Document Type
Article
Publication Date
2013
DOI
10.5194/acp-13-7813-2013
Publication Title
Atmospheric Chemistry and Physics
Volume
13
Issue
15
Pages
7813-7824
Abstract
Observations of the mesospheric semi-annual oscillation (MSAO) in the equatorial region have been reported dating back several decades. Seasonal variations in both species densities and airglow emissions are well documented. The extensive observations available offer an excellent case study for comparison with model simulations. A broad range of MSAO measurements is summarised with emphasis on the 80-100 km region. The objective here is not to address directly the complicated driving forces of the MSAO, but rather to employ a combination of observations and model simulations to estimate the limits of some of the underlying dynamical processes. Photochemical model simulations are included for near-equinox and near-solstice conditions, the two times with notable differences in the observed MSAO parameters. Diurnal tides are incorporated in the model to facilitate comparisons of observations made at different local times. The roles of water vapour as the "driver" species and ozone as the "response" species are examined to test for consistency between the model results and observations. The simulations suggest the interactions between vertical eddy diffusion and background vertical advection play a significant role in the MSAO phenomenon. Further, the simulations imply there are rigid limits on vertical advection rates and eddy diffusion rates. For August at the Equator, 90 km altitude, the derived eddy diffusion rate is approximately 1 x 106 cm2 s-1 and the vertical advection is upwards at 0.8 cm s-1. For April the corresponding values are 4 x 105 cm2 s-1 and 0.1 cm s-1. These results from the current 1-D model simulations will need to be verified by a full 3-D simulation. Exactly how vertical advection and eddy diffusion are related to gravity wave momentum as discussed by Dunkerton (1982) three decades ago remains to be addressed.
Original Publication Citation
Gattinger, R. L., Kyrola, E., Boone, C. D., Evans, W. F. J., Walker, K. A., McDade, I. C., . . . Llewellyn, E. J. (2013). The roles of vertical advection and eddy diffusion in the equatorial mesospheric semi-annual oscillation (MSAO). Atmospheric Chemistry and Physics, 13(15), 7813-7824. doi: 10.5194/acp-13-7813-2013
ORCID
0000-0002-1255-396X (Bernath)
Repository Citation
Gattinger, R. L.; Kyrölä, E.; Boone, C. D.; Evans, W. F.J.; Walker, K. A.; McDade, I. C.; Bernath, P. F.; and Llewellyn, E. J., "The Roles of Vertical Advection and Eddy Diffusion in the Equatorial Mesospheric Semi-Annual Oscillation (MSAO)" (2013). Chemistry & Biochemistry Faculty Publications. 39.
https://digitalcommons.odu.edu/chemistry_fac_pubs/39