(7)
R54
N
X( T 4k - T4o)(T5k - T5 0 )
k=l
N
' T 4o) 2
k=l
then Eq.( 6 ) reduces to
^ = R54 ®
where X4 and X5, are the total atmospheric transmittances in Channels 4 and 5 of the AVHRR/2 and where the
numerator and denominator on the right-hand side of Eqn. (7) represent, respectively, the covariance and the
variance of brightness temperatures directly measured by the satellite in channels 4 and 5, with T 4 o and T 5 0
being two temperatures of reference, this could be the mean temperature of the pixels considered in each channel
or the temperature of a single pixel.
2.1. Evaluation of Total Transmittance
Another significant application of this technique consists in obtaining the atmospheric transmittance. Thus,
assuming that the total transmittance Xk (k=4, 5) for channel k can be expressed as (Harris and Mason, 1992):
^k = tkWater * ^kGas (?)
where ikWater and tkGas are respectively the total water transmittance and the total transmittance due to the
other gases (for exemple, O 3 , CO 2 , N 2 , N 20 » CH 4 etc.). They are given by
Xk Water = Exp(-Ak W Water / COS 0) (10a)
XkGas = Exp(-Gk W Gas / cos 0) (10b)
in which 0 is the angle of observation; Ak and Gk are the band-average absorption coefficents in channel k,
assumed to be independent of atmospheric temperature, for water vapor and other gases respectively; and W wa ter
and W(}as are respectively the total effective contents of water vapor and other gases.
Now, inserting Eq. (9) with Eqs.(lOa) and (10b) into Eq. ( 8 ), one gets:
R 54 = Exp
(G 5 - G 4 )*W Ga s * c -(A 5 - A 4 )*W W ater
COS0
Exp
COS0
(ID
and
X4 = A*R54®
( 12 a)
x 5 = A*R 54 ( b+ 1)
( 12 b)
The importance of Eqs. (12a) and (12b) lies in that they give a method to obtain the actual
atmospheric transmittance with only the brightness temperatures measured by the satellite, through R 54 .
22. Evaluation of Total Water Content W
Water vapor in the atmosphere is an important constituent because it plays a significante role in the absorption
and emission of radiative energy. Measurements of this constituent is important to increase the understanding of
the biosphere-atmosphere interactions, the energy budget, and for monitoring climate change due to the
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