Trisanu Banik scite author profile

This study presents the characteristics of aerosol black carbon (BC) from a rural continental site, Agartala, located in the North-Eastern part of India using two year measurements from September 2010 to September 2012. Diurnal and seasonal variations are examined in relation to the unique geographical location, changeable meteorological conditions and distinct source characteristics. Winter season is characterized by extremely high BC concentration (17.8 ± 9.2 µg/m 3 ) comparable to those seen in urban environments of India, dropping off to much lower values during the monsoon (2.8 ± 1.7 µg/m 3 ). Even this lowest seasonal mean is rather high, given the rural nature of Tripura. Examination of the spectral dependence of aerosol absorption coefficients indicates that the main source of aerosol to total BC burden at Agartala is the fossil fuel combustions. Concentration weighted trajectory (CWT) analysis indicate that the characteristic high BC during winter is mostly associated with the advection from the Indo-Gangetic Plains (IGP), while the air mass pattern is constricted to the oceanic region during monsoon making BC aloft due to local pollution only.

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The effect of El Nino and La Nina on lightning activity: its relation with meteorological and cloud microphysical parameters

Guha

Banik

Roy

et al. 2016

Nat Hazards

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Indian summer monsoon variability over North-East India: Impact of ENSO and IOD

Saha

Guha

Banik

2021

Journal of Atmospheric and Solar-Terrestrial Physics

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Characteristics of severe thunderstorms studied with the aid of VLF atmospherics over North–East India

Guha

Banik

et al. 2013

J Earth Syst Sci

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Electromagnetic waves from lightning activity, commonly known as atmospherics or sferics serve as an effective tool for studying the lower ionosphere as well as thunderstorm activity. It is also useful for locating lightning strokes regionally and globally. In this paper, we present the analysis of the Integrated Field Intensity of Sferics (IFIS) at six discrete VLF frequencies for 30 lightning-associated overhead thunderstorms in Tripura, within the period from August 2009 to October 2010. An ingeniously developed well calibrated GPS locked software VLF receiver, located at the Department of Physics, Tripura University (23.5 • N, 91.25 • E), is used for the present study. Two distinct types of variations of IFIS, (i) single peak and (ii) dual peak are found characterizing each thunderstorm and their occurrence show nearly inverse character. The spectral character of IFIS rise rate, fall rate and rate of enhancement for each type is studied searching for suitable frequencies in the VLF range to forecast a thunderstorm. It is concluded that VLF sferics from 3-10 kHz are the most effective in terms nowcasting an incoming thunderstorm well before 3-4 hours of its peak occurrence, when there may not be any visual indication of the thunderstorm.

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Trisanu Banik

Aerosol characteristics in north-east India using ARFINET spectral optical depth measurements

Seasonal Characteristics of Aerosol Black Carbon in Relation to Long Range Transport over Tripura in Northeast India

The effect of El Nino and La Nina on lightning activity: its relation with meteorological and cloud microphysical parameters

Indian summer monsoon variability over North-East India: Impact of ENSO and IOD

Characteristics of severe thunderstorms studied with the aid of VLF atmospherics over North–East India

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