IAPRS & SIS, Vol.34, Part 7, "Resource and Environmental Monitoring", Hyderabad, India, 2002
10-0
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ll ziel rail ar a da a à À
GRANITE
GRANODIORITE
QZ. MONZONITE
DIORITE
ANORTHOSITE
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0 5 10 15
20 25 30 35 40
QUARTZ (VOL */.)
Figure 5. Linear correlation of quartz content of plutonic rocks with wavelengths of
emissivity minimum derived from TIMS spectra. (Simplified after Sabine et al. 1994)
necessitate the development of more realistic models for
spectral-image data unmixing.
2.2 Thermal IR Region
In the thermal-IR region, the various important rock-forming
minerals exhibit the characteristic Reststrahlen (= low-
emissivity) bands. The position of low-emissivity band
systematically shifts from ~9um in granites to ~1lum in
peridotites. This makes it possible to identify specific
mineralogical assemblages using multispectral TIR data. A
number of applications using thermal infrared multispectral data
for mineralogical-lithological studies have been reported.
Further, the thermal-IR multispectral data can also be used for
quantiutative estimation of specific minerals. In a study, Sabine
et al. (1994) campared TIMS emissivity spectra of igneous
rocks ranging from leucogranite to anorthosite. They found that
the emissivity minimum varied linearly with SiO, content of the
rocks (Fig. 5). This relationship could be used to create images
In another study, Reinhackel and Kruger (1998) used 6-band
TIR data of DAIS-7915 to estimate quartz content in an area of
lignite overburden dumps and found the accuracy of
quantitative estimataion of quartz (4.2 wt%) to be of the same
order as obtained from laboratory analysis of field samples.
3. ESTIMATION OF TEMPERATURE OF LAVA, COAL
FIRE ETC.
3.1 Physical principle
Geologic features such as volcanic vents, lava flows and coal
fire etc. posses temperatures much higher than the background.
It is important to estimate their temperature, areal distribution,
and temporal variation for disaster monitoring and management.
The conventional field techniques have limitations in such jobs;
on the other hand, thermal remote sensing offers a viable
technique for such investigations.
Figure 6. Wavelength dependence of thermal radiance of blackbody (E = 1.0) plotted for a
range of temperatures (0 to 1200°C); shaded boxes indicate operational range of radiance
for Landsat TM bands 1 to 7. (Markham and Barker 1986)
of SiO, component.
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