Atmospheric chemistry: response to human influence

Logan, Jennifer A.; Prather, Michael J.; Wofsy, Steven C.; Chen, Xinyu

doi:10.1098/rsta.1978.0082

Cited by 165 publications

(46 citation statements)

References 55 publications

(75 reference statements)

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“…Reaction (2a) is the major source of odd nitrogen (NO x ) in the stratosphere and plays a fundamental role in regulating the ozone layer [McElroy and McConnell, 1971;Crutzen, 1971;Nicolet and Vergison, 1971;Logan et al, 1978;Wennberg et al, 1994]. Note that a consequence of the above reactions is that the mixing ratio of N 2 O in the stratosphere is depleted relative to that in the troposphere.…”

Section: Introductionmentioning

confidence: 99%

The seasonal cycle of N₂O

Liao

Camp

Yung

2004

Geophysical Research Letters

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We have carried out an empirical study of the seasonal cycle of nitrous oxide (N2O) using the data archived by the National Oceanic and Atmospheric Administration – Climate Monitoring and Diagnostics Laboratory (NOAA‐CMDL) Global Cooperative Air Sampling Network from 1977 to 2000. In order to isolate the seasonal cycle, we first detrended the data using least square polynomial fits. The remaining variability was averaged to extract the seasonal cycle, which has an amplitude of about 0.8 ppbv. The statistical significance of the seasonal signal was established using the multitaper method and Welch's method for power spectrum analysis.

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Section: Introductionmentioning

confidence: 99%

The seasonal cycle of N₂O

Liao

Camp

Yung

2004

Geophysical Research Letters

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“…Accordingly, efforts to understand the future impact of continued usage of chlorofluoromethanes (CFM), CH3CC13, and of nitrous oxide have broadened in scope to consider the coupled effects of increasing atmospheric CO2 and CFM concentrations [Luther eta [Weiss, 1981]. Further, Logan et al [1978] demonstrated the potential effects of combustion-produced gases on tropospheric 03 and OH and through these OH changes, the effects on stratospheric chlorine and ozone concentrations. The more speculative but plausible increases in tropospheric ozone due to commercial aircraft operations [Liu eta!., 1980;Derwent, 1982] would necessitate a still broader view of atmospheric ozone perturbations, especially from the point of view of trend assessment in ground-based total ozonecolumn measurements.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear response of stratospheric ozone column to chlorine injections

Cicerone¹,

Walters²,

Liu³

1983

J. Geophys. Res.

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With a reasonably complete and up-to-date photochemical model of the stratosphere, we find that the calculated stratospheric ozone-column response to chlorine injections is highly nonlinear. The model calculations assume that the background inorganic (or odd) chlorine, C1X, is due to CH3CI and CC1, v Additional C1X is added to the stratosphere by varying input fluxes ofCC12F e and CC13F. The sensitivity, AO3/AClX , of the stratospheric 0 3 column to added C1X is relatively small forCIX •< 3 ppb orAC1X •< 2 ppb; slight ozone increases with CIX are possible over a limited range of CIX if the formation of chlorine nitrate proceeds rapidly. This may have important implications for total ozone-column trend assessment. As C1X increases beyond 3 ppb, the stratospheric O3 column decreases with C1X increasingly rapidly. This marked departure from the linearity calculated in past years is largely due to presently accepted faster rates of reaction of OH with HNO3, HNO,•, HOe, and HeO e. If stratospheric C1X increases to about 9 ppb due to continued usage of CCIeF e, CC13F, and CH3CC13, the stratospheric O 3 colttmn depletion is calculated to be 6.7-9.0%. Principal uncertainties in these calculations, including the rate of formation of chlorine nitrate, the products of its photolysis, and the present day mixing ratio of C1X are discussed. Calculated ozone decreases due to increased NeO concentrations are also presented.

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“…Stratospheric chemistry has been reviewed extensively by several authors (Nicolet, 1975;Johnston and Pokolske, 1978;Logan et al, 1978;Thrush, 1978). An excellent summary of information available up to the mid-1979 is given by NASA (1979).…”

Section: Review Of Atmospheric Chemistrymentioning

confidence: 99%

Modeling of Chemical Processes in the Troposphere and Stratosphere.

Sze¹,

Ko²,

Specht³

et al. 1980

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Atmospheric chemistry: response to human influence

Cited by 165 publications

References 55 publications

The seasonal cycle of N₂O

The seasonal cycle of N₂O

Nonlinear response of stratospheric ozone column to chlorine injections

Modeling of Chemical Processes in the Troposphere and Stratosphere.

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Atmospheric chemistry: response to human influence

Cited by 165 publications

References 55 publications

The seasonal cycle of N2O

The seasonal cycle of N2O

Nonlinear response of stratospheric ozone column to chlorine injections

Modeling of Chemical Processes in the Troposphere and Stratosphere.

Contact Info

Product

Resources

About

The seasonal cycle of N₂O

The seasonal cycle of N₂O