Evaluation of NMC Upper-Stratospheric Temperature Analyses Using Rocketsonde and Lidar Data

F. G. Finger
Search for other papers by F. G. Finger in
Current site
Google Scholar
PubMed
Close
,
M. E. Gelman
Search for other papers by M. E. Gelman in
Current site
Google Scholar
PubMed
Close
,
J. D. Wild
Search for other papers by J. D. Wild in
Current site
Google Scholar
PubMed
Close
,
M. L. Chanin
Search for other papers by M. L. Chanin in
Current site
Google Scholar
PubMed
Close
,
A. Hauchecorne
Search for other papers by A. Hauchecorne in
Current site
Google Scholar
PubMed
Close
, and
A. J. Miller
Search for other papers by A. J. Miller in
Current site
Google Scholar
PubMed
Close
Restricted access

Daily NMC analyses, constructed from operational TOVS data since 1978, are used to monitor behavior of middle atmospheric temperature. Capability of the upper-stratospheric analyses (5,2,1, and 0.4 mb) to provide temporally consistent temperature fields depends on adjustments derived from ground-truth observations. These adjustments compensate for biases in the analyses caused by behavioral differences in data derived from successive operational satellite instruments and by changes in data and analysis procedures. This paper supports previous studies showing that observations from the datasonde rocket system provide ground-truth adjustments with a precision of 1°–3°C. The number of datasonde observations has diminished substantially in recent years, putting this adjustment system at risk. Falling-sphere rocket temperature data are shown to have variability in excess of that judged to be acceptable for use in the adjustment system.

The capability for Rayleigh lidar to provide high-quality temperature data needed for ground truth is examined by comparing NMC analysis temperatures, adjusted by datasonde measurements, with observational values from regularly operating lidar systems in France since 1978. Agreement between the two databases is found to be good in recent years. This is further verified by comparisons between the datasonde-computed adjustments and independent analysis adjustments derived from the lidar database. It is concluded that high-quality lidar measurements, if made available from low, medium, and high latitudes, could provide the essential data for use in the analysis adjustment system.

*SM Systems and Research Corporation, Landover, Maryland.

+Climate Analysis Center, NMC, NWS, NOAA, Washington, D.C.

**Research and Data Systems Corporation, Greenbelt, Maryland.

++Service d'Aeronomie du Centre National de la Recherche Scientifique, Verrieres le Buisson, France.

Daily NMC analyses, constructed from operational TOVS data since 1978, are used to monitor behavior of middle atmospheric temperature. Capability of the upper-stratospheric analyses (5,2,1, and 0.4 mb) to provide temporally consistent temperature fields depends on adjustments derived from ground-truth observations. These adjustments compensate for biases in the analyses caused by behavioral differences in data derived from successive operational satellite instruments and by changes in data and analysis procedures. This paper supports previous studies showing that observations from the datasonde rocket system provide ground-truth adjustments with a precision of 1°–3°C. The number of datasonde observations has diminished substantially in recent years, putting this adjustment system at risk. Falling-sphere rocket temperature data are shown to have variability in excess of that judged to be acceptable for use in the adjustment system.

The capability for Rayleigh lidar to provide high-quality temperature data needed for ground truth is examined by comparing NMC analysis temperatures, adjusted by datasonde measurements, with observational values from regularly operating lidar systems in France since 1978. Agreement between the two databases is found to be good in recent years. This is further verified by comparisons between the datasonde-computed adjustments and independent analysis adjustments derived from the lidar database. It is concluded that high-quality lidar measurements, if made available from low, medium, and high latitudes, could provide the essential data for use in the analysis adjustment system.

*SM Systems and Research Corporation, Landover, Maryland.

+Climate Analysis Center, NMC, NWS, NOAA, Washington, D.C.

**Research and Data Systems Corporation, Greenbelt, Maryland.

++Service d'Aeronomie du Centre National de la Recherche Scientifique, Verrieres le Buisson, France.

Save