Abstract
Abstract. Radiosondes are widely used to obtain basic meteorological parameters such as pressure (P), temperature (T), relative humidity (RH) and horizontal winds during the balloon ascent up to the altitude of balloon burst, usually ~ 32–35 km. Data from the radiosondes released from Gadanki (13.5° N, 79.2° E), a tropical station in India, have been collected during the ascent and during the descent as well without attaching any parachute or its equivalent since the year 2008. In the present study an attempt has been made to characterize the radiosonde descent data with the main objective of exploring its usefulness and reliability for scientific purposes. We compared the data obtained during ascent and descent phases of the same sounding. The mean differences in T, RH and horizontal winds between ascent and descent data are found to be small and are sometimes even within the uncertainty of the measurements and/or expected diurnal variation itself. The very good consistency observed between the ascent and the descent data shows that one more profile of the meteorological parameters can be constructed within 3 h of time of balloon launch practically at no additional cost. Further checks are done by utilizing the 3-hourly radiosonde observations collected during the Tropical Tropopause Dynamics campaigns conducted at Gadanki. In the process of checking the consistency between the radiosonde ascent and descent data, several new findings are arrived at and are reported in this study. In general, it has taken more than half an hour for the balloon to reach the ground from the burst altitude. It is also observed that the fall velocity is close to 10 m s−1 near the surface. Finally, it is suggested to record the observations also when the balloon is descending as this information is useful for scientific purposes.
Highlights
Measurements of different meteorological parameters such as pressure (P ), temperature (T ), relative humidity (RH) and horizontal winds are very important for forecasting the weather and for studying the thermal and dynamical state of the atmosphere
The tropical easterly jet (TEJ) is prevalent over this region in the SW monsoon season, with peak velocity sometimes reaching more than 40 m s−1 (Roja Raman et al, 2009)
During post-monsoon and pre-monsoon seasons, the radiosonde drifts for maximum of 80–100 km and 40– 60 km, respectively
Summary
Measurements of different meteorological parameters such as pressure (P ), temperature (T ), relative humidity (RH) and horizontal winds are very important for forecasting the weather and for studying the thermal and dynamical state of the atmosphere. The instrument intended to be carried by a balloon through the atmosphere is equipped with devices to measure one or several meteorological variables (P , T , RH, winds, etc.), and is provided with a radio transmitter for sending this information to the observing station. In general, radiosondes are widely used to obtain major meteorological parameters up to an altitude of balloon burst, usually ∼ 32–35 km. In the present study we obtained the meteorological data from the descending radiosonde without attaching any parachute or its equivalent and explored the usefulness and reliability of the data during the descent. The ascent and descent data have been obtained from the radiosondes released (without any parachute or equivalent) from Gadanki (13.5◦ N, 79.2◦ E), a tropical station in India since the year 2008 for this purpose.
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