Follow this link to skip to the main content
NASA Jet Propulsion Laboratory California Institute of Technology
JPL - Home Page JPL - Earth JPL - Solar System JPL - Stars and Galaxies JPL - Science and Technology
Bring the Universe to You: JPL Email News JPL RSS Feed JPL Podcast JPL Video
MISR - Multi-angle Imaging SpectroRadiometer
  Science Goals  
Pictorial Introduction
Science Goals
EOS and Terra
MISR Instrument
 Get Data
 News and Events
 Ask a Question
 About Us
 Other Resources
MISR Aerosol Retrieval Methods for Three Different Surface Types

MISR Aerosol Retrieval Methods for Three Different Surface Types

Looking down at Earth from space, one sees light scattered by the atmosphere, as well as light that has been reflected by the surface below. The ideal way to observe atmospheric aerosols from space would be to image them over a surface that is completely dark. Some natural surfaces come closer to this ideal than others.

  • The ocean surface is quite dark in the MISR red and near-infrared bands (bands 3 and 4.) If the wind blowing at the ocean surface is known, then the amount of light that is reflected in all directions from the ocean surface can be calculated.
  • Thick forests tend to be dark in the blue and red (MISR Bands 1 and 3), but not in the green. Surface reflection can be calculated if you know what fraction of incoming light is sent in different directions (the so-called "BRDF" of the surface.) This is generally less well known than the reflection properties of ocean surfaces.
  • There may be neither dark water nor dense, dark vegetation in a MISR scene. But if there are features with different brightnesses, we attempt a "Heterogeneous Land" retrieval. This is a more complicated situation, involving an assumption that although the surface brightness changes, the surface BRDF does not change very much.

In all cases, the MISR measurements are compared with simulations at natural atmosphere-ocean situations (the Simulated MISR Atmospheric Radiative Transfer, or "SMART" data.) The best-fitting situations are reported in the MISR aerosols product.

Previous Page