This paper explores the impact of the integrated water vapor content (IWV)
in the atmospheric column on the corrections of optical satellite data over
land. First, simulation runs were used to quantify the trends in red and n
ear infrared parts of the electromagnetic spectrum, Second, advanced very h
igh resolution radiometer (AVHRR) measurements obtained over Canada during
the 1996 growing season, together with reanalyzed IWV content data, were em
ployed to determine the actual impact of constant IWV values. Third, variou
s options in characterizing IWV for atmospheric corrections of AVHRR compos
ites were examined. It was found that 1) as expected, IWV affects near-infr
ared radiation substantially more than red, although the latter is also alt
ered; 2) that additional, subtle interactions take place between IVW, radia
nce levels, and viewing geometry that influence the retrieved surface refle
ctance; 3) that spatial and temporal variation in IWV caused changes in the
normalized difference vegetation index up to 7.5% in relative terms during
the peak green period; and 4) that IWV varies so substantially that pixel-
and date-specific values need to be used for the atmospheric correction of
AVHRR data. At present, subdaily gridded IWV data sets from atmospheric da
ta reanalysis projects are the only candidate source for such purpose.