Soil Quality Investigation of an Abandoned Mine Area Using Geochemical and Geospatial Approach in Jantang Village

N. Aflah, Mulkal Mulkal, M. Muchlis, H. Harisman, Alisastromijoyo Alisastromijoyo, M. R. Lubis, Jessica Anggraini
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Abstract

The physical and chemical environmental impact in a mining area is inevitable, particularly for open pit mining areas. The impact could affect soil and water quality where mining activities, such as land clearing, blasting and hauling, occur. Thus, environmental monitoring in mining areas should be taken to measure the impact of mining activity for reclamation purposes. The objective of this research focuses on the measure of environmental impact on soil quality in terms of the nutrient content in an abandoned mine area at Jantang village, Lhoong, Aceh Besar. The research was conducted by collecting 15 soil samples, followed by laboratory analysis using atomic absorption spectrophotometry to investigate sampled 'soil's nutrients which are pH, Carbon (C-organic), Nitrogen (N-total), Phosphor (P-availability), and Ferro substance (Fe-concentration). In addition, to estimate the soil properties at locations outside the sampling area, a spatial interpolation method called inverse distance weight with an optimum power was used. The result shows that the soil is acidic, with low C-organic in the range of 0.02%–1.84%, N-total 0.02%–0.16%, and P-availability 0.55%–3.75%. In contrast, the Fe-concentration is very high, at 3000–3400 ppm.
应用地球化学和地理空间方法对詹塘村废弃矿区土壤质量的调查
矿区的物理和化学环境影响是不可避免的,尤其是露天矿区。这种影响可能会影响土地清理、爆破和运输等采矿活动所在地的土壤和水质。因此,应在矿区进行环境监测,以衡量采矿活动对复垦的影响。本研究的目的是根据亚齐省贝萨尔省Lhoong市Jantang村废弃矿区的养分含量来衡量环境对土壤质量的影响。这项研究通过收集15个土壤样本进行,然后使用原子吸收分光光度法进行实验室分析,以研究采样土壤的营养成分,即pH、碳(C-有机物)、氮(N-总量)、磷(P-有效性)和铁物质(Fe浓度)。此外,为了估计采样区以外位置的土壤性质,使用了一种称为最优幂的反距离权重的空间插值方法。结果表明,土壤呈酸性,低碳有机质含量在0.02%-1.84%之间,氮总量在0.02%-0.16%之间,磷有效性在0.55%-3.75%之间。相比之下,铁的浓度非常高,在3000-3400 ppm之间。
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