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1

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Episodic total ozone minima and associated effects on heterogeneous chemistry and lower stratospheric transport (1992)

Douglass, Anne R. ; Rood, Richard B. ; Allen, Dale J. ; [et al.]

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Publication Date: 2011-08-24

Description: Three-dimensional model simulations are used to describe the January 31, 1989 ozone minihole over Stavanger, Norway. This minihole is typical of many transient events in the lower stratosphere that arise because of cyclonic-scale disturbances in the troposphere. Although the ozone reduction is a short-lived reversible dynamical event, through heterogeneous chemical processes there can be a significant transfer of chlorine from reservoir molecules to active radicals. This chemically perturbed air is defined as processed air, and it is found that a single event can produce enough processed air to reduce the HCl in the entire polar vortex. Chemical processing on clouds associated with transient events is shown to be a major source of processed air in the polar vortex in December before background temperatures are cold enough for more uniform heterogeneous conversion.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 97; D8, M

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2

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Application of a monotonic upstream-biased transport scheme to three-dimensional constituent transport calculations (1991)

Douglass, Anne R. ; Rood, Richard B. ; Allen, Dale J. ; [et al.]

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Publication Date: 2011-08-24

Description: The application of van Leer's scheme, a monotonic, upstream-biased differencing scheme, to three-dimensional constituent transport calculations is shown. The major disadvantage of the scheme is shown to be a self-limiting diffusion. A major advantage of the scheme is shown to be its ability to maintain constituent correlations. The scheme is adapted for a spherical coordinate system with a hybrid sigma-pressure coordinate in the vertical. Special consideration is given to cross-polar flow. The vertical wind calculation is shown to be extremely sensitive to the method of calculating the divergence. This sensitivity implies that a vertical wind formulation consistent with the transport scheme is essential for accurate transport calculations. The computational savings of the time-splitting method used to solve this equation are shown. Finally, the capabilities of this scheme are illustrated by an ozone transport and chemistry model simulation.

Keywords: GEOPHYSICS

Type: Monthly Weather Review (ISSN 0027-0644); 119; 2456-246

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3

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Three-dimensional simulations of wintertime ozone variability in the lower stratosphere (1991)

Chi, Yuechen ; Rood, Richard B. ; Kaye, Jack A. ; [et al.]

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Publication Date: 2011-08-19

Description: The evolution of ozone has been calculated for the winters of 1979 and 1989 using winds derived from the stratospheric data assimilation system STRATAN. The ozone fields calculated using this technique are found to compare well with satellite-measured fields for simulations of 2-3 months. This paper presents comparisons of model fields with both satellite and sonde measurements to verify that stratospheric transport processes are properly represented by this modeling technique. Attention is focused on the Northern Hemisphere middle and high latitudes at the 10-hPa level and below, where transport processes are most important to the ozone distribution. First-order quantities and derived budgets from both the model and satellite data are presented. By sampling the model with a limb-viewing satellite and then Kalman filtering the 'observations' of the model, it is shown that transient subplanetary-scale features that are essential to the ozone budget are missed by the satellite system.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 96; 5055-507

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4

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Effect of solar proton events on the middle atmosphere during the past two solar cycles as computed using a two-dimensional model (1990)

Meade, Paul E. ; Mcpeters, Richard D. ; Rood, Richard B. ; [et al.]

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Publication Date: 2011-08-19

Description: This paper investigates the effects of solar proton events (SPEs) on the middle atmosphere during the past two solar cycles (1963-1984), by examining changes in the production of odd nitrogen, NO(y), and ozone and using a proton energy degradation scheme to derive ion pair production rates. These calculations show that NO(y) is not substantially changed over a solar cycle by SPEs; significant SPEs last only 1-5 days, tend to occur near solar maximum, and are typically months to years apart, preventing a build up of SPE-produced NO(y). Fractional ozone changes are even smaller than the fractional NO(y) changes and are significant only for the August 1972 SPE. Ozone, like NO(y), returns to its ambient levels on time scales of several months to a year.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 95; 7417-742

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5

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Spatial and temporal variability of the extent of chemically processed stratospheric air (1991)

Douglass, Anne R. ; Rood, Richard B. ; Stolarksi, Richard S. ; [et al.]

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Publication Date: 2011-08-19

Description: Simulations of the spatial and temporal variability of the extent of chemically processed air in the Arctic stratosphere have been carried out using a three-dimensional chemistry-transport model for the winters of 1979 and 1989. Chemically processed air is identified in the model as that in which the amounts of hydrogen chloride (HCl) calculated with parameterized loss for conditions appropriate to polar stratospheric cloud (PSC) formation are substantially smaller than those calculated in a model with gas phase chemistry only. It is seen that chemically processed air may be identified over much of the Arctic lower stratosphere from early January to late February, with HCl depletions being larger in 1989 than in 1979. Near the latitude of the Arctic circle, there is important spatial and temporal variability in the extent of chemically processed air. There is some evidence for transport to midlatitudes of processed air during these winters, but the HCl reductions are much smaller and more sporadic than those near the pole. At 62 and 42N, processed air is calculated to occur preferentially over the longitude regions from 60-120E and 270-330E.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 18; 29-32

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6

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The influence of polar heterogeneous processes on reactive chlorine at middle latitudes - Three dimensional model implications (1991)

Rood, Richard B. ; Allen, Dale J. ; Kaye, Jack A. ; [et al.]

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Publication Date: 2011-08-19

Description: Three-dimensional model calculations with the NASA/GSFC chemistry and transport model have been designed to consider the impact of heterogeneous processes occurring on polar stratospheric clouds (PSCs) in the Arctic vortex on the HCl distribution. By examining the HCl concentration for a calculation with PSCs relative to a calculation with gas phase chemistry only, the impact of polar processing on reactive chlorine species at middle latitudes is inferred. Results from the chemistry and transport model reproduce basic features of the ClO measurements (Toohey et al., 1991), which were made on the ferry flights of the ER-2 from Stavanger, Norway to Moffett Field, California via Wallops Island, Virginia on February 20 and 21, 1989. The model indicates that perturbed air which is contained within the polar vortex during winter is not homogeneously mixed, and that the ferry flights were made through air with the largest conversion of HCl to reactive chlorine that is seen at middle latitudes.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 18; 25-28

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7

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Wintertime nitric acid chemistry - Implications from three-dimensional model calculations (1990)

Kaye, Jack A. ; Allen, Dale J. ; Douglass, Anne R. ; [et al.]

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Publication Date: 2011-08-19

Description: A three-dimensional simulation of the evolution of HNO3 has been run for the winter of 1979. Winds and temperatures are taken from a stratospheric data assimilation analysis, and the chemistry is based on Limb Infrared Monitor of the Stratosphere (LIMS) observations. The model is compared to LIMS observations to investigate the problem of 'missing' nitric acid chemistry in the winter hemisphere. Both the model and observations support the contention that a nitric acid source is needed outside of the polar vortex and north of the subtropics. Observations suggest that HNO3 is not dynamically controlled in middle latitudes. The model shows that given the time scales of conventional chemistry, dynamical control is expected. Therefore, an error exists in the conventional chemistry or additional processes are needed to bring the model and data into agreement. Since the polar vortex is dynamically isolated from the middle latitudes, and since the highest HNO3 values are observed in October and November, a source associated solely with polar stratospheric clouds cannot explain the deficiencies in the chemistry. The role of heterogeneous processes on background aerosols is reviewed in light of these results.

Keywords: GEOPHYSICS

Type: Journal of the Atmospheric Sciences (ISSN 0022-4928); 47; 2696-270

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8

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Derivation of photochemical information near 1 mbar from ozone and temperature data (1986)

Rood, Richard B. ; Douglass, Anne R.

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Publication Date: 2011-08-19

Description: An analysis procedure has been developed for derivation of information about the photochemical behavior of ozone near 1 mbar by explicitly accounting for the dynamical transport terms in the continuity equation for perturbations from the zonal mean. The procedure is shown to be valid using data from a numerical transport model and is then applied to LIMS ozone and temperature data, using geostrophic winds to estimate the transport terms. The data study is restricted to March at 2, 1, and 0.7 mbar. Because the temperature deviations are dynamically produced, large temperature deviations are associated with significant ozone transport terms. The anticorrelation between the deviations of ozone and temperature disappears when the transport terms are small. The derived photochemical information is compared to photochemical theory. Although there is overall agreement in the magnitude as well as the latitude, altitude, and time dependencies, discrepancies are suggested which may be related to the long-standing failure of photochemical models to calculate ozone accurately near 1 mbar. The theory suggests that the addition of Cl(x) to the stratosphere will affect the relationship of ozone and temperature at 2 and 1 mbar. Comparison of the photochemical information derived from future ozone and temperature measurements with the results of the present analysis should provide a critical test of the photochemical scheme thought to describe the behavior of odd chlorine in the stratosphere.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 91; 13153-13

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9

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Nitric acid forecast experiments (1987)

Rood, Richard B. ; Nielsen, J. Eric ; Kaye, Jack A. ; [et al.]

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Publication Date: 2011-08-19

Description: Results of two three-dimensional forecasts of the time evolution of the distribution of HNO3 in the stratosphere are reported. The first is for the February 1979 stratospheric warming, and the second is for a period in March, 1979 when the relative importance of photochemistry and dynamics is thought to be rapidly changing. The zonal mean results of the model calculations are in general qualitative agreement with the LIMS HNO3 observations. However, the calculated three-dimensional fields show significant differences from the observations. The results provide insight into what must be done to form a successful constituent forecast model and provide information on the modeling technique and the self-consistency of the observed dynamical and constituent fields.

Keywords: GEOPHYSICS

Type: Physica Scripta (ISSN 0031-8949); 36; 2, Au

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10

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Chemistry and transport in a three-dimensional stratospheric model - Chlorine species during a simulated stratospheric warming (1989)

Kaye, Jack A. ; Rood, Richard B.

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Publication Date: 2011-08-19

Description: The distributions in the stratosphere of a variety of chemical species were calculated for a 6-day period during the February 1979 stratospheric major warming, using winds derived from a spectral forecast model which included O(x), NO(x), HO(x), and ClO(x) chemistries as well as longitudinally varying reaction rate coefficients and photolysis rates for these molecules. The results obtained indicate a particular importance of chemistry and transport for the Cl-containing species ClO, ClONO2, HCl, and HOCl. Dynamical effects dominate the variability of HCl, while diurnal effects dominate that of ClONO2 and ClO. The effects of strong planetary wave activity may be seen in terms of large longitudinal variability of the total HCl and ClONO columns in the stratosphere; in the middle and high northern latitudes, it is sufficiently large to exceed the diurnal variability of the column.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 94; 1057-108

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