Extraction of Prospecting Information for Sedimentary-Metamorphic Type Iron Deposit Based on Ziyuan-3 Satellite Data — Taking Xinjiang Taxkorgan Area as an Example

Ling Chen; Yan Zhou; Wei Zhang

doi:10.4028/www.scientific.net/AMR.1010-1012.1365

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Extraction of Prospecting Information for Sedimentary-Metamorphic Type Iron Deposit Based on Ziyuan-3 Satellite Data — Taking Xinjiang Taxkorgan Area as an Example
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1010-1012Extraction of Prospecting Information for...

Extraction of Prospecting Information for Sedimentary-Metamorphic Type Iron Deposit Based on Ziyuan-3 Satellite Data — Taking Xinjiang Taxkorgan Area as an Example

Abstract:

In this study, the significance and content of prospecting information of sedimentary-metamorphic type iron deposit are expounded. Ziyuan-3 high spatial resolution satellite data are used to extract the prospecting information of sedimentary-metamorphic type iron deposit in taxkorgan area in Xinjiang. By using the pertinent methods of image processing, the information of ore-bearing bed, ore-control structures have been extracted, and based on the ferric altered mineral spectrum characteristics, the ratio method also has been used to extract iron mineral anomalies in study area. Based on the ore-control structure, ore-bearing rocks and ferric anomalies information, 2 remote sensing prospecting targets have been circled. Our research have laid foundation for the evaluation of mineral resources in this region, and also broadened the thinking for domestic high resolution image scale application in geology and mineral resources.

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Periodical:

Advanced Materials Research (Volumes 1010-1012)

Pages:

1365-1371

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1010-1012.1365

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Online since:

August 2014

Authors:

Ling Chen, Yan Zhou, Wei Zhang

Keywords:

Extraction of Prospecting Information, Sedimentary-Metamorphic Type Iron Deposit, Xinjiang Taxkorgan Area, ZiYuan-3 Satellite Image

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References

[1] Y. B. Liu, X. P. Gong, B. Chen, Z. Wang, and Y. S. Wu: Acta Geol. Sin, vol. 86, issue 6, 1005-1019, (2012).

Google Scholar

[2] B. F. Shen, A. M. Zhai, C. L. Yang, and X. L. Cao: Geol. Surv. Res, vol. 28, issue 4: 196-206, 2005(in Chinese with English abstract).

Google Scholar

[3] F. Wang, S.P. Song, F, D. Meng, Y. J. Xiang, andW, H. Wang: Geomat. Spat. Inf. Technol, vol. 36, issue 7, 110-114, 2013(in Chinese with English abstract).

Google Scholar

[4] W. Xu, X. X. Long, W. Y. Yu, and Q. P. Li: Spacecr. Rec. Rem. Sens, vol. 33, issue 3, 55-63, 2012(in Chinese with English abstract).

Google Scholar

[5] G. R. Xu, Z. A. Yang: Geol. Prosp, vol. 39, issue 6, 21-24, 2003(in Chinese with English abstract).

Google Scholar

[6] Y. J. Zhang, J. M. Yang and F. J. Yao: Earth Sci. Front, vol. 14, issue 5, 63-70, (2007).

Google Scholar

[7] L. Chen, W. Zhang, Y. Zhou, W. Liu, and W. Chen: Geol. Prosp, vol. 48, issue 5, 1039-1048, 2012(in Chinese with English abstract).

Google Scholar

[8] F.J. Lu, L. X. Xing, J. Z. Fan, J. Pan, T. Meng, and Q. J. He: Geol. Prosp, vol. 42, issue 2, 65-68, 2006(in Chinese with English abstract).

Google Scholar

[9] L. Zhou, Z.A. Yang, G. C. Zhu, D. W. Wu, and A. Q. Xiang: Geol. Prosp, vol. 42, issue 6, 71-76, 2006(in Chinese with English abstract).

Google Scholar

[10] J. W. Hu, D. Z. Zhuang and W. Z. Yang: Geolo. Bul. Chin, vol. 29, issue 10, 1495-1503, 2010(in Chinese with English abstract).

Google Scholar

[11] R. X. Wang, , M. Shi, J. G. Gao, and W. R. Li: Rem. Sens. Land Res, vol. 22, issue 3, 65-69, 2009(in Chinese with English abstract).

Google Scholar

[12] Z. L. Zhang, Q. M. Qin, B. Cao, Y.H. Zhang, and B. S. Li: Geogr. Geo-inf. Sci, vol. 23, issue 3, 15-18, 2007(in Chinese with English abstract).

Google Scholar

[13] Y. J. Zhang, F. J . Yao: Acta Petrog. Sin, vol. 25, issue 4, 963-970, (2009).

Google Scholar

[14] X. X. Geng, J. M. Yang, F. J. Yao, F. Q. Yang, F. Liu, F.M. Cai, and Z. X. Zhang: Geol. Rev, vol. 56, issue 3, 367-375, (2010).

Google Scholar