Extraction of Mineral Alteration Zone from ETM+ Data in Northwestern Yunnan, China

Journal of China University of Geosciences Pub Date : 2008-08-01 DOI:10.1016/S1002-0705(08)60075-8

Zhao Zhifang , Zhang Yujun , Cheng Qiuming , Chen Jianping

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引用次数: 6

Abstract

Alteration is regarded as significant information for mineral exploration. In this study, ETM+ remote sensing data are used for recognizing and extracting alteration zones in northwestern Yunnan, China. The principal component analysis (PCA) of ETM+ bands 1, 4, 5, and 7 was employed for OH⁻ alteration extractions. The PCA of ETM+ bands 1, 3, 4, and 5 was used for extracting Fe²⁺ (Fe³⁺) alterations. Interfering factors, such as vegetation, snow, and shadows, were masked. Alteration components were defined in the principal components (PCs) by the contributions of their diagnostic spectral bands. The zones of alteration identified from remote sensing were analyzed in detail along with geological surveys and field verification. The results show that the OH⁻ alteration is a main indicator of K-feldspar, phyllic, and prophilized alterations. These alterations are closely related to porphyry copper deposits. The Fe²⁺ (Fe³⁺) alteration indicates pyritization, which is mainly related to hydrothermal or skarn type polymetallic deposits.

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从滇西北ETM+资料中提取蚀变带

蚀变被认为是矿产勘探的重要信息。本研究利用ETM+遥感数据对滇西北蚀变带进行识别和提取。采用ETM+谱带1、4、5和7的主成分分析（PCA）进行OH−改变提取。ETM+带1、3、4和5的PCA用于提取Fe2+（Fe3+）变化。植被、积雪和阴影等干扰因素被掩盖了。主成分中的变化成分是通过其诊断谱带的贡献来定义的。结合地质调查和现场验证，对遥感确定的蚀变带进行了详细分析。结果表明，OH−蚀变是钾长石、千枚岩和亲石化蚀变的主要标志。这些蚀变与斑岩型铜矿密切相关。Fe2+（Fe3+）蚀变为黄铁矿化，主要与热液型或矽卡岩型多金属矿床有关。

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Journal of China University of Geosciences

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