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Abstract
A study on the correlation of the angstrom turbidity coefficient (β) with aerosol optical depth (τ) have been studied on the basis of field measurements carried out at Kaikhali (22.022°N & 88.614°E) lying in the east coast of India inside the Sundarbans. The angstrom turbidity coefficients have been calculated with respect to the filter channels at 340 nm, 500 nm, 870 nm, 936 nm and 1020 nm of a Sunphotometer. Assessment of the possible influx of the fine particulate concentrations to the total aerosol loading in the area have been made with respect to the calculated angstrom turbidity values for the summer and winter seasons over a period of two years from 2004 to 2006. Substantially high angstrom turbidity coefficient values exceeding 0.2 and indicative of a relatively hazy atmosphere for both the summer and winter periods over these two years from 2004-2006 have been observed. Considering the importance of this fragile mangrove ecosystem of the Sundarbans and also the vulnerability of the area to severe impacts of climate changes, this is indeed a thought provoking issue as far as the policy makers of the country are concerned. In fact, the study has confirmed positive correlation of β with τ.
Highlights
Lying to the south of West Bengal, India, the Sundarbans coastal belt truly represents a complex and unique ecosystem encompassing tiger inhabited terrain of mangrove forest and saltwater swamp as part of the lower Gangetic delta
Among these criteria air pollutants, considering the adverseness posed by the finer fraction of the particulates, concentration have been provided on these finer fractions of particulates (PM10 and PM2.5)
To ascertain the presence of high levels of fine particulate matter (PM2.5 and PM10) in the area, the aerosol optical depth (τ) values for the above mentioned wavelengths have been correlated with the corresponding angstrom turbidity coefficient (β) values
Summary
Lying to the south of West Bengal, India, the Sundarbans coastal belt truly represents a complex and unique ecosystem encompassing tiger inhabited terrain of mangrove forest and saltwater swamp as part of the lower Gangetic delta. To ascertain the presence of high levels of fine particulate matter (PM2.5 and PM10) in the area, the aerosol optical depth (τ) values for the above mentioned wavelengths have been correlated with the corresponding angstrom turbidity coefficient (β) values. This has got importance from many angles, mostly to reflect the high occurrence and its associated effects of the fine particulate fractions on the biodiversity and surrounding environment of the Sundarbans
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