Chlorophyll absorbs solar radiation in the upper ocean, increasing the mixed layer radiative heating and sea surface temperatures (SST). Although the influence of chlorophyll distributions in the Arabian Sea on the southwest monsoon has been demonstrated, there is a current knowledge gap regarding how chlorophyll distributions in the Bay of Bengal influence the southwest monsoon. The solar absorption caused by chlorophyll can be parameterized as an optical parameter, h2, which expresses the scale depth of the absorption of blue light. Seasonally and spatially varying h2 fields in the Bay of Bengal were imposed in a 30-year simulation using an atmospheric general circulation model coupled to a mixed layer thermodynamic ocean model in order t...
454-464Multivariate statistical analysis such as multiple linear regression (MLR) and principal comp...
Water masses of different temperature and salinity partially govern the distributions of chlorophyll...
Twelve years of remotely sensed all-sat merged chlorophyll-a concentration unveils strong signatures...
Chlorophyll absorbs solar radiation in the upper ocean, increasing the mixed layer radiative heating...
Chlorophyll absorbs solar radiation in the upper ocean, increasing mixed-layer radiative heating and...
Chlorophyll has long been known to influence air-sea gas exchange and CO2 drawdown. But chlorophyll ...
Through the absorption of solar radiation, chlorophyll influences mixed-layer radiative heating and ...
This study examines the effect of seasonally varying chlorophyll on the climate of the Arabian Sea a...
The Bay of Bengal (BoB) generally exhibits surface oligotrophy, due to nutrient limitation induced b...
We investigate the effect of variable marine biogeochemical light absorption on Indian Ocean sea sur...
Satellite-derived chlorophyll a concentration (chl a) maps show three regions with high chl a in the...
The southwest monsoon delivers over 70% of India’s annual rainfall and is crucial to the success of ...
The decadal trends in satellite-derived surface chlorophyll in conjunction with Aerosol Optical Dept...
In the present paper, we have carried out analysis of surface chlorophyll-a concentration in the sea...
Western tropical Indian Ocean, Arabian Sea, and the equatorial Pacic are known as regions of intense...
454-464Multivariate statistical analysis such as multiple linear regression (MLR) and principal comp...
Water masses of different temperature and salinity partially govern the distributions of chlorophyll...
Twelve years of remotely sensed all-sat merged chlorophyll-a concentration unveils strong signatures...
Chlorophyll absorbs solar radiation in the upper ocean, increasing the mixed layer radiative heating...
Chlorophyll absorbs solar radiation in the upper ocean, increasing mixed-layer radiative heating and...
Chlorophyll has long been known to influence air-sea gas exchange and CO2 drawdown. But chlorophyll ...
Through the absorption of solar radiation, chlorophyll influences mixed-layer radiative heating and ...
This study examines the effect of seasonally varying chlorophyll on the climate of the Arabian Sea a...
The Bay of Bengal (BoB) generally exhibits surface oligotrophy, due to nutrient limitation induced b...
We investigate the effect of variable marine biogeochemical light absorption on Indian Ocean sea sur...
Satellite-derived chlorophyll a concentration (chl a) maps show three regions with high chl a in the...
The southwest monsoon delivers over 70% of India’s annual rainfall and is crucial to the success of ...
The decadal trends in satellite-derived surface chlorophyll in conjunction with Aerosol Optical Dept...
In the present paper, we have carried out analysis of surface chlorophyll-a concentration in the sea...
Western tropical Indian Ocean, Arabian Sea, and the equatorial Pacic are known as regions of intense...
454-464Multivariate statistical analysis such as multiple linear regression (MLR) and principal comp...
Water masses of different temperature and salinity partially govern the distributions of chlorophyll...
Twelve years of remotely sensed all-sat merged chlorophyll-a concentration unveils strong signatures...