channels and in the 2.1 and 3.9 pm channels present on MODIS. The presence of
vegetation decreases the reflection in the 0.41, 0.47 and 0.66 channels due to chlorophyll
absorption and in the 2.1 and 3.9 pm channels due to liquid water absorption. Wet soil
has a lower reflectance in the visible channels due to light trapping capability, and a
lower reflectance in the 2.1 and 3.9 pm channels due to liquid water absorption
(Kaufman and Remer, 1993).
Using these principles the following procedure for remote sensing of aerosol and
subsequent atmospheric correction is suggested:
Thresholds based on the reflective part of the 3.9 pm channel, p 39 , (derived from the
radiance at 3.9 pm after correction for the emissive part) and the 2.1 pm channel, p
are used on a 50x50 km 2 grid to determine cloud free pixels with vegetation cover or
otherwise low reflection in the 0.41, 0.47 and 0.66 pm bands (Kaufman and Remer,
1993). The thresholds are first corrected for the water vapor absorption using the total
precipitable water vapor derived from MODIS.
expansion of the w
amount of data ani
latitude, longitudi
physical aerosol pr
the optical propert
scattering albedo,
specific aerosols t]
(Hoppel et al., 199(
and Andrea, 199
measurements, m
measurements do
ambient instrumei
Sulfate Cloud An
distribution varies
based sun/sky rai
climatology with ,
describe the prope:
For example: p 39 < 0.025 or p 2J < 0.05
The 2.1 pm channel is used to estimate the reflectance in the 0.41, 0.47 and 0.66 pm
channels (p,_, p,_ p„) of these pixels.
r 41 r 47 r 66 r
For example: p 4J = p 4? = 0.7p 66 = 0.33p n
A lookup table is generated using radiative transfer computations for the 0.41, 0.47 and
0.66 pm channels, for the range of viewing and illumination conditions of MODIS and
for several values of the aerosol optical thickness. The aerosol model used in these
computations will be varied from a rural model for low aerosol optical thickness to a
sulfate dominated model for high optical thickness. The models are based on the AFGL
aerosol models (Shettle and Fenn, 1978) but modified using observations. Ground based
remote sensing of the size distribution and scattering phase function of the ambient
aerosol are used to modify these models (Kaufman, 1993; Kaufman et al., 1994). The
lookup table is used to infer the aerosol optical thickness from the measured radiances.
Correction for ozone absorption and residual water vapor is applied. With analytical
equation adjust the lookup table for the box elevation (correct the Rayleigh scattering)
the ozone and water vapor absorption. The transformation are described by Fraser et al.
(1992), Tanre et al. (1992).
The derived aerosol optical thicknesses are averaged over a grid of 50x50 km (to exclude
extreme values an average between the 10th percentile and the 40th percentile is used)
to give a map of the aerosol loading on this resolution. For grid boxes were no values
are available, the average of its immediate neighbors is used. If no such values are
available (e.g. in bright deserts) climatological values will be used and the correction
will not be very effective.
Atmospheric corrections are applied to every pixel, using the inverse of eq. 1 and a look
up table described before. The aerosol optical thickness used for each pixel is a result of
interpolation on the derived optical thicknesses on the 50x50 km grid. An aerosol
model is assumed based on aerosol climatology discussed in the next section.
3.2 Aerosol climatology
At a global scale, aerosol climatology was summarized by d'Almeida et al. (1991) as an
There may be <
that can reduce th
aerosol concentrai
important in suppl
refractive index) th
the dark target app
3.3 Ground basée
The aerosol pa:
from in-situ measi
measurements (Vo
carried on a netw
performed a simil
instruments, Holbt
1986 using 15 mor
size distribution a
almucantar measui
from the collectio:
atmospheric bounc
determined from ;
1979; Wang and C
optical properties i
which atmospheric
Sunphotomete
(BAPMoN) has be
Meteorological Or£
a recent report (1
measurements: po<
quality. Measurem
conducted recently
1994); in Africa b
Eastern US (Y. Kai
(e.g. sunphotometi
properties are the
total loading and 1
high data quality
14
