Q. Errera et D. Fonteyn, Four-dimensional variational chemical assimilation of CRISTA stratosphericmeasurements, J GEO RES-A, 106(D11), 2001, pp. 12253-12265
This paper presents a chemical assimilation system based on the variational
method. It has been applied to an off-line stratospheric three-dimensional
chemical transport model. This technique determines the best model initial
conditions that minimize the model errors when compared to a set of observ
ations for a predefined time window. The system is applied to the Cryogenic
Infrared Spectrometers and Telescopes for the Atmosphere (CRISTA) measurem
ents for the November 5-11, 1994, mission. Observed species are O-3, CH4, H
NO3, ClONO2, N2O5, N2O, and CFC-11. For an assimilation period of 12 hours,
CRISTA observations are well estimated by the assimilation system. These r
esults vary according to the species considered and depend on the CRISTA's
observational error. In particular, assimilated ozone differ from CRISTA by
less than 5%. Analyses have been compared with independent observations in
order to validate the assimilation system. It was found that observations
by the Atmospheric Trace Molecule Spectroscopy (ATMOS) experiment and the H
alogen Occultation Experiment (HALOE) agree well with the analyses. These c
omparisons suggested systematic differences between CRISTA and HALOE or ATM
OS. Unconstrained constituents like NO, and HCl are influenced through chem
ical coupling and show small discrepancies with ATMOS and HALOE data.