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• W2053187421 startingPage "5757" @default.
• W2053187421 abstract "A two‐dimensional zonally averaged time dependent model is developed to describe the transport and chemical transformations of species in the troposphere and the stratosphere. The constituents are advected by the residual Eulerian circulation, which is shown to equal the diabatic circulation under certain circumstances. Prescribed values of temperatures and diabatic heating rates are used to calculate the diabatic velocities. Slow diffusion, with K yy = 3 × 10 9 cm 2 s −1 and K zz = 10 3 cm 2 s −1 , is included in the tracer transport calculations in the stratosphere, to simulate mixing due to wave transience. High diffusion coefficients are used in the troposphere. We show that the observed distribution of ozone is adequately reproduced in the model. In early spring, when the ozone columns attain the maximum values at middle and high latitudes, deviations from observations are 5–10% for all latitudes in the northern hemisphere. Stratospheric water vapor, which is extremely sensitive to the latitude of transport across the tropopause, is also well reproduced. Studies of the global atmospheric lifetimes for CF 2 Cl 2 , CFCl 3 , and CCl 4 confirm that the strength of the global circulation is realistic in the model. Model experiments are performed with the recently measured low values of oxygen cross sections in the Herzberg continuum as well as with previous high values. In most cases, including ozone calculations, the low values improve the model results." @default.
• W2053187421 created "2016-06-24" @default.
• W2053187421 creator A5060987493 @default.
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• W2053187421 creator A5074097691 @default.
• W2053187421 date "1985-06-20" @default.
• W2053187421 modified "2023-10-15" @default.
• W2053187421 title "A diabatic circulation two‐dimensional model with photochemistry: Simulations of ozone and long‐lived tracers with surface sources" @default.
• W2053187421 cites W1506027393 @default.
• W2053187421 cites W1567600038 @default.
• W2053187421 cites W1655849092 @default.
• W2053187421 cites W1963903423 @default.
• W2053187421 cites W1966522000 @default.
• W2053187421 cites W1966640811 @default.
• W2053187421 cites W1969093039 @default.
• W2053187421 cites W1972912264 @default.
• W2053187421 cites W1977186784 @default.
• W2053187421 cites W1981865332 @default.
• W2053187421 cites W1984564165 @default.
• W2053187421 cites W1985338362 @default.
• W2053187421 cites W1985462987 @default.
• W2053187421 cites W1989591636 @default.
• W2053187421 cites W1992700092 @default.
• W2053187421 cites W1997340589 @default.
• W2053187421 cites W2001141091 @default.
• W2053187421 cites W2003244904 @default.
• W2053187421 cites W2003920586 @default.
• W2053187421 cites W2005870127 @default.
• W2053187421 cites W2008654821 @default.
• W2053187421 cites W2008729862 @default.
• W2053187421 cites W2009772644 @default.
• W2053187421 cites W2013458180 @default.
• W2053187421 cites W2014549905 @default.
• W2053187421 cites W2017741671 @default.
• W2053187421 cites W2018225088 @default.
• W2053187421 cites W2024976312 @default.
• W2053187421 cites W2026320864 @default.
• W2053187421 cites W2026510649 @default.
• W2053187421 cites W2029017698 @default.
• W2053187421 cites W2030604795 @default.
• W2053187421 cites W2031545292 @default.
• W2053187421 cites W2037222065 @default.
• W2053187421 cites W2038514593 @default.
• W2053187421 cites W2038578636 @default.
• W2053187421 cites W2042345011 @default.
• W2053187421 cites W2051978126 @default.
• W2053187421 cites W2054650627 @default.
• W2053187421 cites W2055653211 @default.
• W2053187421 cites W2056856972 @default.
• W2053187421 cites W2059565948 @default.
• W2053187421 cites W2061350806 @default.
• W2053187421 cites W2066285452 @default.
• W2053187421 cites W2067891842 @default.
• W2053187421 cites W2072437440 @default.
• W2053187421 cites W2072648020 @default.
• W2053187421 cites W2073922982 @default.
• W2053187421 cites W2073930856 @default.
• W2053187421 cites W2077550432 @default.
• W2053187421 cites W2081132944 @default.
• W2053187421 cites W2084765781 @default.
• W2053187421 cites W2086164719 @default.
• W2053187421 cites W2088894191 @default.
• W2053187421 cites W2089962716 @default.
• W2053187421 cites W2090092743 @default.
• W2053187421 cites W2092348286 @default.
• W2053187421 cites W2094943867 @default.
• W2053187421 cites W2106284740 @default.
• W2053187421 cites W2108862546 @default.
• W2053187421 cites W2112761115 @default.
• W2053187421 cites W2116654142 @default.
• W2053187421 cites W2121162054 @default.
• W2053187421 cites W2129593617 @default.
• W2053187421 cites W2134392877 @default.
• W2053187421 cites W2139143234 @default.
• W2053187421 cites W2148692156 @default.
• W2053187421 cites W2150171994 @default.
• W2053187421 cites W2154578483 @default.
• W2053187421 cites W2155014340 @default.
• W2053187421 cites W2161504164 @default.
• W2053187421 cites W2161577640 @default.
• W2053187421 cites W2161859327 @default.
• W2053187421 cites W2166537477 @default.
• W2053187421 cites W2174469878 @default.
• W2053187421 cites W2176666946 @default.
• W2053187421 cites W2176730319 @default.
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• W2053187421 doi "https://doi.org/10.1029/jd090id03p05757" @default.
• W2053187421 hasPublicationYear "1985" @default.
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