Ls. Galvao et al., RELATIONSHIPS OF SPECTRAL REFLECTANCE AND COLOR AMONG SURFACE AND SUBSURFACE HORIZONS OF TROPICAL SOIL PROFILES, Remote sensing of environment, 61(1), 1997, pp. 24-33
The reflectance spectra (400-2500 nm) and color attributes of samples
from the major horizons of six soil classes with broad distribution in
Brazil were analyzed for intrinsic relationships (principal component
s analysis) as well as for correlations with chemical components. The
objective was to detect the spectral changes with depth that are relat
ed to the soil chemical properties, thus improving the pedological cha
racterization of the soil profile and vertically extending the links b
etween topsoil properties and remote sensing data. The albedo (first p
rincipal component) differentiated the studied soil profiles in all ho
rizons and was inversely rebated to Fe2O3 (total iron), TiO2, and Al2O
3 contents. The spectral variability within each soil profile tons ass
ociated with changes in the shape (slope) of the spectra (second princ
ipal component). Such changes produced ratio values between longer and
shorter wavelengths that tended to decrease with depth because of the
increasing quantities of clay components, and the interplay between i
ron and carbon, respectively. Thus, in each profile, the albedo was ge
nerally preserved, but the shape of the spectra was not, except for so
ils with very low albedo. Hematite-rich soils were distinguished from
goethite-which soils by the redness index, which runs estimated from t
he three color parameters: dominant wavelength, purity, and luminance.
The results suggested that the use of spectroradiometers to measure r
eflectance of samples front several horizons can expedite soil surveys
, and also optimize laboratory analysis for soil chemical evaluation.
Also, they can be important to characterize the relative distribution
of some soil constituents in large unvegetated areas. (C) Elsevier Sci
ence Inc., 1997.