Spectroscopic study of rocks of Hutti-Maski schist belt, Karnataka

Recent developments in sensor technology have given an onset for studying the earth surface features based on the detailed spectroscopic observation of different rocks and minerals. The spectroscopic profiles of the rocks are always quite different than their constituent minerals however, the spectr...

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Bibliographic Details
Published inJournal of the Geological Society of India Vol. 79; no. 4; pp. 335 - 344
Main Authors Guha, Arindam, Chakraborty, Debashish, Ekka, A. B., Pramanik, Kaushik, Vinod Kumar, K., Chatterjee, S., Subramanium, S., Ananth Rao, D.
Format Journal Article
LanguageEnglish
Published India Springer-Verlag 01.04.2012
Springer Nature B.V
Subjects
Absorption
Earth and Environmental Science
Earth Sciences
Geology
Hydrogeology
Mineralogy
Minerals
Petrology
Rocks
Spectroscopy
Spectrum analysis
Karnataka India
India
Rock fabric
Spectroscopy
Spectral matching
Spectral resolution
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Summary:Recent developments in sensor technology have given an onset for studying the earth surface features based on the detailed spectroscopic observation of different rocks and minerals. The spectroscopic profiles of the rocks are always quite different than their constituent minerals however, the spectral profile of a rock can be broadly reconstituted from the spectral profile of each constituent minerals. Interpretation of rock spectra using the spectra of constituent minerals based on relative spectral matching can bring out interesting information on the rock. Present study is an effort toward this and it highlights how visible-near infrared-shortwave-infrared (VNIR-SWIR) rock spectroscopy acts as an useful tool for understanding the rock-mineralogy in indirect and rapid way. It has also been observed that spectral signatures of rocks; studied in present case, are related to spectral signatures of constituent minerals although absorption features of constituent mineral in the rock are also modified by the other minerals juxtaposed in the rock fabric. However, each rock of the study area has their significant absorption features, but many of the absorption signatures are closely spaced, as altered rock has significant absorption at 2305 nm whereas amphibolite has its important absorption signature in 2385 nm and metabasalt has its significant absorption at 2342 nm. Therefore spectral measurement of high spectral resolution with appreciable signal to noise ratio (SNR) only can detect rocks from each other based on the absorption signatures mentioned above (each of which is 10 to 20 nm apart from the other) and therefore spectroscopy of rock is an innovative technique to map rocks and minerals based on the spectral signatures.
ISSN:0016-7622
0974-6889
DOI:10.1007/s12594-012-0054-7