Every year, from December to April, anthropogenic haze spreads over most of the North Indian Ocean, and South and Southeast Asia. The Indian Ocean Experiment (INDOEX) documented this Indo-Asian haze at scales ranging from individual particles to its contribution to the regional climate forcing. This study integrates the multiplatform observations (satellites, aircraft, ships, surface stations, and balloons) with one- and four-dimensional models to derive the regional aerosol forcing resulting from the direct, the semidirect and the two indirect effects. The haze particles consisted of several inorganic and carbonaceous species, including absorbing black carbon clusters, fly ash, and mineral dust. The most striking result was the large loadi...
The effects of the south Asian haze on the regional climate are assessed using the National Center f...
During the second phase of the Arabian Sea Monsoon Experiment (ARMEX-II), extensive measurements of ...
Submicron aerosol particles (Dp<1 μm) were sampled with stacked filter units on the National Center ...
International audienceEvery year, from December to April, anthropogenic haze spreads over most of th...
Every year, from December to April, anthropogenic haze spreads over most of the North Indian Ocean, ...
Abstract. Every year, from December to April, anthropogenic haze spreads over most of the North Indi...
40-55This paper provides a review of aerosol forcing results from the Indian Ocean Experiment (INDOE...
The Indian Ocean Experiment (INDOEX) was sponsored by research agencies within Europe, India and USA...
[1] Aerosol sources, transport, and sinks are simulated, and aerosol direct radiative effects are as...
The direct radiative forcing by aerosols over the Indian Ocean region is simulated for the Indian Oc...
Abstract. The microphysical, chemical, optical, and lidar data collected during the Indian Ocean Exp...
30-39An overview of the Indian Ocean Experiment, INDOEX, the first comprehensive campaign to study a...
We study the relative influence of aerosols emitted from different sectors and geographical regions ...
The Indian Ocean Experiment (INDOEX) was sponsored by research agencies within Europe, India and USA...
Aerosols reduce the surface reaching solar flux (negative radiative forcing) by scattering the incom...
The effects of the south Asian haze on the regional climate are assessed using the National Center f...
During the second phase of the Arabian Sea Monsoon Experiment (ARMEX-II), extensive measurements of ...
Submicron aerosol particles (Dp<1 μm) were sampled with stacked filter units on the National Center ...
International audienceEvery year, from December to April, anthropogenic haze spreads over most of th...
Every year, from December to April, anthropogenic haze spreads over most of the North Indian Ocean, ...
Abstract. Every year, from December to April, anthropogenic haze spreads over most of the North Indi...
40-55This paper provides a review of aerosol forcing results from the Indian Ocean Experiment (INDOE...
The Indian Ocean Experiment (INDOEX) was sponsored by research agencies within Europe, India and USA...
[1] Aerosol sources, transport, and sinks are simulated, and aerosol direct radiative effects are as...
The direct radiative forcing by aerosols over the Indian Ocean region is simulated for the Indian Oc...
Abstract. The microphysical, chemical, optical, and lidar data collected during the Indian Ocean Exp...
30-39An overview of the Indian Ocean Experiment, INDOEX, the first comprehensive campaign to study a...
We study the relative influence of aerosols emitted from different sectors and geographical regions ...
The Indian Ocean Experiment (INDOEX) was sponsored by research agencies within Europe, India and USA...
Aerosols reduce the surface reaching solar flux (negative radiative forcing) by scattering the incom...
The effects of the south Asian haze on the regional climate are assessed using the National Center f...
During the second phase of the Arabian Sea Monsoon Experiment (ARMEX-II), extensive measurements of ...
Submicron aerosol particles (Dp<1 μm) were sampled with stacked filter units on the National Center ...