Microphysical Features of Rain and Rain events during different Seasons over a Tropical Mountain location using an Optical Disdrometer

In the present study, seven-year-long observations of rain microphysical properties are presented using a ground-based disdrometer located at Braemore; a site on the windward slope of the Western Ghats (WG) over the Indian Peninsula. The annual cycle of rainfall shows a bimodal distribution with a p...

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Bibliographic Details
Published in:Scientific reports 2019-12, Vol.9 (1), p.19083-15, Article 19083
Main Authors: Sreekanth, T. S., Varikoden, Hamza, Mohan Kumar, G., Resmi, E. A.
Format: Article
Language:English
Subjects:
704/106/35/823
704/242
Humanities and Social Sciences
Monsoons
multidisciplinary
Rain
Science
Science (multidisciplinary)
Summer
Wind
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Summary:In the present study, seven-year-long observations of rain microphysical properties are presented using a ground-based disdrometer located at Braemore; a site on the windward slope of the Western Ghats (WG) over the Indian Peninsula. The annual cycle of rainfall shows a bimodal distribution with a primary peak during summer monsoon and secondary peak during pre-monsoon. Pre-monsoon rain events are less in number but are with high intensity and characterize large raindrops and low number concentration. During summer monsoon, short and less intense rain events with small drops are noticed. Post-monsoon rain is having a long duration less intense events with lower concentration of large raindrops compared to the summer monsoon. In the seasonal variation of mean diameter (D m ) and raindrop concentration (N T ) with Rain Intensity (RI), winter and pre-monsoon rains exhibit higher values of D m and lower values of N T compared to the summer and post-monsoon seasons for all the RI ranges. The mean features of the rain microphysical parameters are also supported by the case studies of rain events. RI, D m and N T are categorized into different range bins for all the seasons to identify their variation and relative rainfall contribution to the total seasonal rainfall. Heavy drizzle/Light rain has maximum rain duration, and the relative contribution to the rainfall is high from heavy rain type. Winter and pre-monsoon rains are mostly contributed from the larger raindrops (>D m 3), and during summer and post-monsoons it is from D m 2 onwards. The distribution of occurrence frequency of N T and rainfall are similar during all four seasons. N T 2 recorded rainfall percentage nearly the same as N T 1 in summer monsoon and this also supports large number of raindrops in this season. In RI-Duration analysis, all seasons showed similar distribution, and 90% of total duration is contributed from RI with less than 20 mm h −1 .
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-55583-z