Impact assesment of mining activities on the surface and subsurface water condition of Ramgarh, Jharkhand, India by using geospatial techniques

IF 1.1 Q3 MINING & MINERAL PROCESSING Journal of Mining and Environment Pub Date : 2021-06-30 DOI:10.22044/JME.2021.10644.2048
S. Jha, P. Warwade, Sandeep Kumar Mahto
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Abstract

This work illustrates the impact of excessive mining on the precipitation trends and ground water condition of the Ramgarh district over a period of 12 years (2007-2018). The Landsat 8 and Landsat TM- 5 data is processed under Arc-GIS in order to compare the LULC maps. Out of 7 classified classes, the Results obtained indicate the expansion of the mining area, barren land, settlement, and water body by 10.95%, 10.07%, 3.44%, and 0.43%, while a reduction in the forest, fallow, and crop land by 11.24%, 11.31%, and 2.34% respectively. The TRMM 3B43 data is used to trace out the annual precipitation values of 5 selected raster location points through Arc GIS. The annual precipitation under the mining regions (lower Mandu, Ramgarh, Bhurkunda) shows a decreasing trend. The Mann-Kendall test and Sen’s slope estimator method is used in order to evaluate the ground water pattern in the pre- and post-monsoonal conditions. The Mandu block, the densest mining region of the district with the positive Z values of 1.714 and 0.137 in the pre- and post- monsoon period shows a decrease in the ground water level at the rates of 0.103 m/year and 0.017 m/year, respectively. The continuous rise in the mining activities has created an alarming shift of weather pattern and deteriorated ground water table in Ramgarh.
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利用地理空间技术评价采矿活动对印度贾坎德邦拉姆加尔地表水和地下水状况的影响
这项工作说明了在12年(2007-2018年)的时间里,过度采矿对拉姆加尔地区降水趋势和地下水状况的影响。陆地卫星8号和陆地卫星TM-5号数据在Arc GIS下进行处理,以比较LULC地图。结果表明,在7个分类类别中,采矿区、荒地、定居点和水体分别扩大了10.95%、10.07%、3.44%和0.43%,而森林、休耕地和耕地分别减少了11.24%、11.31%和2.34%。TRMM 3B43数据用于通过Arc GIS追踪选定的5个栅格定位点的年降水量值。矿区(下曼杜、拉姆加尔、布尔昆达)下的年降水量呈下降趋势。使用Mann-Kendall检验和Sen斜率估计方法来评估季风前后条件下的地下水模式。Mandu区块是该地区最密集的矿区,在季风前后,Z值分别为1.714和0.137,地下水水位分别以0.103米/年和0.017米/年的速度下降。采矿活动的持续增加造成了拉姆加尔天气模式的惊人转变和地下水位的恶化。
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来源期刊
Journal of Mining and Environment
Journal of Mining and Environment MINING & MINERAL PROCESSING-
CiteScore
1.90
自引率
25.00%
发文量
0
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