, and T. Peter, Particle microphysics and chemistry in remotely observed mountain polar stratospheric clouds. J Geophys Res: 103, 5785, 1998a.CrossRefGoogle Scholar
  61. Carslaw, K.S., M. Wirth, A. Tsias, B.P. Luo, A. Dörnbrack, M. Leutbecher, H. Volkert, W. Renger, J.T. Bacmeister, and T. Peter, Increased stratospheric ozone depletion due to mountain-induced atmospheric waves. Nature: 391, 675, 1998b.CrossRefGoogle Scholar
  62. Chameides, W.L., and J.C.G. Walker, A photochemical theory of tropospheric ozone. J Geophys Res: 78, 8751, 1973.CrossRefGoogle Scholar
  63. Chance, K.V., and W.A. Traub, Evidence for stratospheric hydrogen peroxide. J Geophys Res: 92, 3061, 1987.CrossRefGoogle Scholar
  64. Chance, K.V., D.G. Johnson, W.A. Traub, and K.W. Jucks, Measurement of the stratospheric hydrogen peroxide concentration profile using far infrared thermal emission spectroscopy. Geophys Res Lett: 18, 1003, 1991.CrossRefGoogle Scholar
  65. Chance, K.V., W.A. Traub, D.G. Johnson, K.W. Jucks, P. Ciarfallini, R.A. Stachnik, R.J. Salawitch, and H.A. Michelsen, Simultaneous measurements of stratospheric HOx, NOx, and Clx: Comparison with a photochemical model. J Geophys Res: 101, 9031, 1996.CrossRefGoogle Scholar
  66. Chandra, S., The solar UV related changes in total ozone from a solar rotation to a solar cycle. Geophys Res Lett: 18, 837, 1991.CrossRefGoogle Scholar
  67. Chang, A.Y., R.J. Salawitch, H.A. Michelsen, M.R. Gunson, M.C. Abrams, R. Zander, C.P. Rinsland, M. Loewenstein, J.R. Podolske, M.H. Proffitt, J.J. Margitan, D.W. Fahey, R.-S. Gao, K.K. Kelly, J.W. Elkins, C.R. Webster, R.D. May, K.R. Chan, M.M. Abbas, A. Goldman, F.W. Irion, G.L. Manney, M.J. Newchurch, and G.P. Stiller, A comparison of measurements from ATMOS and instruments aboard the ER-2 aircraft: Tracers of atmospheric transport. Geophys Res Lett: 23, 2389, 1996.CrossRefGoogle Scholar
  68. Chang, J.S., R.R. Barker, J.E. Davenport, and D.M. Goldan, Chlorine nitrate photolysis by a new technique: Very low pressure photolysis. Chem Phys Lett: 60, 385, 1979.CrossRefGoogle Scholar
  69. Chapman, S., On ozone and atomic oxygen in the upper atmosphere. Phil Mag: 10, 369, 1930.Google Scholar
  70. Chubachi, S., A special ozone observation at Syowa station Antarctica from February 1982 to January 1983, in Atmospheric Ozone. S. Zerefos and A. Ghazi (eds.), Reidel, Dordrecht, pp. 285, 1985.Google Scholar
  71. Cicerone, R.J., and R.S. Oremland, Biogeochemical aspects of atmospheric methane. Global Biogeochem Cycles: 2, 299, 1988.CrossRefGoogle Scholar
  72. Clancy, R.T., D.O. Muhlemon, and G.L. Berge, Microwave spectra of terrestrial mesosphere CO. J Geophys Res: 87, 5009, 1982.CrossRefGoogle Scholar
  73. Coffey, M.T., W.G. Mankin, and R.J. Cicerone, Spectrascopic detection of stratospheric hydrogen cyanide. Science: 214, 333, 1981a.CrossRefGoogle Scholar
  74. Coffey, M.T., W.G. Mankin, and A. Goldman, Simultaneous spectroscopic determination of the latitudinal, seasonal and diurnal variability of stratosphere N2O, NO, NO2 and HNO3. J Geophys Res: 86, 7731, 1981b.Google Scholar
  75. Cohen, R.C., P.O. Wennberg, R.M. Stimpfle, J. Koplow, J.G. Anderson, D.W. Fahey, E.L. Woodbridge, E.R. Keim, R. Gao, M.H. Proffitt, M. Loewenstein, and K.R. Chan, Are models of catalytic removal of O3 by HOx accurate? Constraints from in-situ measurements of the OH to HO2 ratio. Geophys Res Lett: 21, 2539, 1994.CrossRefGoogle Scholar
  76. Conrad, R., and W. Seiler, Influence of temperature, moisture, and organic carbon on the flux of H2 and CO between soil and atmosphere: Field studies in subtropical regions. J Geophys Res: 90, 5699, 1985.CrossRefGoogle Scholar
  77. Cox, R.A., W.J. Bloss, R.L. Jones, and D.M. Rowley, OIO and the atmospheric cycle of iodine. Geophys Res Lett: 26, 1857, 1999.CrossRefGoogle Scholar
  78. Crutzen, P.J., Determination of parameters appearing in the “dry” and the “wet” photochemical theories for ozone in the stratosphere. Tellus: 21, 368, 1969.CrossRefGoogle Scholar
  79. Crutzen, P.J., The influence of nitrogen oxide on the atmospheric ozone content. Quart J Roy Met Soc: 96, 320, 1970.CrossRefGoogle Scholar
  80. Crutzen, P.J., Ozone production rates in oxygen-hydrogen-nitrogen oxide atmosphere. J Geophys Res: 76, 7311, 1971.CrossRefGoogle Scholar
  81. Crutzen, P.J., A discussion of the chemistry of some minor constituents in the stratosphere and troposphere. Pure Appl Geophys: 106, 1385, 1973.CrossRefGoogle Scholar
  82. Crutzen, P.J., Photochemical reactions initiated by the influencing ozone in unpolluted tropospheric air. Tellus: 26, 47, 1974.CrossRefGoogle Scholar
  83. Crutzen, P.J., The possible importance of CSO for the sulfate layer of the stratosphere. Geophys Res Lett: 3, 73, 1976.CrossRefGoogle Scholar
  84. Crutzen, P.J., Atmospheric interactions: Homogenous gas reactions of C, N and S containing compounds, in The Major Biochemical Cycles and Their Interactions. B. Bolin and R.B. Cook (eds.), SCOPE 21, 67–114, Wiley, Chichester, 1983.Google Scholar
  85. Crutzen, P.J., I.S.A. Isaksen, and G.C. Reid, Solar Protons events: Stratospheric sources of nitric oxide. Science: 189, 457, 1975.CrossRefGoogle Scholar
  86. Crutzen, P.J., and L.T. Gidel, The tropospheric budgets of anthropogenic chlorocarbons, CO, CO4, CH3Cl and the effect of various NOx sources on tropospheric ozone. J Geophys Res: 88, 6641, 1983.CrossRefGoogle Scholar
  87. Crutzen, P.J., and U. Schmaizl, Chemical budgets of the stratosphere. Planet Space Sci: 31, 1009, 1983.CrossRefGoogle Scholar
  88. Crutzen, P.J., and F. Arnold, Nitric acid cloud formation in the cold Antarctic stratosphere: A major cause for the springtime ‘ozone hole.’ Nature: 324, 651, 1986.CrossRefGoogle Scholar
  89. Crutzen, P.J., and P.H. Zimmermann, The changing photochemistry of the troposphere. Tellus: 43A–B, 136, 1991.Google Scholar
  90. Crutzen, P.J., L.E. Heidt, J.P. Krasnec, W.H. Pollock, and W. Seiler, Biomass burning as a source of the atmosphere gases CO, H2, N2O, NO, CH3Cl and COS, Nature: 282, 253, 1979.CrossRefGoogle Scholar
  91. Crutzen, P.J., R. Müller, C. Brühl, and T. Peter, On the potential importance of the gas phase reaction CH3O2 + ClO → ClOO + CH3O and the heterogenous reaction HOCl + HCl → H2O + CL2 in “ozone hole” chemistry. Geophys Res Lett: 19, 1113, 1992.CrossRefGoogle Scholar
  92. Daniel, J.S., S. Solomon, R.W. Portmann, and R.R. Garcia, Stratospheric ozone destruction: The importance of bromine relative to chlorine. J Geophys Res: 104,23,871, 1999.Google Scholar
  93. David, D., S. Godin, G. Mégie, Y. Emery, and C. Flesia, Physical state and composition of polar stratospheric clouds from airborne lidar measurements during sesame. J Atmos Chem: 27, 1, 1997.CrossRefGoogle Scholar
  94. Deguchi, S., and O.O. Muhleman, Mesopheric water vapor. J Geophys Res: 87, 1343, 1982.CrossRefGoogle Scholar
  95. Delwiche, C.C., Biological production and utilization of N2O. Pageoph: 116, 414, 1978.CrossRefGoogle Scholar
  96. De Zafra, R.L., A. Parrish, P.M., Solomon and J.W. Barrett, A measurement of stratospheric HO2 by ground-based nm-wave spectroscopy. J Geophys Res: 89, 1321, 1984.CrossRefGoogle Scholar
  97. De Zafra, R.L., M. Jaramillo, J. Barrett, L.K. Emmons, P.M. Solomon, and A. Parrish, New observations of large concentration of ClO in the springtime lower stratosphere over Antarctica and its implications for ozone-depleting chemistry. J Geophys Res: 94,11,423, 1989.Google Scholar
  98. Dlugokencky, E.J., L.P. Steel, P.M. Lang, and K.A. Masarie, The growth rate and distribution of atmospheric methane. J Geophys Res: 99,17,021, 1994.Google Scholar
  99. Dlugokencky, E.J., E.G. Dutton, P.C. Novelli, P.P. Tans, K.A. Masarie, K.O. Lantz, and S. Madronich, Changes in CH4 and CO growth rates after the eruption of Mt. Pinatubo and their link with changes in tropical tropospheric UV flux. Geophys Res Lett: 23, 2761, 1996.CrossRefGoogle Scholar
  100. Dlugokencky, E.J., K.A. Masarie, P.M. Lang, and P.P. Tans, Continuing decline in growth rate of the atmospheric methane burden. Nature: 393, 447, 1998.CrossRefGoogle Scholar
  101. Dobson, G.M.B., Observations of the amount of ozone in the earth’s atmosphere and its relation to other geophysical conditions. Proc Roy Soc London: A 129, 411, 1930.Google Scholar
  102. Dobson, G.M.B., Exploring the Atmosphere, Clarendon Press (Oxford), 1963.Google Scholar
  103. Drdla, K., A. Tabazadeh, R.P. Turco, M.Z. Jacobsen, J.E. Dye, C. Twohy, and D. Baumgardner, Analysis of the physical state of one arctic polar stratospheric cloud based on observations. Geophys Res Lett: 21, 2475, 1994.CrossRefGoogle Scholar
  104. Dupuy, É., J. Urban, P. Ricaud, É. Le Flochmoën, N. Lautié, D. Murtagh, J. De La Noë, L. El Amraoui, P. Eriksson, P. Forkman, U. Frisk, F. Jégou, C. Jiménez, and M. Olberg, Strato-mesospheric measurements of carbon monoxide with the Odin Sub-Millimetre Radiometer: Retrieval and first results. Geophys Res Lett, in press.Google Scholar
  105. Dütsch, H.U., Atmospheric ozone: A short review. J Geophys Res: 75, 1707, 1970.CrossRefGoogle Scholar
  106. Dütsch, H.U., Vertical ozone distribution and tropospheric ozone, Proc of the NATO Advanced Institute on Atmospheric Ozone, A.C. Aikin, ed., U.S. Dept. of Transportation, FAA-EE-80-20, FAA, Washington, D.C., USA, 1980.Google Scholar
  107. Dvortsov, V.L., M.A. Geller, S. Solomon, S.M. Schauffler, E.L. Atlas, and D.R. Blake, Rethinking reactive halogen budgets in the midlatitude lower stratosphere. Geophys Res Lett: 26, 1699, 1999.CrossRefGoogle Scholar
  108. Dye, J.E., D. Baumgardner, B.W. Gandrud, S.R. Kawa, K.K. Kelly, M. Loewenstein, G.V. Ferry, K.R. Chan, and B.L. Gary, Particle size distribution in Arctic polar stratospheric clouds, growth and freezing of sulfuric acid droplets, and implications for cloud formation. J Geophys Res: 97, 8015, 1992.Google Scholar
  109. Eckman, R.S., The response of ozone to short-term variations in the solar ultraviolet irradiance, 1. A theoretical model. J Geophys Res: 91, 6695, 1986.CrossRefGoogle Scholar
  110. Ehhalt, D.H., On the uptake of tritium by soil water and groundwater. Water Resour Res: 9, 1073, 1973.CrossRefGoogle Scholar
  111. Ehhalt, D.H., The atmospheric cycle of methane. Tellus: 26, 58, 1974.CrossRefGoogle Scholar
  112. Ehhalt, D.H., Gas phase chemistry in the troposphere, in Global Aspects of Atmospheric Chemistry, R. Zellner, ed., Springer Verlag, Topics in Physical Chemistry: 6, 21, 1999.Google Scholar
  113. Ehhalt, D.H., and L.E. Heidt, The concentration of molecular H2 and CH3 in the stratosphere. Pageophys: 106, 1352, 1973.CrossRefGoogle Scholar
  114. Ehhalt, D.H., and A. Tonnissen, Hydrogen and carbon compounds in the stratosphere, Proc of the NATO Advanced Institute on Atmospheric Ozone, A.C. Aikin, ed., U.S. Dept. of Transportation, FAA-EE-80-20, FAA, Washington, D.C., USA, 1980.Google Scholar
  115. Ehhalt, D.H., L.E. Heidt, R.H. Lueb, and N. Roper, Vertical profiles of CH4, H2, CO, N2O and CO2 in the stratosphere, in Proc of the Third Conference on CIAP. U.S. Dept of Transportation, Washington, D.C., USA, 1974.Google Scholar
  116. Ehhalt, D.H., L.E. Heidt, R.H. Lueb, and W. Pollock, The vertical distribution of trace gases in the stratosphere. Pageoph: 113, 389, 1975a.CrossRefGoogle Scholar
  117. Ehhalt, D.H., L.E. Heidt, R.H. Lueb, and E.A. Martell, Concentrations of CH4, CO, CO2, H2, H2O and N2O in the upper stratosphere. J Atmos Sci: 32, 163, 1975b.CrossRefGoogle Scholar
  118. Ehhalt, D.H., U Schmidt, R. Zander, P. Demoulin, and C.P. Rinsland, Seasonal cycle and secular trend of the total and tropospheric abundance of ethane above the Jungfraujoch. J Geophys Res: 96, 4985, 1991.CrossRefGoogle Scholar
  119. Enell, C.-F., A. Steen, T. Wagner, U. Friess, K. Pfeilsticker, and U. Platt, Occurrence of polar stratospheric clouds at kiruna. Ann Geophys: 17, 1457, 1999.CrossRefGoogle Scholar
  120. Engleman, R., The vibrational state of hydroxyl radicals produced by flash photolysis of water-ozone-argone mixture. J Am Chem Soc: 87, 4193, 1965.CrossRefGoogle Scholar
  121. Etheridge, D.M., L.P. Steele, R.J. Francey, and R.L. Langenfelds, Atmospheric methane between 1000 AD and present: Evidence of anthropogenic emissions and climate variability. J Geophys Res: 103, 15 979, 1998.CrossRefGoogle Scholar
  122. Evans, W.J.J., O.M. Hunter, E.J. Lewellyn, and A. Vallance-Jones, Altitude profile of the infrared system of oxygen in the dayglow. J Geophys Res: 73, 2885, 1968.CrossRefGoogle Scholar
  123. Evans, W.F.J., J.B. Kerr, C.T. McElroy, R.S. O’Brien, and J.C. McConnell, Measurement of NO, NO2 and HNO3 during a stratospheric warming at 54°N in February 1979. Geophys Res Lett: 9, 493, 1982.CrossRefGoogle Scholar
  124. Eyre, J.R., and H.K. Roscoe, Radiometric measurements of stratospheric HCl. Nature: 266, 243, 1977.CrossRefGoogle Scholar
  125. Fabian, P., R. Borchers, K.H. Weiler, U. Schmidt, L.A. Volz, P.H. Ehhalt, W. Seiler, and F. Muller, Simultaneously measured vertical profiles of H2, CH4, CO, N2O, CFCl3, and CF2Cl2 in the mid-latitude stratosphere and troposphere. J Geophys Res: 84, 3149, 1979.CrossRefGoogle Scholar
  126. Fahey, D.W., K.K. Kelly, G.V. Ferry, L.R. Poole, J.C. Wilson, D.M. Murphy, M. Loewenstein, and K.R. Chan, In situ measurements of total nitrogen, total water, and aerosol in a polar stratospheric cloud in the Antarctic. J Geophys Res: 94, 11,299, 1989.Google Scholar
  127. Fahey, D.W., K.K. Kelly, S.R. Kawa, A.F. Tuck, M. Loewenstein, K.R. Chan, and L.E. Heidt, Observations of denitrification and dehydration in the winter polar stratospheres. Nature: 344, 321, 1990.CrossRefGoogle Scholar
  128. Fahey, D.W., S.R. Kawa, E.L. Woodbridge, P. Tin, J.C. Wilson, H.H. Jonsson, J.E. Dye, D. Baumgardner, S. Borrmann, D.W. Toohey, L.M. Avallone, M.H. Proffitt, J. Margitan, M. Loewenstein, J.R. Podolske, R.J. Salawitch, S.C. Wofsy, M.K.W. Ko, D.E. Anderson, M.R. Schoeberl, and K.R. Chan, In situ measurements constraining the role of sulfate aerosols in mid-latitude ozone depletion. Nature: 363, 509, 1993.CrossRefGoogle Scholar
  129. Fahey, D.W., R.S. Gao, K.S. Carslaw, J. Kettleborough, P.J. Popp, M.J. Northway, J.C. Holecek, S.C. Ciciora, R.J. McLaughlin, T.L. Thompson, R.H. Winkler, D.G. Baumgardner, B. Gandrud, P.O. Wennberg, S. Dhaniyala, K. McKinney, Th. Peter, R.J. Salawitch, T.P. Bui, J.W. Elkins, C.R. Webster, E.L. Atlas, H. Jost, J.C. Wilson, R.L. Herman, A. Kleinböhl, and M. von König, The detection of large HNO3-containing particles in the winter arctic stratosphere. Science: 291, 1026, 2001.CrossRefGoogle Scholar
  130. Farman, J.C., B.G. Gardiner, and J.D. Shanklin, Large losses of total ozone in Antarctic reveal seasonal ClOx/NOx interaction. Nature: 315, 207, 1985.CrossRefGoogle Scholar
  131. Farmer, C.B., Infrared measurements of stratospheric composition. Canad J Chem: 52, 1544, 1974.CrossRefGoogle Scholar
  132. Farmer, C.B., O.F. Raper, R.A. Toth, and R.A. Schindler, Recent results of aircraft infrared observations of the stratosphere. Proc Third Conf on the Climatic Impact Assessment Program, Rep. No. DOT-TSC-OST-74-15, U.S. Dept. of Transportation, Washington, D.C., USA, 234, 1974.Google Scholar
  133. Farmer, C.B., O.F. Raper, and R.H. Norton, Spectroscopic detection and vertical distribution of HCl in the troposphere and stratosphere. Geophys Res Lett: 3, 13, 1976.CrossRefGoogle Scholar
  134. Farmer, C.B., O.F. Raper, B.D. Robbins, R.A. Toth, and C. Muller, Simultaneous spectroscopic measurements of stratospheric species: O3, CH4, CO, CO2, N2O, H2O, HCl and HF at northern and southern mid-latitudes. J Geophys Res: 85, 1621, 1980.CrossRefGoogle Scholar
  135. Fish, D.J., S.R. Aliwell, and R.L. Jones, Midlatitude observations of the seasonal variation of BrO: 2, Interpretation and modelling study. Geophys Res Lett: 24, 1199, 1997.CrossRefGoogle Scholar
  136. Flückiger, J.A., T. Dällenbach, T. Blunier, B. Stauffer, T.F. Stocker, D. Raynaud, and J.-M. Barnola, Variations in atmospheric N2O concentration during abrupt climate changes. Science: 285, 227, 1999.CrossRefGoogle Scholar
  137. Forkman, P., P. Eriksson, A. Winnberg, R.R. Garcia, and D. Kinnison, Longest continuous ground-based measurements of mesospheric CO. Geophys Res Lett: 30, 1532, doi: 10.1029/2003GL016931, 2003.CrossRefGoogle Scholar
  138. Frederick, J.E., and N. Orsini, The distribution and variability of mesospheric odd nitrogen: A theoretical investigation. J Atmos Terr Phys: 44, 4798, 1982.CrossRefGoogle Scholar
  139. Fried, A., B.E. Henry, J.G. Calvert, and M. Mozukewich, The reaction probability of N2O5 with sulfuric acid aerosols at stratospheric temperatures and compositions. J Geophys Res: 99, 3517, 1994.CrossRefGoogle Scholar
  140. Friedl, A., J.R. Drummond, B. Henry, and J. Fox, Versatile integrated tunable diode laser system for ambient measurements of OCS. Appl Optics: 30, 1916, 1991.CrossRefGoogle Scholar
  141. Friend, J.P., The global sulfur cycle, in Chemistry of the Lower Atmosphere. Rasool, I., ed., Plenum Press, 177, 1973.Google Scholar
  142. Friess, U., T. Wagner, I. Pundt, K. Pfeilsticker, and U. Platt, Spectroscopic measurements of troposphere iodine oxide at Neumayer Station, Antarctica. Geophys Res Lett: 28, 1941, 2001.CrossRefGoogle Scholar
  143. Fung, I., J. John, J. Lerner, E. Matthews, M. Prather, L. Steele, and P. Fraser, Three-dimensional model synthesis of the global methane cycle. J Geophys Res: 96, 13,033, 1991.Google Scholar
  144. Garcia, R.R., and S. Solomon, A numerical model of the zonally averaged dynamical and chemical structure of the middle atmosphere. J Geophys Res: 88, 1379, 1983.CrossRefGoogle Scholar
  145. Garcia, R.R., and S. Solomon, The effect of breaking gravity waves on the dynamics and chemical composition of the mesosphere and lower thermosphere. J Geophys Res: 90, 3850, 1985.CrossRefGoogle Scholar
  146. Garcia, R.R., and S. Solomon, A new numerical model of the middle atmosphere: 2, Ozone and related species. J Geophys Res: 99, 12,937, 1994.CrossRefGoogle Scholar
  147. Gear, C.W., Numerical Initial Value Problems in Ordinary Differential Equations. Prentice Hall, 1971.Google Scholar
  148. Gettelman, A., J.R. Holton, and A.R. Douglass, Simulations of water vapor in the lower stratosphere and upper troposphere, J Geophys Res: 105, 9003, 2000.CrossRefGoogle Scholar
  149. Gibbins, C.J., P.R. Schmitz, D.L. Thacher, and R.M. Bevilacqua, The variability of mesospheric water vapor. Geophys Res Lett: 8, 1059, 1981.CrossRefGoogle Scholar
  150. Gille, J.C., and J.M. Russell, The limb infrared monitor of the stratosphere (LIMS): Experiment description, performance and results. J Geophys Res: 89, 5125, 1984.CrossRefGoogle Scholar
  151. Gille, J.C., C.M. Smyth, and D.F. Heath, Observed ozone response to variations in solar ultraviolet radiation. Science: 225, 315, 1984.CrossRefGoogle Scholar
  152. Gilles, M.K., A.A. Turnipseed, J.B. Burkholder, A.R. Ravishankara, and S. Solomon, Kinetics of the IO radical: 2, Reaction of IO with BrO. J Phys Chem: 101, 5526, 1997.Google Scholar
  153. Glueckauf, E., and G.P. Kitt, The hydrogen content of air at ground level. Quart J Roy Met Soc: 83, 522, 1957.CrossRefGoogle Scholar
  154. Gobbi, G.P., and A. Adriani, Mechanisms of formation of stratospheric clouds observed during the Antarctic late winter of 1992. Geophys Res Lett: 20, 1427, 1993.CrossRefGoogle Scholar
  155. Godin, S., G. Mégie, C. David, D. Haner, C. Flesia, and Y. Emery, Airborne lidar observations of mountain-wave-induced polar stratospheric clouds during EASOE. Geophys Res Lett: 21, 1335, 1994.CrossRefGoogle Scholar
  156. Goodmann, J., O.B. Toon, R.F. Pueschel, K. Snetsinger, and S. Verma, Antarctic stratospheric ice crystals. J Geophys Res: 94, 16,449, 1989.CrossRefGoogle Scholar
  157. Goodmann, J., S. Verma, R.F. Pueschel, P. Hamill, G.V. Ferry, and D. Webster, New evidence of size and composition of PSC particles. Geophys Res Lett: 24, 615, 1997.CrossRefGoogle Scholar
  158. Graedel, T.E., B. Kleiner, and G.C. Patterson, Measurements of extreme concentrations of tropospheric hydrogen sulfide. J Geophys Res: 79, 4467, 1974.CrossRefGoogle Scholar
  159. Gunson, M.R., C.B. Farmer, R.H. Norton, R. Zander, C.P. Rinsland, J.H. Shaw, and B.-C. Gao, Measurements of CH4, N2O, CO, H2O, and O3 in the middle atmosphere by the Atmospheric Trace Molecule Spectroscopy experiment on Spacelab 3. J Geoophys Res: 95, 13,867, 1990.Google Scholar
  160. Hagen-Smit, A.J., Chemistry and physiology of Los Angeles Smog. Ind Eng Chem: 44, 1342, 1952.CrossRefGoogle Scholar
  161. Hammill, P., A. Tabazadeh, S. Kinne, O.B. Toon, and R.P. Turco, On the growth of ternary system HNO3/H2SO4 aerosol particles in the stratosphere. Geophys Res Lett: 23, 753, 1996.CrossRefGoogle Scholar
  162. Hamm, S., and P. Warneck, The interhemispheric distribution and the budget of acetonitrile in the troposphere. J Geophys Res: 95, 20,593, 1990.CrossRefGoogle Scholar
  163. Hampson, J., Chemiluminescent emissions observed in the stratosphere and mesosphere, in Les Problemes Meteorologiques de la Stratosphere et de la Mesosphere. M. Nicolet, ed., Presses Universitaries de France, Paris, 393, 1966.Google Scholar
  164. Hanson, D.R., Reaction of N2O5 with H2O on bulk liquids and on particles and the effect of dissolved HNO3. Geophys Res Lett: 24, 1087, 1997.CrossRefGoogle Scholar
  165. Hanson, D.R., Reaction of ClONO2 with H2O and HCl in sulfuric acid and HNO3/H2SO4/H2O mixtures. J Phys Chem: 102, 4794, 1998.Google Scholar
  166. Hanson, D.R., and K. Mauersberger, The vapor pressures of HNO3-H2O solutions. J Phys Chem: 92, 6167, 1988.CrossRefGoogle Scholar
  167. Hanson, D.R., and A.R. Ravishankara, The reaction probabilities of ClONO2 and N2O5 on 40 to 75% sulfuric acid solutions. J Geophys Res: 96, 17307, 1991.CrossRefGoogle Scholar
  168. Hanson, D.R., and A.R. Ravishankara, Investigation of the reactive and nonreactive processes involving ClONO2 and HCl on water and nitric acid doped ice. J Phys Chem: 96, 2682, 1992.CrossRefGoogle Scholar
  169. Hanson, D.R., and A.R. Ravishankara, Uptake of HCl and HOCl onto sulfuric acid: Solubilities, diffusivities and reaction. J Phys Chem: 97, 12309, 1993.CrossRefGoogle Scholar
  170. Hanson, D.R., and A.R. Ravishankara, Reactive uptake of ClONO2 onto sulfuric acid due to reaction with HCl and H2O. J Phys Chem: 98, 5728, 1994.CrossRefGoogle Scholar
  171. Hanst, P.L., L.L. Speller, D.M. Watts, J.W. Spence, and F.M. Miller, Infrared measurements of fluorocarbons, carbon tetrachloride, carbonyl sulfide, and other atmospheric trace gases. Air Pollution Control Assn J: 24, 12, 1220, 1975.Google Scholar
  172. Harder, H., C. Camy-Peyret, F. Ferlemann, R. Fitzenberger, T. Hawat, H. Osterkamp, D. Perner, U. Platt, M. Schneider, P. Vradelis, and K. Pfeilsticker, Stratospheric BrO profiles measured at different latitudes and seasons: Atmospheric observations. Geophys Res Lett: 25, 3843, 1998.CrossRefGoogle Scholar
  173. Harries, J.E., Measurements of stratospheric water vapor using infrared techniques, J. Atmos. Sci., 30, 1691, 1973.CrossRefGoogle Scholar
  174. Hauglustaine, D.A., and D.H. Ehhalt, A three-dimensional model of molecular hydrogen in the troposphere. J Geophys Res: 107, D17, 4330, doi:1029/2001JD001156, 2002.CrossRefGoogle Scholar
  175. Hays, P.B., and J.J. Olivero, Carbon dioxide and monoxide above the troposphere. Planet Space Sci: 18, 1729, 1970.CrossRefGoogle Scholar
  176. Heaps, W.S., and J.J. McGee, Balloon borne lidar measurements of stratospheric hydroxyl radical. J Geophys Res: 86, 5281, 1983.CrossRefGoogle Scholar
  177. Hein, R., P.J. Crutzen, and M. Heinmann, An inverse modeling approach to investigate the global atmospheric methane cycle. Global Biogeochem Cycles: 11, 43, 1997.CrossRefGoogle Scholar
  178. Herman, J., and W. Jaeschke, Measurements of H2S and SO2 over the Atlantic ocean. J Atmos Chem: 1, 111, 1984.CrossRefGoogle Scholar
  179. Hesstvedt, E., On the photochemistry of ozone in the ozone layer. Geophys Publ: 27, 4, 1968.Google Scholar
  180. Hesstvedt, E., O. Høv, and I.S.A. Isaksen, Photochemistry of mixtures of hydrocarbons and nitrogen oxides in air. Geophys Norv: 31, 27, 1978.Google Scholar
  181. Hitchman, M.H., M. McKay, and C.R. Trepte, A climatology of stratospheric aerosol. J Geophys Res: 99, 20,689, 1994.CrossRefGoogle Scholar
  182. Hoffmann, D.J., and J.M. Rosen, Balloon-borne Observations of Stratospheric Aerosol and Condensation Nuclei During the Year Following the Mt. St. Helens Eruption. University of Wyoming Report AP-63, 1981.Google Scholar
  183. Hoffmann, D.J., and S. Solomon, Ozone destruction through heterogeneous chemistry following the eruption of El Chichón. J Geophys Res: 94, 5029, 1989.CrossRefGoogle Scholar
  184. Hoffman, T., C.D. O’Dowd, and J.H. Seinfeld, Iodine oxide homogeneous nucleation: An explanation for coastal new particle formation. Geophys Res Lett: 28, 1949, 2001.CrossRefGoogle Scholar
  185. Holton, J.R., P.H. Haynes, M.E. McIntyre, A.R. Douglass, R.B. Rood, and C. Pfister, Stratosphere-troposphere exchange. Rev Geophys: 33, 403, 1995.CrossRefGoogle Scholar
  186. Holzinger, R., C. Warneke, A. Hansel, A. Jordan, W. Lindinger, D.H. Scharffe, G. Schade, and P.J. Crutzen, Biomass burning as a source of formaldehyde, acetaldehyde, methanol, acetone, acetonitrile, and hydrogen cyanide. Geophys Res Lett: 26, 1161, 1999.CrossRefGoogle Scholar
  187. Hood, L.L., Solar ultraviolet radiation induced variations in the stratosphere and mesophere. J Geophys Res: 92, 876, 1987.CrossRefGoogle Scholar
  188. Hood, L.L., and J.L. Jirikowic, Stratospheric dynamical effects on solar ultraviolet variations: Evidence from zonal mean ozone and temperature data. J Geophys Res: 96, 7565, 1991.CrossRefGoogle Scholar
  189. Hood, L.L., and J.P. McCormack, Components of interannual ozone change based on NIMBUS 7 TOMS data. Geophys Res Lett: 19, 2309, 1992.CrossRefGoogle Scholar
  190. Hood, L.L., Z. Huang, and S.W. Bougher, Mesospheric effects of solar ultraviolet variations: Further analysis of SME IR ozone and NIMBUS 7 SAMS temperature data. J Geophys Res: 96, 12,989, 1991.Google Scholar
  191. Hood, L.L., J.L. Jirikowic, and J.P. McCormack, Quasi-decadal variability of the stratosphere: Influence of long-term solar ultraviolet variations. J Atmos Sci: 50, 3941, 1993.CrossRefGoogle Scholar
  192. Houweling, S., T. Kaminski, F. Dentener, J. Lelieveld, and M. Heinmann, Inverse modeling of methane sources and sinks using the adjoint of a global transport model. J Geophys Res: 104, 26,137, 1999.CrossRefGoogle Scholar
  193. Huang, T.Y.W., and G.P. Brasseur, The effect of long-term solar variability in a two-dimensional interactive model of the middle atmosphere. J Geophys Res: 98, 20,410, 1993.Google Scholar
  194. Hunt, B.G., Photochemistry of ozone in a moist atmosphere. J Geophys Res: 71, 1385, 1966.Google Scholar
  195. Ingels, J. D. Nevejans, P. Frederick, and E. Arijs, Acetonitrile and sulfuric acid concentrations derived from ion composition measurements during the MAP/GLOBUS 1983 Campaign. Planet Space Sci: 35, 685, 1987.CrossRefGoogle Scholar
  196. Ingham, T., M. Cameron, and J.N. Crowley, Photodissociation of IO (355 nm) and OIO (532 nm): Quantum yields for O3P and I production. J Phys Chem: 104, 8001, 2000.Google Scholar
  197. Inn, E.C.Y., J.F. Vedder, B.J. Tyson, and D. O’Hara, COS in the stratosphere. Geophys Res Lett: 6, 191, 1979.CrossRefGoogle Scholar
  198. IPCC, Climate Change: The IPCC Scientific Assessment, J.T. Houghton, C.J. Jenkins, and J.J. Ephraums, eds., Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK, 1990.Google Scholar
  199. IPCC, Climate Change 1995: The Science of Climate Change. Contribution of Working Group I to the Second Assessment Report of the Intergovernmental Panel on Climate Change, J.T. Houghton, L.G. Meira Filho, B.A. Callander, N. Harris, A. Kattenberg, and K. Maskell, eds., Cambridge University Press, Cambridge, UK, 572 pp., 1996.Google Scholar
  200. IPCC, Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change, J.T. Houghton, Y. Ding, D.J. Griggs, M. Noguer, P.J. van der Linden, X. Dai, K. Maskell, and C.A. Johnson, eds. Cambridge University Press, Cambridge, UK, 881 pp., 2001.Google Scholar
  201. Jaeschke, W., R. Schmitt, and H.W. Georgi, Preliminary results of stratospheric SO2 measurements. Geophys Res Lett: 3, 517, 1976.CrossRefGoogle Scholar
  202. Jackman, C.H., Effects of energetic particles on minor constituents in the middle atmosphere. J Geomagn Geoelec: 43, 637, 1991.Google Scholar
  203. Jackman, C.H., M.C. Cerniglia, J.E. Nielsen, D.J. Allen, J.M. Zawodny, R.D. McPeeters, A.R. Douglass, J.E. Rosenfield, and R.B. Rood, 2-Dimensional and 3-Dimensional model simulations, measurements, and interpretation of the influence of the October 1989 solar proton events on the middle atmosphere. J Geophys Res: 100, 11,641, 1995.CrossRefGoogle Scholar
  204. Jacobson, M.Z., Computation of global photochemistry with SMVGEAR II. Atmos Environ: 29, 2541, 1995.CrossRefGoogle Scholar
  205. Jacobson, M.Z., Improvement of the SMVGEAR II on vector and scalar machines through absolute tolerance control. Atmos Environ: 32, 791, 1998.CrossRefGoogle Scholar
  206. Jacobson, M.Z., and R.P. Turco, SMVGEAR: A sparse-matrix vectorized gear code for atmospheric models. Atmos Environ: 28A, 273, 1994.CrossRefGoogle Scholar
  207. Jensen, E.J., et al., High humidities and subvisible cirrus near the tropical tropopause, Geophys Res Lett: 25, 151, 1998.CrossRefGoogle Scholar
  208. Johnson, J.E., A.R. Bandy, D.C. Thornton, and T.S. Bates, Measurements of atmospheric carbonyl sulfide during the NASA Chemical Instrumentation Test and Evaluation Project: Implication for the global COS budget. J Geophys Res: 98, 23,443, 1993.Google Scholar
  209. Johnston, H., Reduction of stratospheric ozone by nitrogen oxide catalysts from supersonic transport exhaust. Science: 173, 517, 1971.CrossRefGoogle Scholar
  210. Johnston, H.S., and J. Podolske, Interpretation of stratospheric photochemistry. Rev Geophys Space Phys: 16, 491, 1978.CrossRefGoogle Scholar
  211. Jucks, K.W., D.G. Johnson, K.V. Chance, W.A. Traub, J.J. Margitan, G.B. Osterman, R.J. Salawitch, and Y. Sasano, Observations of OH, HO2, H2O and O3 in the upper stratosphere, implications for HOx chemistry. Geophys Res Lett: 25, 3935, 1998.CrossRefGoogle Scholar
  212. Kaye, J.A., S. Penkett, and F.M. Ormond, (eds.), Report on Concentrations, Lifetimes and Trends of CFCs, Halons, and Related Species, NASA Reference Publication 1339, NASA Office of Mission to Planet Earth, 247pp., National Aeronautics and Space Administration, Washington, D.C., USA, 1994.Google Scholar
  213. Keating, G.M., M.C. Pitts, G. Brasseur, and A. De Rudder, Response of middle atmosphere to short-term solar ultraviolet variations: 1, Observations. J Geophys Res: 92, 889, 1987.CrossRefGoogle Scholar
  214. Keyser, L.F., Absolute rate constant and branching fractions for the H + HO2 reaction from 245 to 300 K. J Phys Chem: 90, 2994, 1986.CrossRefGoogle Scholar
  215. Khalil, M.A.K., and R.A. Rasmussen, Carbon monoxide in the Earth’s atmosphere: Increasing trend. Science: 224, 54, 1990.CrossRefGoogle Scholar
  216. Kircher, C.C., and S.P. Sander, Kinetics of HO2 and DO2 disproportionations. J Phys Chem: 88, 2082, 1984.CrossRefGoogle Scholar
  217. Kley, D., E.J. Stone, W.R. Henderson, J.W. Drummond, W.J. Harrop, A.L. Schmeltekopf, T.L. Thompson, and R.H. Winkler, In situ measurements of the mixing ratio of water vapor in the stratosphere. J Atmos Sci: 36, 2513, 1979.CrossRefGoogle Scholar
  218. Kley, D., J.W. Drummond, and A.L. Schmeltekopf, On the structure and microstructure of stratospheric water vapor, in Atmospheric Water Vapor. A. Deepak, T.D. Wilkerson, and L.H. Ruhnke, eds., Academic Press, 315, 1980.Google Scholar
  219. Ko, M.K.W., N.D. Sze, and D.K. Weisenstein, Roles of dynamical and chemical processes in determining the stratospheric concentration of ozone in one-dimensional and two-dimensional models. J Geophys Res: 94, 9889, 1989.CrossRefGoogle Scholar
  220. Ko, M.K.W., N.D. Sze, C.J. Scott, and D.K. Weisenstein, On the relation between stratospheric chlorine/bromine loading and short-lived tropospheric source gases. J Geophys Res: 102, 25,507, 1997.Google Scholar
  221. Kondo, Y., P. Aimedieu, M. Koike, Y. Iwasaka, P.A. Newman, U. Schmidt, W.A. Mathews, M. Hayashi, and W.R. Sheldon, Reactive nitrogen, ozone, and nitrate aerosols observed in the Arctic stratosphere in January 1990. J Geophys Res: 97, 13,025, 1992.Google Scholar
  222. Kondo, Y., U. Schmidt, T. Sugita, A. Engel, M. Koike, P. Aimedieu, M.R. Gunson, and J. Rodriguez, NOy correlation with N2O and CH4 in the midlatitude stratosphere. Geophys Res Lett: 23, 2369, 1996.CrossRefGoogle Scholar
  223. Koop, T., and K.S. Carslaw, Melting of H2SO4·4H2O particles upon cooling: Implications for polar stratospheric clouds. Science: 272, 1638, 1996.CrossRefGoogle Scholar
  224. Koop, T., U.M. Biermann, W. Raber, B.P. Luo, P.J. Crutzen, and Th. Peter, Do stratospheric aerosols freeze above the ice frost point? Geophys Res Lett: 22, 917, 1995.CrossRefGoogle Scholar
  225. Kroeze, C., A. Mosier, and L. Bouwman, Closing the N2O budget: A restrospective analysis. Global Biogeochem Cycles: 13, 1, 1999.CrossRefGoogle Scholar
  226. Kulmala, M., L. Pirjola, and J.M. Mäkelä, Stable sulfate clusters as a source of new atmospheric particles. Nature: 404, 66, 2000.CrossRefGoogle Scholar
  227. Langford, A.O., T.J. O’Leary, M.H. Proffit, and M.H. Hitchman, Transport of the Pinatubo aerosol to a northern midlatitute site. J Geophys Res: 100, 9007, 1995.CrossRefGoogle Scholar
  228. Larsen, N., B.M. Knudsen, J.M. Rosen, N.T. Kjome, and E. Kyrö, Balloon-borne backscatter observations of type 1 PSC formation: Inference about physical state from trajectory analysis. Geophys Res Lett: 23, 1091, 1996.CrossRefGoogle Scholar
  229. Larsen, N., B.M. Knudsen, J.M. Rosen, N.T. Kjome, R. Neuber, and E. Kyrö, Temperature histories in liquid and solid polar stratospheric cloud formation. J Geophys Res: 102, 23,505, 1997.CrossRefGoogle Scholar
  230. Lary, D.J., Gas phase bromine photochemistry. J Geophys Res: 101, 1505, 1996.CrossRefGoogle Scholar
  231. Lary, D.J., M.P. Chipperfield, R. Toumi, and T. Lenton, Heterogeneous atmospheric bromine chemistry. J. Geophys Res: 101, 1489, 1996.CrossRefGoogle Scholar
  232. Lassey, K.R., D.C. Lowe, C.A.M. Brenninkmeijer, and A.J. Gomez, Atmospheric methane and its carbon isotopes in the southern hemisphere: Their time series and an instructive model. Chemosphere-Global Change Science: 26, 95, 1993.Google Scholar
  233. Lazrus, A.L., and B.W. Gandrud, Distribution of stratospheric nitric acid vapor. J Atmos Sci: 31, 1102, 1974.CrossRefGoogle Scholar
  234. Lazrus, A.L., B.W. Gandrud, R.N. Woodard, and W.A. Sedlacek, Stratospheric halogen measurements. Geophys Res Lett: 2, 439, 1975.CrossRefGoogle Scholar
  235. Lazrus, A.L., B.W. Gandrud, R.N. Woodard, and W.A. Sedlacek, Direct measurements of stratospheric chlorine and bromine. J Geophys Res: 81, 1067, 1976.CrossRefGoogle Scholar
  236. Lee, A.M., R.L. Jones, I. Kilbane-Dawe, and J.A. Pyle, Diagnosing ozone loss in the extratropical lower stratosphere. J Geophys Res: 107, 10.1029/2001JD000538, 2002.Google Scholar
  237. Lefèvre, F., G.P. Brasseur, I. Folkins, A.K. Smith, and P. Simon, Chemistry of the 1991–1992 stratospheric winter: Three-dimensional model simulations. J Geophys Res: 99, 8183, 1994.CrossRefGoogle Scholar
  238. Lehmann, R., An algorithm for the determination of all significant pathways in chemical reaction systems. J Atm Chem: 47, 45, 2004.CrossRefGoogle Scholar
  239. Le Texier, H., S. Solomon, and R.R. Garcia, The role of molecular hydrogen and methane oxidation in the water vapor budget of the stratosphere. Quart J Roy Met Soc: 114, 281, 1988.CrossRefGoogle Scholar
  240. Levy II, H., Normal atmosphere: Large radical and formaldehyde concentrations predicted. Science: 173, 141, 1971.CrossRefGoogle Scholar
  241. Li, Q., D.J. Jacob, I. Bey, R.M. Yantosca, Y. Zhao, Y. Kindo, and J. Notholt, Atmospheric hydrogen cyanide (HCN): Biomass burning source, ocean sink? Geophys Res Lett: 27, 357, 2000.CrossRefGoogle Scholar
  242. Lii, R.R., M.C. Sauer, Jr., and S. Gordon, Temperature dependence of the gas-phase self reaction of HO2 in the presence of H2O. J Chem Phys: 85, 2833, 1981.CrossRefGoogle Scholar
  243. Liu, S.C., and T.M. Donahue, The aeronomy of hydrogen in the atmosphere of the earth. J Atmos Sci: 31, 1118, 1974.CrossRefGoogle Scholar
  244. Livesey, N.J., J.W. Waters, R. Khosravi, G.P. Brasseur, G.S. Tyndall, and W.G. Read, Stratospheric CH3CN from the UARS Microwave Limb Sounder, Geophys Res Lett: 28, 779, 2001.CrossRefGoogle Scholar
  245. Lobert, J.M., D.H. Scharffe, W.M. Hao, and P.J. Crutzen, Importance of biomass burning in the atmospheric budgets of nitrogen-containing gases. Nature: 346, 552, 1990.CrossRefGoogle Scholar
  246. Loewenstein, M., J.R. Podolske, D.W. Fahey, E.L. Woodbridge, P. Tin, A. Weaver, P.A. Newman, S.E. Strahan, S.R. Kawa, M.R. Schoeberl, and L.R. Lait. New observations of the NOy/N2O correlation in the lower stratosphere. Geophys Res Lett: 20, 2531, 1993.CrossRefGoogle Scholar
  247. London, J., Radiative energy sources and sinks in the stratosphere and mesophere, Proc of the NATO Advanced Institute on Atmospheric Ozone, A.C. Aikin, ed., U.S. Dept. of Transportation, FAA-EE-80-20, FAA, Washington, D.C., USA, 1980.Google Scholar
  248. London, J., and G.M.W. Haurwitz, Ozone and sunspots. J Geophys Res: 68, 795, 1963.CrossRefGoogle Scholar
  249. Lopez-Puertas, M., M.A. Lopez-Valverde, R.R. Garcia, and R.G. Roble, A review of CO2 and CO abundancies in the middle atmosphere, in Atmospheric Science Across the Stratosphere, Geophysical Monograph 123, American Geophysical Union, 2000.Google Scholar
  250. Lowe, D.C., C.A.M. Brenninkmeijer, G.W. Brailsford, K.R. Lassey, and A.J. Gomez, Concentration and 13C records of atmospheric methane in New Zealand and Antarctica: Evidence for changes in methane sources. J Geophys Res: 99, 16,913, 1994.CrossRefGoogle Scholar
  251. Lovejoy, E.R., and D.R. Hanson, Measurement of the kinetics of reactive uptake by submicron sulfuric acid particles. J Phys Chem: 99, 2080, 1995.CrossRefGoogle Scholar
  252. MacKenzie, A.R., M. Kulmala, A. Laaksonen, and T. Vesala, On the theories of type 1 polar stratospheric cloud formation. J Geophys Res: 100, 11,275, 1995.CrossRefGoogle Scholar
  253. Mahieu, E., C.P. Rinsland, R. Zander, P. Demoulin, L. Delbouille, and G. Roland, Vertical column abundances of HCN deduced from ground-based infrared solar spectra: Long-term trends and variability. J Atmos Chem: 20, 299, 1995.CrossRefGoogle Scholar
  254. Mahieu, E., R. Zander, L. Delbouille, P. Demoulin, G. Roland, and C. Servais, Observed trends in total vertical column abundances of atmospheric gases from IR solar spectra recorded at the Jungfraujoch. J Atmos Chem: 28, 227, 1997.CrossRefGoogle Scholar
  255. Maiss, M., L.P. Steele, R.J. Francey, P.J. Fraser, R.L. Langenfelds, N.B.A. Trivelt, and I. Levin, Sulfur hexafluoride, a powerful new atmospheric tracer. Atmos Environ: 30, 1621, 1996.CrossRefGoogle Scholar
  256. Manion, J.A., C. M. Fittschen, D.M. Golden, L.R. Williams, and M.A. Tolbert, Israel J Chem: 34, 355, 1994.Google Scholar
  257. Mankin, W.G., and M.T. Coffey, Latitudinal distributions and temporal changes of stratosphere HCl and HF. J Geophys Res: 88, 10,776, 1983.CrossRefGoogle Scholar
  258. Mankin, W.G., M.T. Coffey, D.W.T. Griffith, and S.R. Drayson, Spectroscopic measurement of carbonyl sulfide (OCS) in the stratosphere. Geophys Res Lett: 6, 853, 1979.CrossRefGoogle Scholar
  259. Mankin, W.G., M.T. Coffey, and A. Goldman, Airborne observations of SO2, HCl, and O3 in the stratospheric plume of the Pinatubo volcano in July, 1991. Geophys Res Lett: 19, 179, 1992.CrossRefGoogle Scholar
  260. Manning, M.R., E.A.M. Brenningkmeijer, and W. Allan, The atmospheric carbon monoxide budget of the southern hemisphere. J Geophys Res: 102, 10,673, 1997.CrossRefGoogle Scholar
  261. Manõ, S., and M.O. Andreae, Emission of methyl bromide from biomass burning. Science: 263, 1255, 1994.CrossRefGoogle Scholar
  262. Maroulis, P.J., A.L. Torres, and A.R. Bandy, Atmospheric concentrations of carbonyl sulfide in the south-western and eastern United States. Geophys Res Lett: 4, 510, 1977.CrossRefGoogle Scholar
  263. Maroulis, P.J., A.L. Torres, A.B. Goldberg, and A.R. Bandy, Atmospheric SO2 measurements on project Gametag. J Geophys Res: 85, 7345, 1980.CrossRefGoogle Scholar
  264. Marsh, D.R., and J.M. Russell III, A tidal explanation of the sunrise/sunset anomaly in HALOE low-latitude nitric oxide observations. Geophys Res Lett: 27, 3197, 2000.CrossRefGoogle Scholar
  265. Marsh, D.R., and R. Roble, TIME-GCM simulations of lower-thermospheric nitric oxide seen by the halogen occultation experiment. J Atmos Terr Phys: 64, 889, 2002.CrossRefGoogle Scholar
  266. May, R.D., and C.R. Webster, In situ stratospheric measurements of HNO3 and HCl near 30 km using the balloon-borne laser in situ sensor tunable diode laser spectrometer. J Geophys Res: 94, 16,343, 1989.CrossRefGoogle Scholar
  267. McCormick, M.P., H.M. Steele, P. Hamill, W.P. Chu, and T.J. Swissler, Polar stratospheric cloud sightings by SAM II. J Atmos Sci: 39, 1387, 1982.CrossRefGoogle Scholar
  268. McElroy, M.B., The Atmospheric Environment: Effects of Human Activities. Princeton University Press, 2002.Google Scholar
  269. McElroy, M.B., and J.C. McConnell, Nitrous oxide: A natural source of stratospheric NO. J Atmos Sci: 28, 1095, 1971.CrossRefGoogle Scholar
  270. McElroy, M.B., R.J. Salawitch, S.C. Wofsy, and J.A. Logan, Reductions of Antarctic ozone due to synergistic interactions of chlorine and bromine. Nature: 321, 759, 1986.CrossRefGoogle Scholar
  271. McKeen, S.A., S.C. Liu, and C.S. Kiang, On the chemistry of stratospheric SO 2 from volcanic eruptions. J Geophys Res: 89, 4873, 1984.CrossRefGoogle Scholar
  272. McLeod, H., G.P. Smith, and D.M. Golden, Photodissociation of pernitric acid (HO2NO2) at 248 nm. J Geophys Res: 93, 3813, 1988.CrossRefGoogle Scholar
  273. Meilinger, S.K., T. Koop, B.P. Luo, T. Huthwelker, K.S. Carslaw, U. Krieger, P.J. Crutzen and Th. Peter, Size-dependent stratospheric droplet composition in leewave temperature fluctuations and their potential role in PSC freezing. Geophys Res Lett: 22, 3031, 1995.CrossRefGoogle Scholar
  274. Meira, L.G., Jr., Rocket measurements of upper atmospheric nitric oxide and their consequences to the lower ionosphere. J Geophys Res: 76, 202, 1971.CrossRefGoogle Scholar
  275. Meixner, F.X., The vertical sulfur dioxide distribution at the tropopause level. J Atmos Chem: 2, 175, 1984.CrossRefGoogle Scholar
  276. Menzies, R.T., Remote measurement of ClO in the stratosphere. Geophys Res Lett: 6, 151, 1979.CrossRefGoogle Scholar
  277. Michelangeli, D.V., M. Allen, Y.L. Yung, R.L. Shia, D. Crisp, and J. Eluszkiewicz, Enhancement of atmospheric radiation by an aerosol layer, J Geophys Res: 97, 865, 1992.Google Scholar
  278. Migeotte, M.V., Methane in the earth’s atmosphere, Astrophys J: 107, 400, 1948.CrossRefGoogle Scholar
  279. Mlynzack, M.G., A new perspective on the molecular oxygen and hydroxyl airglow emissions. J Geophys Res: 104, 27,535, 1999.Google Scholar
  280. Mlynzack, M.G., and B.T. Marshall, A reexamination of the role of solar heating in the O2 atmospheric and infrared atmospheric bands. Geophys Res Lett: 23, 657, 1996.CrossRefGoogle Scholar
  281. Molina, J.S., and F.S. Rowland, Stratospheric sink for chlorofluoromethanes: Chlorine atom-catalyzed destruction of ozone. Nature: 249, 810, 1974a.CrossRefGoogle Scholar
  282. Molina, J.S., and F.S. Rowland, Predicted present stratospheric abundances of chlorine species from photodissociation of carbon tetrachloride. Geophys Res Lett: 1, 309, 1974b.CrossRefGoogle Scholar
  283. Molina, L.T., and M.J. Molina, Production of Cl2O2 from the self-reaction of ClO radical. J Phys Chem: 91, 433, 1987.CrossRefGoogle Scholar
  284. Montzka, S.A., R.C. Myers, J.H. Butler, J.W. Elkins, and S.O. Cummings, Global tropospheric distribution and calibration scale of HCFC-22, Geophys Res Lett: 20, 703, 1993.CrossRefGoogle Scholar
  285. Montzka, S.A., J.H. Butler, R.C. Myers, T.M. Thompson, T.H. Swanson, A.D. Clarke, L.T. Lock, and J.W. Elkins, Decline in the tropospheric abundance of halogen from halocarbons: Implications for stratospheric ozone depletion. Science: 272, 1318, 1996.CrossRefGoogle Scholar
  286. Mosier, A., C. Kroeze, C. Nevison, O. Oenema, S. Seitzinger, and O. Van Cleemput, Closing the N2O budget: Nitrous oxide emissions through the agricultural nitrogen cycle — OECD/IPCC/IEA phase II development of IPCC guidelines for national gas inventory methodology. Nutrient Cycling in Agroecosystems: 52, 225, 1998.CrossRefGoogle Scholar
  287. Mote, P.W., K.H. Rosenlof, M.E. McIntyre, E.S. Carr, J.C. Gille, J.R. Holton, J.S. Kinnersley, H.C. Pumphrey, J.M. Russell III, and J.W. Waters, An atmospheric taperecorder: The imprint of tropical tropopause temperatures on stratospheric water vapor. J Geophys Res: 101, 3989, 1996.CrossRefGoogle Scholar
  288. Moyers, J.L., and R.A. Duce, Gaseous and particulate iodine in the marine atmosphere. J Geophys Res: 77, 5529, 1972.Google Scholar
  289. Mozurkewich, M., and J.G. Calvert, Reaction probability of N2O5 on aqueous aerosols. J Geophys Res: 93, 15,889, 1988.CrossRefGoogle Scholar
  290. Müller, J.F., and G. Brasseur, Sources of upper tropospheric HOx: A three-dimensional study. J Geophys Res: 104, 1705, 1999.CrossRefGoogle Scholar
  291. Murcray, D.G., D.D. Barker, J.N. Brooks, A. Goldman, and W.J. Williams, Seasonal and latitudinal variations of the stratospheric concentration of HNO 3. Geophys Res Lett: 2, 223, 1975.CrossRefGoogle Scholar
  292. Murcray, D.G., A. Goldman, W.J. Williams, F.H. Murcray, F.S. Bonono, G.M. Bradford, G.R. Cole, P.L. Hanst, and M.J. Molina, Upper limit for stratospheric ClONO2 from balloon-borne infrared measurements. Geophys Res Lett: 4, 227, 1977.CrossRefGoogle Scholar
  293. Naudet, J.P., D. Hugenin, P. Rigaud, and D. Cariolle, Stratospheric observations of NO3 and its experimental and theoretical distribution between 20 and 40 km. Planet Space Sci: 29, 707, 1981.CrossRefGoogle Scholar
  294. Nevison, C.D., S. Solomon, and R.R. Garcia, Model overestimates of NOy in the upper stratosphere. Geophys Res Lett: 24, 803, 1997.CrossRefGoogle Scholar
  295. Newell, R. E., The circulation of the upper atmosphere. Sci Amer: 210, 62, 1964.CrossRefGoogle Scholar
  296. Newell, R.E., Y. Zhu, W.G. Read, and J.W. Waters, Relationship between tropical upper tropospheric moisture and eastern tropical Pacific sea surface temperature at seasonal and interannual time scales. Geophys Res Lett: 24, 25, 1997.CrossRefGoogle Scholar
  297. Nguyen, B.C., B. Bonsang, and A. Gaudry, The role of the ocean in the global atmospheric sulfur cycle. J Geophys Res: 88, 10,903, 1983.CrossRefGoogle Scholar
  298. Nicolet, M., Ozone and hydrogen reactions. Ann Geophys: 26, 531, 1970.Google Scholar
  299. Nicolet, M., Aeronomic reactions of hydrogen and ozone, in Mesospheric Models and Related Experiments. G. Fiocco, ed., D. Reidel Publ., The Netherlands, 1971.Google Scholar
  300. Nicolet, M., Stratospheric ozone: An introduction to its study. Rev Geophys Space Phys: 13, 593, 1975a.CrossRefGoogle Scholar
  301. Nicolet, M., On the production of nitric oxide by cosmic rays in the mesosphere and stratosphere. Planet Space Sci: 23, 637, 1975b.CrossRefGoogle Scholar
  302. Nightingale, R.W., A.E. Roche, J.B. Kumer, J.L. Mergenthaler, J.C. Gille, S.T. Massie, P.L. Bailey, D.P. Edwards, M.R. Gunson, G.C. Toon, B. Sen, J.-F. Blavier, and P.S. Connell, Global CF2Cl measurements by UARS cryogenic limb array etalon spectrometer: Validation by correlative data and a model. J Geophys Res: 101, 9711, 1996.CrossRefGoogle Scholar
  303. Novelli, P.C., K.A. Masarie, and P.M. Lang, Distributions and recent changes of carbon monoxide in the lower troposphere. J Geophys Res: 103, 19,015, 1998.Google Scholar
  304. Novelli, P.C., P.M. Lang, K.A. Masarie, D.F. Hurst, R. Myers, and J.W. Elkins, Molecular hydrogen in the troposphere: Global distribution and budget. J Geophys Res: 104, 30,427, 1999.CrossRefGoogle Scholar
  305. Noxon, J.F., Stratospheric NO 2, 2. Global behavior. J Geophys Res: 84, 5067, 1979.CrossRefGoogle Scholar
  306. Noxon, J.F., R.B. Norton, and W.R. Henderson, Observations of atmospheric NO 3. Geophys Res Lett: 5, 675, 1978.CrossRefGoogle Scholar
  307. Noxon, J.F., E.C. Whipple, Jr., and R.S. Hyde, Stratospheric NO2, 1. Observational method and behavior at midlatitude. J Geophys Res: 84, 5047, 1979.CrossRefGoogle Scholar
  308. Oelhaf, H., T.V. Clarmann, H. Fischer, F. Friedl-Vallon, C. Fritzsche, A. Linden, C. Piesch, M. Seefeldner, and W. Volker, Stratospheric ClONO2 and HNO3 profiles inside the Arctic vortex from MIPAS-B limb emission spectra obtained during EASOE. Geophys Res Lett: 21, 1263, 1994.CrossRefGoogle Scholar
  309. Offermann, D., K.-U. Grossman, P. Varthol, P. Knieling, M. Riese, and R. Tank, Cryogenic Infrared Spectrometers and Telescopes for the Atmosphere (CRISTA) experiment and middle atmosphere variability. J Geophys Res: 104, 16,311, 1999.CrossRefGoogle Scholar
  310. Oltmans, S.J., and D.J. Hofmann, Increase in lower stratospheric water vapor at a midlatitude Northern Hemisphere site from 1981 to 1994. Nature: 374, 146, 1995.CrossRefGoogle Scholar
  311. Oltmans, S.J., H. Volmel, D.J. Hofmann, K. Rosenlof, and D. Kley, The increase in stratospheric water vapor from balloon-borne frost point hygrometer measurements at Washington, DC and Boulder, Colorado. Geophys Res Lett: 27, 3453, 2000.CrossRefGoogle Scholar
  312. Oram, D.E., and S.A. Penkett, Observations in eastern England of elevated methyl iodide concentrations in air of Atlantic origin. Atmos Environ: 28, 1159, 1994.CrossRefGoogle Scholar
  313. Orlando, J.J., G.S. Tyndall, G.K. Moortgat, and J.G. Calvert, Quantum yields for NO3 photolysis between 570 and 635 nm. J Phys Chem: 97, 10,996, 1993.CrossRefGoogle Scholar
  314. Paetzold, H.K., F. Piscalar, and H. Zschorner, Secular variation of the stratospheric ozone layer over middle Europe during the solar cycles from 1951 to 1972. Nature: 240, 106, 1972.CrossRefGoogle Scholar
  315. Paneth, F.A., The chemical composition of the atmosphere. Quart J Roy Meteorol Soc: 63, 433, 1937.Google Scholar
  316. Park, J.H., and B. Carli, Spectroscopic measurements of HO2, H2O2, and OH in the stratosphere. J Geophys Res: 96, 22,535, 1991.Google Scholar
  317. Perliski, L., S. Solomon, and J. London, On the interpretation of seasonal variations in stratospheric ozone. Planet Space Sci: 37, 1527, 1989.CrossRefGoogle Scholar
  318. Peter, T., Microphysics and chemistry of polar stratospheric cloud particles. Ann Rev Phys Chem: 48, 785, 1995.CrossRefGoogle Scholar
  319. Pétron, G., C. Granier, B. Khattatov, J.-F. Lamarque, V. Yudin, J.-F. Müller, and J. Gille, Inverse modeling of carbon monoxide surface emissions using Climate Modeling and Diagnostics Laboratory network observations, J Geophys Res: 107, D24, 4761, doi:10.1029/2001JD001305, 2002.CrossRefGoogle Scholar
  320. Pfeilsticker, K., and U. Platt, Airborne measurements during the Arctic stratospheric experiment: Observations of O3 and NO2. Geophys Res Lett: 21, 1375, 1994.CrossRefGoogle Scholar
  321. Pfeilsticker, K., W.T. Sturges, H. Bösch, C. Camy-Peyret, M.P. Chipperfield, A. Engel, R. Fitzenberger, M. Müuller, S. Payan, and B.-M. Sinnhuber, Lower stratospheric organic and inorganic bromine budget for the Arctic winter 1998/99. Geophys Res Lett: 27, 3305, 2000.CrossRefGoogle Scholar
  322. Pierrehumbert, R.T., Lateral mixing as a source of subtropical water vapor, Geophys Res Lett: 25, 151, 1998.CrossRefGoogle Scholar
  323. Pickett, H.M., and D.B. Peterson, Stratospheric OH measurements with a far-infrared limb observing spectrometer. J Geophys Res: 98, 20,507, 1993.Google Scholar
  324. Pickett, H.M., and D.B. Peterson, Comparison of measured stratospheric OH with prediction. J Geophys Res: 101, 16,789, 1996.CrossRefGoogle Scholar
  325. Pitari, G., and V. Rizzi, An estimate of the chemical and radiative perturbation of stratospheric ozone following the eruption of Mount Pinatubo. J Atmos Sci: 50, 3260, 1993.CrossRefGoogle Scholar
  326. Pommerau, J.P., and J. Piquard, Ozone and nitrogen-dioxide vertical distributions by UV-visible solar occulation from balloons. Geophys Res Lett: 21, 1231, 1994.CrossRefGoogle Scholar
  327. Poole, L.R., and M.P. McCormick, Airborne lidar observations of Arctic polar stratospheric clouds: Indications of two distinct growth stages. Geophys Res Lett: 15, 21, 1988.CrossRefGoogle Scholar
  328. Poulet, G., M. Pirre, F. Maguin, M. Ramarosson, and G. Le Bras, Role of BrO + HO2 reaction in the stratospheric chemistry of bromine. Geophys Res Lett: 19, 2305, 1992.CrossRefGoogle Scholar
  329. Prather, M.J., and D.J. Jacob, A persistent inbalance between HOx photochemistry of the upper troposphere driven by deep tropical convection. Geophys Res Lett: 24, 3189, 1997.CrossRefGoogle Scholar
  330. Prinn, R. G., R.F. Weiss, B.R. Miller, J. Huang, F.N. Alyea, D.M. Cunnold, P.J. Fraser, D.E. Hartler, and P.G. Simmonds, Atmospheric trends and lifetime of CH3CCl3 and global OH concentrations. Science: 269, 187, 1995.CrossRefGoogle Scholar
  331. Pueschel, R.F., K.G. Snetsinger, J.K. Goodmann, O.B. Toon, G.V. Ferry, V.R. Oberbeck, J.M. Livingston, S. Verma, W. Fong, W.L. Starr, and K.R. Chan, Condensed nitrate, sulfate, and chloride in Antarctic stratospheric clouds. J Geophys Res: 94, 11,271, 1989.CrossRefGoogle Scholar
  332. Pundt, I., J.P. Pommereau, C. Phillips, and E. Lateltin, Upper limit of iodine oxide in the lower stratosphere. J Atmos Chem: 30, 173, 1998.CrossRefGoogle Scholar
  333. Quay, P.D., S.L. King, J. Stutsman, D.O. Wilbur, L.P. Steele, I. Fung, R.H. Gammon, T.A. Brown, G.W. Farwell, P.M. Grootes, and F.H. Schmidt, Carbon isotopic composition of atmospheric CH4: Fossil and biomass burning source strengths. Global Biogeochem Cycles: 5, 25, 1991.CrossRefGoogle Scholar
  334. Quay, P., J. Stutsman, D. Wilbur, A. Stover, E. Duglokencky, and T. Brown, The isotopic composition of atmospheric methane. Global Biogeochem Cycles: 13, 445, 1999.CrossRefGoogle Scholar
  335. Ramanathan, K.R., Bi-annual variation of atmospheric ozone over the tropics, Quart J Roy Met Soc: 89, 540, 1963.CrossRefGoogle Scholar
  336. Randel, W.J., F. Wu, S.J. Oltmans, K. Rosenlof, and G.E. Nedoluka, Interannual changes of stratospheric water vapor and correlations with tropical tropospause temperatures. J Atm Sci: 61, 2133, 2004.CrossRefGoogle Scholar
  337. Raper, O.F., C.B. Farmer, R.A. Toth, and B.D. Robbins, The vertical distribution of HCl in the stratosphere. Geophys Res Lett: 4, 531, 1977.CrossRefGoogle Scholar
  338. Ravishankara, A.R., P.H. Wine, C.A. Smith, P.E. Barbone, and A. Torabi, N2O5 photolysis: Quantum yields for NO3 and O(3 P). J Geophys Res: 91, 5355, 1986.CrossRefGoogle Scholar
  339. Reichle, H.G., V.S. Connors, J.A. Holland, R.T. Sherrill, H.A. Wallio, J.C. Casas, E.P. Condon, B.B. Gormsen, W. Seiler, The distribution of middle atmosphere carbon monoxide during early October 1984. J Geophys Res: 95, 9845, 1990.CrossRefGoogle Scholar
  340. Rex, M., R.J. Salawitch, M.L. Santee, J.W. Waters, K. Hoppel, and R. Bevilacqua, On the unexplained stratospheric ozone losses during cold Arctic Januaries. Geophys Res Lett: 30, doi: 10.1029/2002GL016008, 2003.Google Scholar
  341. Ridley, B.A., M. McFarland, J.T. Bruin, H.I. Schiff, and J.C. McConnell, Sunrise measurements of stratospheric nitric oxide. Can J Phys: 55, 212, 1977.Google Scholar
  342. Ridley, B.A., M. McFarland, A.L. Schmeltekopf, M.H. Proffitt, D.L. Albritton, R.H. Winkler, and T.L. Thompson, Seasonal differences in the vertical distributions of NO, NO2, and O3 in the stratosphere near 50°N. J Geophys Res: 92, 11,919, 1987.Google Scholar
  343. Riese, M., R. Spang, P. Preusse, M. Ern, M. Jarisch, D. Offermann, and K.-U. Grossmann, Cryogenic Infrared Spectrometers and Telescope for the Atmosphere (CRISTA) data processing and atmospheric temperature and trace gas retrieval. J Geophys Res: 104, 16,349, 1999.Google Scholar
  344. Rinsland, C.P., R. Zander, E. Mahieu, P. Demoulin, A. Goldman, D. Ehhalt, and J. Rudolph, Ground-based infrared measurements of carbonyl sulfide total column abundances: Long-term trends and variability. J Geophys Res: 97, 5995, 1992.Google Scholar
  345. Rinsland, C.P., M.R. Gunson, R.J. Salawitch, H.A. Michelsen, R. Zander, M.J. Newchurch, M.M. Abbas, M.C. Abrams, G.L. Manney, A.Y. Chang, F.W. Irion, A. Goldman, and E. Mahieu, ATMOS/ATLAS-3 measurements of stratospheric chlorine and reactive nitrogen partitioning inside and outside the November 1994 Antarctic vortex. Geophys Res Lett: 23, 2365, 1996.CrossRefGoogle Scholar
  346. Rinsland, C.P., A. Goldman, F.J. Murcray, T.M. Stephen, M.S. Pougatchev, J. Fischman, S.J. David, R.D. Blatherwick, P.C. Novelli, N.B. Jones, and B.J. Connor, Infrared solar spectroscopic measurements of free tropospheric CO, C2H5 and HCN above Mauna Loa, Hawaii: Seasonal variations and evidence for enhanced emissions from the southeast Asian tropical fires of 1997–1998. J Geophys Res: 104, 18,667, 1999.Google Scholar
  347. Robinson, G.N., D.R. Worsnop, J.T. Jayne, and C.E. Kolb, Heterogeneous uptake of ClONO2 and N2O5 by sulfuric acid solutions. J Geophys Res: 102, 3583, 1997.CrossRefGoogle Scholar
  348. Roche, A.E., J.B. Kumer, J.L. Mergenthaler, G.A. Ely, W.G. Uplinger, J.F. Potter, T.C. James, and L.W. Sterritt, The Cryogenic Limb Array Etalon Spectrometer, CLAES on UARS: Experiment description and performance. J Geophys Res: 98, 10,763, 1993.CrossRefGoogle Scholar
  349. Roche, A.E., J.B. Kumer, J.L. Mergenthaler, R.W. Nightingale, W.G. Uplinger, G.A. Ely, J.F. Potter, D.J. Wuebbles, P.S. Connell, and D.E. Kinnison, Observations of lower stratospheric ClONO2, HNO3, and aerosol by the UARS CLAES experiment between January 1992 and April 1993. J Atmos Sci: 51, 2877, 1994.CrossRefGoogle Scholar
  350. Rosen, J.M., N.T. Kjome, N. Larsen, B.M. Knudsen, E. Kyrö, R. Kivi, J. Karhu, R. Neuber, and I. Benigna, Polar stratospheric cloud threshold temperatures in the 1995–1996 Arctic vortex. J Geophys Res: 102, 28,195, 1997.Google Scholar
  351. Rosenlof, K.H., S.J. Oltmans, D. Kley, J.M. Russell III, E.W. Chiou, W.P. Chu, D.G. Johnson, K.K. Kelly, H.A. Michelsen, G.E. Nedoluha, E.E. Remsberg, G.C. Toon, and M.P. McCormick, Stratospheric water vapor increases over the past half century. Geophys Res Lett: 28, 1195, 2001.CrossRefGoogle Scholar
  352. Rossi, M.J., R. Malhotra, and D.M. Golden, Heterogeneous chemical reaction of chlorine nitrate and water on sulfuric-acid surfaces at room temperatures. Geophys Res Lett: 14, 127, 1987.CrossRefGoogle Scholar
  353. Rowland, F.S., and M.J. Molina, Chlorofluoromethanes in the environment. Rev Geophys Space Phys: 13, 1, 1975.CrossRefGoogle Scholar
  354. Rowland, F.S., J.E. Spencer, and M.J. Molina, Stratospheric formation and photolysis of chlorine nitrate. J Phys Chem: 80, 2711, 1976.CrossRefGoogle Scholar
  355. Rudolph, J., D.H. Ehhalt, and A. Tonissen, Vertical profiles of ethane and propane in the stratosphere. J Geophys Res: 86, 7767, 1981.CrossRefGoogle Scholar
  356. Russell, J.M., III, L.L. Gordley, J.H. Park, S.R. Drayson, D.H. Hesketh, R.J. Cicerone, A.F. Tuck, J.E. Frederick, J.E. Harries, and P.J. Crutzen, The Halogen Occultation Experiment. J Geophys Res: 98, 10,777, 1993.Google Scholar
  357. Russell, P.B., J.M. Livingston, R.F. Pueschel, J.B. Pollack, S. Brooks, P. Hamill, J. Hughes, L. Thomason, L. Stowe, T. Deshler, and E. Dutton, Global to microscale evolution of the Pinatubo volcanic aerosol, derived from diverse measurements and analyses. J Geophys Res: 101, 18,745, 1996.Google Scholar
  358. Salcedo, D., L.T. Molina, and M.J. Molina, Homogeneous freezing of concentrated aqueous nitric acid solutions at polar stratospheric temperatures. J Phys Chem: 105, 1433, 2001.Google Scholar
  359. Sandalls, F.J., and S.A. Penkett, Measurements of carbonyl sulfide and carbon disulfide in the atmosphere. Atmos Environ: 11, 197, 1977.CrossRefGoogle Scholar
  360. Schauffler, S.M., L.E. Heidt, W.H. Pollack, T.M. Gilpin, J.F. Vedder, S. Solomon, R.A. Lueb, and E.L. Atlas, Measurements of halogenated organic compounds near the tropical tropopause. Geophys Res Lett: 20, 2567, 1993.CrossRefGoogle Scholar
  361. Schmeltekopf, A.L., D.L. Albritton, P.J. Crutzen, P.D. Goldan, W.J. Harrop, W.R. Henderson, J.R. McAfee, M. McFarland, H.I. Schiff, T.L. Thompson, D.L. Hofmann, and N.T. Kjome, Stratospheric nitrous oxide altitude profiles at various latitudes. J Atmos Sci: 34, 729, 1977.CrossRefGoogle Scholar
  362. Schmidt, U., Molecular hydrogen in the atmosphere. Tellus: 26, 78, 1974.CrossRefGoogle Scholar
  363. Schmidt, U., G. Kulessa, and E. P. Roth, The Atmospheric H2 cycle, Proc of the NATO Advanced Institute on Atmospheric Ozone, A.C. Aikin, ed., U.S. Dept. of Transportation, FAA-EE-80-20, FAA, Washington, D.C., USA, 1980.Google Scholar
  364. Scholz, T.G., D.H. Ehhalt, L.E. Heidt, and E.A. Martell, Water vapor molecular hydrogen, methane, and tritium concentrations near the stratopause. J Geophys Res: 75, 3049, 1970.CrossRefGoogle Scholar
  365. Seiler, W., and P.J. Crutzen, Estimates of gross and net fluxes of carbon between the biosphere and the atmosphere from biomass burning. Clim Change: 2, 207, 1980.CrossRefGoogle Scholar
  366. Seiler, W., and R. Conrad, Contribution of tropical ecosystems to the global budget of trace gases, especially CH4, H2, CO and N2O, in The Geophysiology of Amazonia, R. Dickinson, ed., John Wiley, pp. 133–160, 1987.Google Scholar
  367. Sen, B., G.C. Toon, G.B. Osterman, J.-F. Blavier, J.J. Margitan, R.J. Salawitch, and G.K. Yue, Measurements of reactive nitrogen in the stratosphere. J Geophys Res: 103, 3571, 1998.CrossRefGoogle Scholar
  368. Shah, G.M., Quasi-biennial oscillation in ozone. J Atmos Sci: 24, 396, 1967.CrossRefGoogle Scholar
  369. Singh, H.B., L.J. Salas, and R.E. Stiles, Methyl halides in and over the Eastern Pacific. J Geophys Res: 88, 3684, 1983.CrossRefGoogle Scholar
  370. Singh, H.B., M. Kanakidou, P.J. Crutzen, and D.J. Jacob, High concentrations and photochemical fate of oxygenated hydrocarbons in the global troposphere. Nature: 378, 50, 1995.CrossRefGoogle Scholar
  371. Siskind, D.E., J.T. Bacmeister, M.E. Summers, and J.M. Russell III, Two-dimensional calculations of nitric oxide transport in the middle atmosphere and comparison with halogen occultation experiment data. J Geophys Res: 102, 3527, 1997.CrossRefGoogle Scholar
  372. Solomon, S., and R.R. Garcia, Simulation of NOx partitioning along isobaric parcel trajectories. J Geophys Res: 88, 5497, 1983.CrossRefGoogle Scholar
  373. Solomon, S., P.J. Crutzen, and R.G. Roble, Photochemical coupling between the thermosphere and the lower atmosphere, I. Odd nitrogen from 50 to 120 km. J Geophys Res: 87, 7206, 1982.CrossRefGoogle Scholar
  374. Solomon, S., R.R. Garcia, F.S. Rowland, and D.J. Wuebbles, On the depletion of Antarctic ozone. Nature: 321, 755, 1986.CrossRefGoogle Scholar
  375. Solomon, S., G.H. Mount, R.W. Sanders, and A.L. Schmeltekopf, Visible spectroscopy at McMurdo Station, Antarctica, 2. Observation of OClO. J Geophys Res: 92, 8329, 1987.CrossRefGoogle Scholar
  376. Solomon, S., H.L. Miller, J.P. Smith, R.W. Sanders, G.H. Mount, A.L. Schmeltekopf, and J.F. Noxon, Atmospheric NO3: 1. Measurement technique and the annual cycle at 40°N. J Geophys Res: 94, 11,041, 1989a.Google Scholar
  377. Solomon, S., R.W. Sanders, M.A. Carroll, and A.L. Schmeltekopf, Visible and near-ultraviolet spectroscopy at McMurdo Station, Antarctica: 5. Observations of the diurnal variations of BrO and OClO. J Geophys Res: 94, 11,393, 1989b.Google Scholar
  378. Solomon, S., R.R. Garcia, and A.R. Ravishankara, On the role of iodine in ozone depletion. J Geophys Res: 99, 20,491, 1994.Google Scholar
  379. Solomon, S.C., C.A. Barth, and S.M. Bailey, Auroral production of nitric oxide measured by the SNOE satellite. Geophys Res Lett: 26, 1259, 1999.CrossRefGoogle Scholar
  380. Spreng, S., and F. Arnold, Balloon-borne mass spectrometer measurements of HNO3 and HCN in the winter Arctic stratosphere-Evidence for HNO3-processing by aerosols. Geophys Res Lett: 21, 1251, 1994.CrossRefGoogle Scholar
  381. Stachnik, R.A., J.C. Hardy, J.A. Tarsala, J.W. Waters, and N.R. Erickson, Submillimeter heterodyne measurements of stratospheric ClO, HCl, and HO2: First results. Geophys Res Lett: 19, 1931, 1992.CrossRefGoogle Scholar
  382. Stanford, J.L., and J.S. Davis, A century of stratospheric cloud reports: 1870–1972. Bull Amer Meteorol Soc: 55, 213, 1974.CrossRefGoogle Scholar
  383. Steele, H.M., P. Hamill, M.P. McCormick, and T.J. Swissler, The formation of polar stratospheric clouds. J Atmos Sci: 40, 2055, 1983.CrossRefGoogle Scholar
  384. Steele, H.M., K. Drdla, R.P. Turco, J.D. Lumpe, R.M. Bevilacqua, Tracking polar stratospheric cloud development with POAM II and a microphysical model. Geophys Res Lett: 26, 287, 1999.CrossRefGoogle Scholar
  385. Stimpfle, R.M., P.O. Wennberg, L.B. Lafson, and J.G. Anderson, Simultaneous in situ measurements of OH and HO2 in the stratosphere. Geophys Res Lett: 17, 1905, 1990.CrossRefGoogle Scholar
  386. Stolarski, R.S., and R.J. Cicerone, Stratospheric chlorine: A possible sink for ozone. Canad J Chem: 52, 1610, 1974.CrossRefGoogle Scholar
  387. Stolarski, R.R., and R.D. Rundel, Fluorine chemistry in the stratosphere. Geophys Res Lett: 2, 443, 1975.CrossRefGoogle Scholar
  388. SPARC (Stratospheric Processes and their Role in Climate), Assessment of Upper Tropospheric and Stratospheric Water Vapor, WMO/TD 1043, SPARC Office, Verrieres le Buisson, France, 2000.Google Scholar
  389. Summers, M.E., D.F. Strobel, R.M. Bevilacqua, X. Zhu, M.T. DeLand, M. Allen, and G.M. Keating, A model study of the response of mesopheric ozone to the short-term solar ultraviolet flux variations. J Geophys Res: 95, 22,523, 1990.Google Scholar
  390. Summers, M.E., R.R. Conway, D.E. Siskind, M.H. Stevens, D. Offermann, M. Riese, P. Preusse, D.F. Strobel, and J.M. Russell III, Implications of satellite OH observations for middle atmospheric H2O and ozone. Science: 227, 1967, 1997.CrossRefGoogle Scholar
  391. Summers, M.E., R.R. Conway, C.R. Englert, D.E. Siskind, M.H. Stevens, J.M. Russell III, L.L. Gordley, and M.J. McHugh, Discovery of a water vapor layer in the Arctic summer mesosphere: Implications for polar mesospheric clouds. Geophys Res Lett: 28, 3601, 2001.CrossRefGoogle Scholar
  392. Swanson, T.H., J.W. Eltkins, J.H. Butler, S.A. Montzka, R.C. Myers, T.M. Thompson, T.J. Baring, S.O. Cummins, G.S. Dutton, A.H. Hayden, J.M. Lobert, G.A. Holcomb, W.T. Sturges, and T.M. Gilpin, 5. Nitrous oxide and halocarbons division, in Climate Monitoring and Diagnostics Laboratory Summary Report No. 21, 1992. J.T. Petersen and R.M. Rosson (eds.), 59–75, NOAA Environ. Res. Labs., Boulder, Colo, USA, 1993.Google Scholar
  393. Sze, N.D., Stratospheric fluorine: A comparison between theory and measurements. Geophys Res Lett: 5, 781, 1978.CrossRefGoogle Scholar
  394. Sze, N.D., and M.K.W. Ko, Photochemistry of COS, CS2, CH3 SCH3 and H2S: Implications for the atmospheric sulfur cycle. Atmos Environ: 14, 1223, 1980.CrossRefGoogle Scholar
  395. Tabazadeh, A., and R.P. Turco, Stratospheric chlorine injection by volcanic eruptions: HCl scavenging and implications for ozone. Science: 260, 1082, 1993.CrossRefGoogle Scholar
  396. Tabazadeh, A., and O.B. Toon, Freezing behavior of stratospheric sulfate aerosols inferred from trajectory studies. Geophys Res Lett: 22, 1725, 1995.CrossRefGoogle Scholar
  397. Tabazadeh, A., and O.B. Toon, The presence of metastable HNO3/H2O solid phases in the stratosphere inferred from ER-2 data. J Geophys Res: 101, 9071, 1996.CrossRefGoogle Scholar
  398. Tabazadeh, A., R.P. Turco, and M.Z. Jacobson, A model for studying the composition and chemical effects of stratospheric aerosols. J Geophys Res: 99, 12,897, 1994.CrossRefGoogle Scholar
  399. Tabazadeh, A., O.B. Toon, and P. Hamill, Freezing behavior of stratospheric sulfate aerosols inferred from trajectory studies. Geophys Res Lett: 22, 1725, 1995.CrossRefGoogle Scholar
  400. Tabazadeh, A., O.B. Toon, B.L. Gary, J.T. Bacmeister, and M.R. Schoeberl, Observational constraints on the formation of type Ia polar stratospheric clouds. Geophys Res Lett: 23, 2109, 1996.CrossRefGoogle Scholar
  401. Thomas, R.J., C.A. Barth, G.J. Rottman, D.W. Rusch, G.H. Mount, G.M. Lawrence, R.W. Sanders, G.E. Thomas, and L.E. Clemens, Ozone density in the mesosphere (50–90 km) measured by the SME near infrared spectrometer. Geophys Res Lett: 10, 245, 1983.CrossRefGoogle Scholar
  402. Thomason, L.W., L.R. Poole, and T. Deshler, A global climatology of stratospheric aerosol surface area density deduced from Stratospheric Aerosol and Gas Experiment II measurements: 1984–1994. J Geophys Res: 102, 8967, 1997.CrossRefGoogle Scholar
  403. Thornton, D.C., A.R. Bandy, and A.R. Driedger III, Sulfur dioxide over the western Atlantic Ocean. Glob Biogeochem Cycles: 1, 317, 1987.CrossRefGoogle Scholar
  404. Tie, X., G.P. Brasseur, B. Briegleb, and C. Granier, Two-dimensional simulation of Pinatubo aerosol and its effect on stratospheric ozone. J Geophys Res: 99, 20,545, 1994.Google Scholar
  405. Tisone, G.C., Measurements of NO densities during sunrise at Kauai. J Geophys Res: 78, 746, 1973.CrossRefGoogle Scholar
  406. Tohmatsu, T., and N. Iwagami, Measurement of nitric oxide distribution in the upper atmosphere. Space Res: 15, 241, 1975.Google Scholar
  407. Tohmatsu, T., and N. Iwagami, Measurement of nitric oxide abundance in equatorial upper atmosphere. J Geomagn Geoelec: 28, 343, 1976.Google Scholar
  408. Tolbert, M.A., and O.B. Toon, Solving the PSC mystery. Science: 292, 61, 2001.CrossRefGoogle Scholar
  409. Tolbert, M.A., M.J. Rossi, and D.M. Golden, Heterogeneous interactions of chlorine nitrate, hydrogen chloride and nitric acid with sulfuric acid surfaces at stratospheric temperatures. Geophys Res Lett: 15, 847, 1988.CrossRefGoogle Scholar
  410. Tolbert, M.A., B.G. Koehler, and A.M. Middlebrook, Spectroscopic studies of model polar stratospheric cloud films. Spectrochimica Acta: 48A, 1303, 1992.Google Scholar
  411. Toohey, D.W., J.G. Anderson, W.H. Brune, and K.R. Chan, In situ measurements of BrO in the arctic stratosphere. Geopohys Res Lett: 17, 513, 1990.CrossRefGoogle Scholar
  412. Toon, G.C., C.B. Farmer, P.W. Schafer, L.L. Lowes, and R.H. Norton, Composition measurements of the 1989 Arctic stratosphere by airborne infrared solar absorption spectroscopy. J Geophys Res: 97, 7939, 1992a.Google Scholar
  413. Toon, G.C., C.B. Farmer, P.W. Schafer, L.L. Lowes, R.H. Norton, M.R. Schoeberl, L.R. Lait, and P.A. Newman, Evidence for subsidience in the 1989 Arctic winter stratosphere from airborne infrared composition measurements. J Geophys Res: 97, 7963, 1992b.Google Scholar
  414. Toon, O.B., P. Hamill, R.F. Turco, and J. Pinto, Condensation of HNO3 and HCl in the polar stratospheres. Geophys Res Lett: 13, 1284, 1986.CrossRefGoogle Scholar
  415. Toon, O.B., E.V. Browell, S. Kinne, and J. Jordan, An analysis of Lidar observations of polar stratospheric clouds. Geophys Res Lett: 17, 393, 1990.CrossRefGoogle Scholar
  416. Toon, O.B., A. Tabazadeh, E.V. Browell, and J. Jordan, Analysis of lidar observations of arctic polar stratospheric clouds. J Geophys Res: 105, 20,598, 2000.CrossRefGoogle Scholar
  417. Toumi, R., R.L. Jones, and J.A. Pyle, Stratospheric ozone depletion by ClONO2 photolysis. Nature: 365, 37, 1993.CrossRefGoogle Scholar
  418. Tsias, A., A.J. Prenni, K.S. Carslaw, T.P. Onasch, B.P. Luo, M.A. Tolbert, and T. Peter, Freezing of polar stratospheric clouds in orographically induced strong warming events. Geophys Res Lett: 24, 2303, 1997.CrossRefGoogle Scholar
  419. Tung, K.K., On the two-dimensional transport of stratospheric trace gases in isentropic coordinates. J Atmos Sci: 39, 2330, 1982.CrossRefGoogle Scholar
  420. Tung, K.K., M.K.W. Ko, J.M. Rodriguez, and N.D. Sze, Are Antarctic ozone variations a manifestation of dynamics or chemistry? Nature: 333, 811, 1986.CrossRefGoogle Scholar
  421. Turco, R.P., P. Hamill, O.B. Toon, R.C. Whitten, and C.S. Kiang, A one-dimensional model describing aerosol formation and evolution in the stratosphere, I. Physical processes and mathematical analogs, J Atmos Sci: 36, 399, 1979.CrossRefGoogle Scholar
  422. Turco, R.P., R.C. Whitten, O.B. Toon, J.B. Pollack, and P. Hamill, OCS, stratospheric aerosols and climate. Nature: 283, 283, 1980.CrossRefGoogle Scholar
  423. Turco, R.P., R.C. Whitten, and O.B. Toon, Stratospheric aerosols: Observations and theory. Rev Geophys Space Sci: 20, 233, 1982.CrossRefGoogle Scholar
  424. Voigt, C., J. Schreiner, A. Kohlmann, P. Zink, K. Mauersberger, N. Larsen, T. Deshler, C. Kröger, J. Rosen, A. Adriani, F. Cairo, G. Di Donfrancesco, M. Viterbini, J. Ovarlez, H. Overlez, C. David, and A. Dörnbrack, Nitric acid trihydrate (NAT) in polar stratospheric cloud particles. Science: 290, 1756, 2000.CrossRefGoogle Scholar
  425. Vömel H. et al., Balloon-borne observations of water vapor and ozone in the tropical upper troposphere and lower stratosphere. J Geophys Res: 107, 4210, doi: 10.1029/2001JD000707, 2002.CrossRefGoogle Scholar
  426. von Cossart, G., J. Fielder, and V. von Zahn, Size distributions of NLC particles as determined from 3-color observations of NLC by ground-based lidar. Geophys Res Lett: 26, 1513, 1999.CrossRefGoogle Scholar
  427. Wallace, L., and W. Livingston, The effect of the Pinatubo cloud on hydrogen chloride and hydrogen fluoride. Geophys Res Lett: 19, 1209, 1992.CrossRefGoogle Scholar
  428. Wamsley, P.R., J.W. Elkins, D.W. Fahey, G.S. Dutton, C.M. Volk, R.C. Myers, S.A. Montzka, J.H. Butler, A.D. Clarke, P.J. Fraser, L.P. Steele, M.P. Lucarelli, E.L. Atlas, S.M. Schauffler, D.R. Blake, F.S. Rowland, W.T. Sturges, J.M. Lee, S.A. Penkett, A. Engel, R.M. Stimpfle, K.R. Chan, D.K. Weisenstein, M.K.W. Ko, and R.J. Salawitch, Distribution of halon-1211 in the upper troposphere and lower stratosphere and the 1994 total bromine budget. J Geophys Res: 103, 1513, 1998.CrossRefGoogle Scholar
  429. Wahner, A., and C. Schiller, Twilight variation of veritcal column abundances of OClO and BrO in the North Polar region. J Geophys Res: 97, 8047, 1992.Google Scholar
  430. Waters, J.W., J.J. Gustincic, and P.N. Swanson, Atmospheric Water Vapor. A. Deepak, ed., Academic Press, 1980.Google Scholar
  431. Waters, J.W., J.C. Hardy, R.F. Jarnot, and H.M. Pickett, Chlorine monoxide radical, ozone and hydrogen peroxide: Stratospheric measurements by microwave limb sounding. Science: 214, 61, 1981.CrossRefGoogle Scholar
  432. Waters, J.W., L. Froidevaux, W.G. Read, G.L. Manney, L.S. Elson, D.A. Flower, R.F. Janot, and R.S. Harwood, Stratospheric ClO and ozone from the Microwave Limb Sounder on the Upper Atmosphere Research Satellite. Nature: 362, 597, 1993.CrossRefGoogle Scholar
  433. Weaver, A., S. Solomon, R.W. Sanders, K. Arpag, and H.L. Miller, Jr., Atmospheric NO3, 5. Off-axis measurements at sunrise: Estimates of tropospheric NO3 at 40°N. J Geophys Res: 101, 18,605, 1996.Google Scholar
  434. Weiss, R.F., Changing global concentration of atmospheric nitrous oxide, Proc. Int. Sym. on Global Cycles of Atmospheric Greenhouse Gases, Sendai, Japan, 78, 1994.Google Scholar
  435. Weiss, P.S., J.E. Johnson, R.H. Gammon, and T.S. Bates, Re-evaluation of the open ocean source of carbonyl sulfide to the atmosphere. J Geophys Res: 100, 23,083, 1995.Google Scholar
  436. Wennberg, P.O., R.M. Stimple, E.M. Weinstock, A.E. Dessler, S.A. Lloyd, L.B. Lapson, J.J. Schwab, and J.G. Anderson. Simultaneous in situ measurements of OH, HO2, O3, and H2O: A test of modeled stratospheric HOx chemistry. Geophys Res Lett: 17, 1909, 1990.CrossRefGoogle Scholar
  437. Wennberg, P.O., R.C. Cohen, R.M. Stimpfle, J.P. Koplow, J.G. Anderson, R.J. Salawitch, D.W. Fahey, E.L. Woodbridge, E.R. Keim, R.S. Gao, C.R. Webster, R.D. May, D.W. Toohey, L.M. Avallone, M.H. Proffitt, M. Loewenstein, J.R. Podolske, K.R. Chan, and S.C. Wofsy, Removal of stratospheric O3 by radicals: In situ measurements of OH, HO2, NO, NO2, ClO, and BrO. Science: 266, 398, 1994.dCrossRefGoogle Scholar
  438. Wennberg, P.O., J.W. Brault, T.F. Hanisco, R.J. Salawitch, and G.H. Mount, The atmospheric column abundance of IO: Implications for stratospheric ozone. J Geophys Res: 102, 8887, 1997.CrossRefGoogle Scholar
  439. Whitten, R.C., O.B. Toon, and R.P. Turco, The stratospheric sulfate aerosol layer: Processes, models observations and simulations. Pageoph: 118, 86, 1980.CrossRefGoogle Scholar
  440. Willett, H.C., The relationship of total atmospheric ozone to the sunspot cycle. J Geophys Res: 67, 661, 1962.CrossRefGoogle Scholar
  441. Willett, H.C., and J. Prohaska, Further evidence of sunspot-ozone relationships. J Atmos Sci: 22, 493, 1965.CrossRefGoogle Scholar
  442. Williams, L.R., J.A. Manion, D.M. Golden, and M.A. Tolbert, Laboratory measurements of heterogeneous reactions on sulfuric acid surfaces. J Appl Meteorol: 33, 785, 1994.CrossRefGoogle Scholar
  443. Williams, W.J., J.J. Kostus, A. Goldman, and D.G. Murcray, Measurements of the stratospheric mixing ratio of HCl using an infrared absorption technique. Geophys Res Lett: 3, 383, 1976.CrossRefGoogle Scholar
  444. Wine, P.H., J.R. Wells, and A.R. Ravishankara, Channel specific rate constants for reaction of O (1D) with HCl and HBr. J Chem Phys: 84, 1349, 1986.CrossRefGoogle Scholar
  445. Witt, G., J.E. Dye, and N. Wilhelm, Rocket-borne measurements of scattered sunlight in the mesosphere. J Atmos Terr Phys: 38, 223, 1976.CrossRefGoogle Scholar
  446. Wittrock, F., R. Mueller, A. Richter, H. Bovensmann, and J.P. Burrows, Measurements of iodine monoxide (IO) above Spitsbergen. Geophys Res Lett: 27, 1471, 2000.CrossRefGoogle Scholar
  447. Wofsy, S.C, M.B. McElroy, and Y.L. Yung, The chemistry of atmospheric bromine. Geophys Res Lett: 2, 215, 1975.CrossRefGoogle Scholar
  448. World Meteorological Organization (WMO), Atmospheric Ozone, Report No. 16, Geneva, 1985.Google Scholar
  449. World Meteorological Organization/United Nations Environment Programme (WMO/UNEP), Scientific assessment of ozone depletion: 1991, Report No. 25, Geneva, 1991.Google Scholar
  450. World Meteorological Organization/United Nations Environment Programme (WMO/UNEP), Scientific assessment of ozone depletion: 1994, Report No. 37, Geneva, 1995.Google Scholar
  451. World Meteorological Organization/United Nations Environment Programme (WMO/UNEP), Scientific Assessment of Ozone Depletion: 1998, Report No. 44, Geneva, 1999.Google Scholar
  452. Worsnop, D.R., L.E. Fox, M.S. Zahniser, and S.C. Wofsy, Vapor-pressures of solid hydrates of nitric-acid. Implications for polar stratospheric clouds. Science: 259, 71, 1993.CrossRefGoogle Scholar
  453. Yang, H., and K.K. Tung, On the phase propagation of extratropical ozone quasibiennial oscillation in observational data. J Geophys Res: 100, 9091, 1995.CrossRefGoogle Scholar
  454. Yung, Y.L., J.P. Pinto, R.T. Watson, and S.P. Sander, Atmospheric bromine and ozone perturbations in the lower stratosphere. J Atmos Sci: 37, 339, 1980.CrossRefGoogle Scholar
  455. Zander, R., Recent observations of HF and HCl in the upper stratosphere. Geophys Res Lett: 8, 413, 1981.CrossRefGoogle Scholar
  456. Zander, R., H. Leclercq, and L.D. Kaplan, Concentrations of carbon monoxide in the upper troposphere. Geophys Res Lett: 8, 365, 1981.CrossRefGoogle Scholar
  457. Zander, R., M.R. Gunson, and C.B. Farmer, Remote sensing of the earth’s atmosphere by infrared absorption spectroscopy — An update of the ATMOS program, in: Advanced Optical Instrumentation for Remote Sensing of the Earth’s Surface from Space, Proc. SPIE: 1129, 10, 1989.Google Scholar
  458. Zander, R., D.H. Ehhalt, C.P. Rinsland, U. Schmidt, E. Mahieu, J. Rudolph, P. Demoulin, G. Roland, L. Delbouille, and A.J. Sauval, Secular trend and seasonal variability of the column abundance of N2O above the Jungfraujoch station determined from IR solar spectra. J. Geophys Res: 99, 16,745, 1994.Google Scholar
  459. Zander, R. E. Mahieu, M.R. Gunson, M.C. Abrams, A.Y. Chang, M. Abbas, C. Aellig, A. Engel, A. Goldman, F.W. Irion, N. Kämpfer, H.A. Michelsen, M.H. Newchurt, C.P. Rinsland, R.J. Salawitch, G.P. Stiller, and G.C. Toon, The 1994 northern midlatitude budget of stratospheric chlorine derived from ATMOS/ATLAS-3 observations. Geophys Res Lett: 23, 2357, 1996.CrossRefGoogle Scholar
  460. Zellner, R., Chemistry of the stratosphere, in Global Aspects of Atmospheric Chemistry. R. Zellner, ed., Springer Verlag, 1999.Google Scholar
  461. Zhao, Y., Y. Kondo, F.J. Murcray, X. Liu, M. Koike, H. Irie, K. Strong, K. Suzuki, M. Sera, and Y. Ikegami, Seasonal variations of HCN over northern Japan measured by ground-based infrared spectroscopy. Geophys Res Lett: 27, 2085, 1999.CrossRefGoogle Scholar
  462. Zhu, Y., R.E. Newell, and W.G. Read, Factors controlling upper-troposphere water vapor. J Clim: 13, 836, 2000.CrossRefGoogle Scholar

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