A COMBINED METHOD OF 1D AND 2D RESISTIVITY FOR GROUNDWATER LAYER ESTIMATION AT A FARMING AREA IN REJOMULYO VILLAGE

Spektra: Jurnal Fisika dan Aplikasinya Pub Date : 2023-04-29 DOI:10.21009/spektra.081.04

R. M. Antosia, M. Ramdan

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Abstract

The groundwater depends on when it is available, more in the rainy and less in the dry seasons. Fluctuation in water availability is a significant problem in activities continuously requiring large amounts of water, such as agriculture. Hence, it is necessary to increase the number of water resources to meet the community's needs. Therefore, the groundwater layer zone was estimated as an initial study at the dry farmland in Rejomulyo village, Jati Agung district, South Lampung, using a combined method between the 1D resistivity method of the Schlumberger array and the 2D form of the Wenner configuration. Each sounding point and the 2D line have a maximum stretch length of 300 m. The 1D outcome correlates to the 2D data processing result to produce a subsurface lithology model. As a result, the research area has three primary layers with three rock types. The first layer has a resistivity value of less than 20 Ωm and is identified as tuffaceous clay. Then the second layer with a resistivity range of 60–66 Ωm is tuffaceous sand, this rock which is referred to as the groundwater layer with a depth of 11-40 m. The last layer has a high resistivity value of 120–141 Ωm as tuff. Based on the results of 3D visualization, the groundwater layer in the study area spreads to the southeast with a confined aquifer type. This targeted rock layer can be utilized for groundwater production.

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一、二维电阻率联合法在新木柳村农区地下水位估算中的应用

地下水取决于什么时候能得到，雨季多，旱季少。在农业等持续需要大量水的活动中，可用水量的波动是一个重大问题。因此，有必要增加水资源的数量来满足社会的需求。因此，在South Lampung Jati Agung区Rejomulyo村的干旱农田，采用Schlumberger阵列的一维电阻率法和Wenner配置的二维形式相结合的方法，对地下水层带进行了初步研究。每个测深点和2D线的最大延伸长度为300 m。一维结果与二维数据处理结果相关联，从而产生地下岩性模型。因此，研究区有3个主要层，3种岩石类型。第一层电阻率值小于20 Ωm，确定为凝灰质粘土。第二层为凝灰质砂，其电阻率范围为60 ~ 66 Ωm，称为地下水层，深度为11 ~ 40 m。最后一层为凝灰岩，电阻率值为120 ~ 141 Ωm。三维可视化结果显示，研究区地下水层向东南延伸，为承压含水层类型。该目标岩层可用于地下水开采。

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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Spektra: Jurnal Fisika dan Aplikasinya

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