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Volume 4 Issue 1
Mar.  2016
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GUO Li-jun, YAN Ya-ya, GUO Li-na, et al. 2016: GIS-based spatial and temporal changes of land occupation caused by mining activities-a study in eastern part of Hubei Province. Journal of Groundwater Science and Engineering, 4(1): 60-68.
Citation: GUO Li-jun, YAN Ya-ya, GUO Li-na, et al. 2016: GIS-based spatial and temporal changes of land occupation caused by mining activities-a study in eastern part of Hubei Province. Journal of Groundwater Science and Engineering, 4(1): 60-68.

GIS-based spatial and temporal changes of land occupation caused by mining activities-a study in eastern part of Hubei Province

  • By using multi-source and multi-temporal high resolution remote sensing data and related techniques of remote sensing and geographic information systems, this paper analyzes the spatial and temporal changes of land occupation caused by mine development in four mining areas of eastern Hubei Province from 2011 to 2014, including Chengchao-Tieshan iron-copper polymetallic deposit area, Daye-Yangxin iron-copper polymetallic deposit area, E-Nan mining area, and Wuxue-Yangxin non-metallic mining area along the Yangtze River. The results show that: In the research area, land occupation of energy mine exploitation is small and in scattered distribution, with coal mine occupying the largest area, showing a downward trend in four years; land occupation of metal mines is large and in centralized distribution, with iron mine and copper mine occupying the largest area, showing a downward trend in four years; non-metallic mines are large and in great quantity, with mines of limestone for building and limestone occupying the largest area, showing a upward trend in four years.
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  • FENG Chun-tao, ZHENG Juan-er. 2014. Study on establishing stimulation mechanism policy for rehabilitating mining environment in mineral exploration and development. China Population Resources and Environment, (S3): 48-51.
    XIA Jin-long, HU Ming-an, et al. 2009. Geochemistry constraint on the ore-forming materials of the Chengchao Iron Deposit, Hubei Province. Geoscience, 23(2): 285- 291.
    QI Xiao-ying, YANG Wu-nian, et al. 2008. An automatic extraction method of mining area expanding remote sensing image-a study on Panzhihua vanadium titanium magnetiteore. Science of Surveying and Mapping, 33(3): 76-78.
    ZHANG Zhi. 2014. Annual report of remote sensing monitoring project for mine development in major ore concentration areas in Hubei Province.
    ZHANG Xiao-jun, HU Ming-an. 2008. Distribution and accumulation of heavy metal elements from soil-plant system in Tieshan, Southeast Hubei Province. Geological Science and Technology Information, 27(2): 103-107.
    YANG Xian-hua, HUANG Jie, et al. 2012. The application of remote sensing technique to the study of present situation and changes of land occupied by main mines in Sichuan. Acta Geologica Sichuan, 32(4): 482-486.
    HE Liang-zhu, HONG Jin-yi, et al. 2013. Research on extraction of land information used by mining development based on IKONOS remote sensing data. Remote Sensing for Land & Resources, 25(1): 150-154.
    CAO Hui, LI Qiao-yun, et al. 2014. Temporal distribution of illegal land occupation in Yongzhou, Hunan and analysis of changes. Journal of Zhejiang Agricultural Sciences, (7): 1099-1103.
    CHANG Ling, YU Hao, et al. 2014. Study of dynamic monitoring of mine development area in Wucaiwan based on multi-source remote sensing data. Xinjiang Nonferrous Metal, (z1): 92-95.
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