Ozone Reference Models for the Middle Atmosphere (New CIRA)
Abstract
Models of ozone vertical structure were generated that were based on multiple data sets from satellites. The very good absolute accuracy of the individual data sets allowed the data to be directly combined to generate these models. The data used for generation of these models are from some of the most recent satellite measurements over the period 1978 to 1983. A discussion is provided of validation and error analyses of these data sets. Also, inconsistencies in data sets brought about by temporal variations or other factors are indicated. The models cover the pressure range from from 20 to 0.003 mb (25 to 90 km). The models for pressures less than 0.5 mb represent only the day side and are only provisional since there was limited longitudinal coverage at these levels. The models start near 25 km in accord with previous COSPAR international reference atmosphere (CIRA) models. Models are also provided of ozone mixing ratio as a function of height. The monthly standard deviation and interannual variations relative to zonal means are also provided. In addition to the models of monthly latitudinal variations in vertical structure based on satellite measurements, monthly models of total column ozone and its characteristic variability as a function of latitude based on four years of Nimbus 7 measurements, models of the relationship between vertical structure and total column ozone, and a midlatitude annual mean model are incorporated in this set of ozone reference atmospheres. Various systematic variations are discussed including the annual, semiannual, and quasibiennial oscillations, and diurnal, longitudinal, and response to solar activity variations.
- Publication:
-
Middle Atmosphere Program. Handbook for MAP. Volume 31
- Pub Date:
- December 1989
- Bibcode:
- 1989maph...31....1K
- Keywords:
-
- Atmospheric Models;
- Error Analysis;
- Middle Atmosphere;
- Ozone;
- Periodic Variations;
- Reference Atmospheres;
- Satellite Observation;
- Vertical Distribution;
- Annual Variations;
- Diurnal Variations;
- Nimbus 7 Satellite;
- Oscillations;
- Ozonometry;
- Solar Activity;
- Standard Deviation;
- Temporal Distribution;
- Geophysics