A statistics-based method for the short-wave infrared spectral analysis of altered rocks: An example from the Acoculco Caldera, Eastern Trans-Mexican Volcanic Belt

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• 作者：Carles Canet ; Lilia Arana ; Eduardo Gonzá ; lez-Partida ; Teresa Pi ; Rosa Marí ; a Prol-Ledesma ; Sara I. Franco ; Ruth Esther Villanueva-Estrada ; Antoni Camprubí ; Germá ; n Ramí ; rez-Silva
• 关键词：SWIR ; Field portable spectrometer ; Cluster analysis ; Geothermal ; Ammonium
• 刊名：Journal of Geochemical Exploration
• 出版年：2010
• 出版时间：April-May 2010
• 年：2010
• 卷：105
• 期：1-2
• 页码：1-10
• 全文大小：855 K

文摘

We propose a simple graphic and statistical method for processing short-wave infrared (SWIR) reflectivity spectra of alteration minerals, which classifies spectra according to their shape and absorption features, thus obtaining groups of spectra equivalent to mineral assemblages. It also permits selection of fewer samples for further mineralogical verification. This method uses the SWIR spectra without hull subtraction. The first step is to normalize the spectra reflectivity to 100 % at maximum. In order to reduce the reflectance dataset, a decimation filter is used, obtaining one value for each 10 nm. Subsequently, a cluster analysis using as input data the decimated reflectance values for each sample results in a dendrogram that deduces assemblages of SWIR active minerals.

The effectiveness of this methodology is illustrated with a study of the Acoculco Caldera, which is a geothermal prospective area. Two major alteration zones have been recognized: a shallow one with ammonium illite, and a deeper one with epidote–calcite–chlorite. Four additional mineral assemblages have been identified: (a) buddingtonite and (b) smectite, in the recent volcanic sequence, and (c) calcite marble and (d) granitic rocks, in the Mesozoic basement. The shallow alteration zone extends to a depth of 500–600 m, affecting most of the caldera sequence. It consists of a pervasive ammonium-argillic alteration of ignimbrites and dacitic lavas. Although ammonium illite is the main alteration mineral, kaolinite (sensu lato), buddingtonite and smectite locally occur at depths down to 300 m. The occurrence of ammonium silicates suggests temperatures above 200 °C. There is a positive correspondence between the abundance of ammonium minerals and the total nitrogen content of the rocks. The highest value (0.65 N wt. % ) corresponds to a sample rich in buddingtonite. Ammonia is probably derived from the organic matter in the Mesozoic sedimentary series underlying the caldera.