Add to ORKGWide-ranging multi-platform data from a major field campaign conducted over Indian region was used to estimate the energy absorbed in ten layers of the atmosphere. We found that during pre-monsoon season, most of Indian region is characterized by elevated aerosol layers.Three-fold increase in aerosol extinction coefficient was observed at higher atmospheric layers (>2 km) compared to that near the surface and a substantial fraction (as much as 50 to 70%) of aerosol optical depth was found contributed by aerosols above (reflecting) clouds. Consequent absorption and hence strong warming above clouds was found larger by several degrees (K) compared to that near the surface. The aerosol-induced elevated warming was mostly confined below 2 ...
[1] Using an interactive aerosol-climate model we find that absorbing anthropogenic aerosols, whethe...
Multi-year observations from the network of ground-based observatories (ARFINET), established under ...
Every year, from December to April, anthropogenic haze spreads over most of the North Indian Ocean, ...
Wide-ranging multi-platform data from a major field campaign conducted over Indian region was used...
Spatial and vertical distributions of aerosol radiative properties over Indian Continental Tropical ...
The influence of atmospheric aerosols on Earth's radiation budget and hence climate, though well rec...
The influence of atmospheric aerosols on Earth's radiation budget and hence climate, though well r...
Making use of the extensive shipboard and aircraft measurements of aerosol properties over the ocean...
Climate change has great significance globally in general and South Asia in particular. Here we have...
The impact of heating by black carbon aerosols on Indian summer monsoon has remained inconclusive. S...
Climate change has great significance globally in general and South Asia in particular. Here we have...
Spatial vertical distributions of aerosol radiative properties over Indian Continental Tropical Conv...
Multi-year observations from the network of ground-based observatories (ARFINET), established under ...
The information on altitude distribution of aerosols in the atmosphere is essential in assessing the...
40-55This paper provides a review of aerosol forcing results from the Indian Ocean Experiment (INDOE...
[1] Using an interactive aerosol-climate model we find that absorbing anthropogenic aerosols, whethe...
Multi-year observations from the network of ground-based observatories (ARFINET), established under ...
Every year, from December to April, anthropogenic haze spreads over most of the North Indian Ocean, ...
Wide-ranging multi-platform data from a major field campaign conducted over Indian region was used...
Spatial and vertical distributions of aerosol radiative properties over Indian Continental Tropical ...
The influence of atmospheric aerosols on Earth's radiation budget and hence climate, though well rec...
The influence of atmospheric aerosols on Earth's radiation budget and hence climate, though well r...
Making use of the extensive shipboard and aircraft measurements of aerosol properties over the ocean...
Climate change has great significance globally in general and South Asia in particular. Here we have...
The impact of heating by black carbon aerosols on Indian summer monsoon has remained inconclusive. S...
Climate change has great significance globally in general and South Asia in particular. Here we have...
Spatial vertical distributions of aerosol radiative properties over Indian Continental Tropical Conv...
Multi-year observations from the network of ground-based observatories (ARFINET), established under ...
The information on altitude distribution of aerosols in the atmosphere is essential in assessing the...
40-55This paper provides a review of aerosol forcing results from the Indian Ocean Experiment (INDOE...
[1] Using an interactive aerosol-climate model we find that absorbing anthropogenic aerosols, whethe...
Multi-year observations from the network of ground-based observatories (ARFINET), established under ...
Every year, from December to April, anthropogenic haze spreads over most of the North Indian Ocean, ...