Abstract
Abstract. The Mesosphere and Lower Thermosphere (MLT) winds acquired by medium frequency (MF) radar at Tirunelveli (8.7° N, 77.8° E) for the years 1993–2007 are used to study seasonal and interannual variabilities of gravity wave (GW) variances in the altitude region 84–94 km. The GW variances in zonal and meridional winds show semiannual oscillation with maximum variance during March–April and August–September and minimum during June–July and November–December months. The wind variances, in general, are observed to be enhanced during and after the year 1998 and they undergo large interannual variability, in particular, during spring equinox months. An enhancement of GW variances is observed during spring equinox months of the years 2000, 2004 and 2006. These larger GW enhancements, most of the times, coincide with eastward phase of zonally averaged stratospheric QBO at 30 hPa over equator and sudden stratospheric warming occurred at high latitudes. From the zonal and meridional variances, the perturbation ellipses are calculated and they show that the predominant direction of propagation of gravity waves is in SE-NW plane.
Highlights
The predominant semiannual variability of zonal wind and temperature in the equatorial mesosphere and lower thermosphere (MLT) is believed to be caused mainly by gravity waves
In this paper we present the seasonal and interannual variations of the wind velocity variances attributed to atmospheric gravity waves having period 2–6 h using nearly 15 years of horizontal wind observations over Tirunelveli (8.7◦ N, 77.8◦ E) and their relation with stratospheric quasi-biennial
The semiannual variation in gravity wave variance might be due to passage of inter tropical convergence zone (ITCZ) twice the site per year
Summary
In this paper we present the seasonal and interannual variations of the wind velocity variances attributed to atmospheric gravity waves having period 2–6 h using nearly 15 years of horizontal wind observations over Tirunelveli (8.7◦ N, 77.8◦ E) and their relation with stratospheric quasi-biennial. Sathishkumar: Variations of gravity wave activity over Tirunelveli oscillation (SQBO), southern Oscillation Index (SOI), a parameter that reflects Pacific El Nino activity and major highlatitude stratospheric warming events
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