Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
19 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
19 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
19 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
20 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
20 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
20 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
20 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
21 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
21 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
22 KB - JPEG

Effects of Aerosols over the Indian Ocean - related image preview

600 x 450
27 KB - JPEG

Effects of Aerosols over the Indian Ocean - related mpeg preview placeholder

2 MB - MPEG

Effects of Aerosols over the Indian Ocean - related mpeg preview placeholder

3 MB - MPEG

Effects of Aerosols over the Indian Ocean - related tiff image preview placeholder

4 MB - TIFF

Effects of Aerosols over the Indian Ocean - related image preview

19 MB - GZ

Effects of Aerosols over the Indian Ocean

Aerosols that contain black carbon both absorb and reflect incoming sunlight. Even as these atmospheric particles reduce the amount of sunlight reaching the surface, they increase the amount of solar energy absorbed in the atmosphere, thus making it possible to both cool the surface and warm the atmosphere. The images above show satellite measurements of the region studied during the Indian Ocean Experiment (INDOEX)–a vast region spanning the Arabian Sea and Bay of Bengal (west to east), and from the foot of the Himalayan Mountains, across the Indian subcontinent to the southern Indian Ocean (north to south).

The Aerosol images show aerosol pollution (brownish pixels) in the lower atmosphere over the INDOEX study area, as measured by the Moderate-resolution Imaging Spectroradiometer (MODIS) aboard Terra. These were composited from March 14-21, 2001.

The Albedo images show the total solar energy reflected back to space, as measured by Clouds and Earth's Radiant Energy System (CERES) aboard Terra. White pixels show high values, greens are intermediate values, and blues are low. Note how the aerosols, particularly over the ocean, increase the amount of energy reflected back to space.

The Atmospheric Warming images show the absorption of the black carbon aerosols in the atmosphere. Where the aerosols are most dense, the absorption is highest. Red pixels indicate the highest levels of absorption, blues are low.

The Surface Cooling images show that the aerosol particles reduce the amount of sunlight reaching the surface. Dark pixels show where the aerosols exert their cooling influence on the surface (or a high magnitude of negative radiative forcing). The bright pixels show where there is much less aerosol pollution and the incoming sunlight is relatively unaffected.

For more details, see the complete NASA press release.


Images and animations by Tom Bridgman, NASA GSFC Science Visualization Studio; Data courtesy Terra CERES and MODIS Science Teams, NASA LaRC and GSFC, and Scripps Institution of Oceanography

Published August 13, 2001
Data acquired January 1 - March 21, 2001

Source:
Terra > CERES
Topics:
Atmosphere > Aerosols > Aerosol Optical Depth/Thickness
Atmosphere > Aerosols > Aerosol Radiance
Atmosphere > Aerosols > Carbonaceous Aerosols
Collection:
Visible Earth