Mapping of clay soils exposed to the shrinking - swelling phenomenon, with EO - 1 - Hyperion data in the region of Sidi - Chahmi, Algeria

Journal of Mining and Earth Sciences Pub Date : 2021-12-31 DOI:10.46326/jmes.2021.62(6).01

F. Rahal, F. Z. B. Hamed, M. Hadjel

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Abstract

Satellite images have a remarkable ability to help researchers map the distribution and detect the nature of the soil exposed on the earth's surface. The remote-sensing mapping of clayey soils makes it possible to determine their shrinking-swelling potentials. This approach is helpful in analyzing large areas where the traditional sampling approach with laboratory analysis is expensive. This high cost often leads to a limited number of samples and thus to a poor representation of a site with an underestimation of the presence of swelling soils. The Sidi - Chahmi area is representative of this type of soil. In addition, it is an area that undergoes the substantial urban sprawl of the city of Oran. The urbanization of this area is under the risk of clay-type soil movements, the identification of which by satellite imagery may help mitigate shrink-swell risk. EO-1-Hyperion hyperspectral images, whose effectiveness has already been proven for mapping clay minerals, were used to identify minerals such as illite, montmorillonite, and kaolinite in the Sidi - Chahmi area.

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阿尔及利亚Sidi - Chahmi地区EO - 1 - Hyperion数据绘制受收缩-膨胀现象影响的粘土图

卫星图像具有非凡的能力，可以帮助研究人员绘制地表土壤的分布图，并探测地表土壤的性质。粘质土的遥感制图使其缩胀势的测定成为可能。这种方法有助于分析大面积的区域，传统的取样方法与实验室分析是昂贵的。这种高成本往往导致样品数量有限，因此对场地的代表性较差，对膨胀土的存在估计不足。西迪-查赫米地区是这类土壤的代表。此外，它是一个经历了奥兰市大量城市扩张的地区。该地区的城市化面临着粘土类土壤运动的风险，卫星图像对粘土类土壤运动的识别有助于减轻收缩膨胀风险。EO-1-Hyperion高光谱图像的有效性已被证明可用于绘制粘土矿物，用于识别Sidi - Chahmi地区的伊利石、蒙脱石和高岭石等矿物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Mining and Earth Sciences

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