Utilization of Gravimetric Satellite Data for Delineating of Subsurface Model of The Purwokerto-Purbalingga Groundwater Basin

Q3 Social Sciences Indonesian Journal of Geography Pub Date : 2022-12-20 DOI:10.22146/ijg.72466
Sehah Sehah, U. N. Prabowo, S. A. Raharjo, Laila Ariska
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Abstract

The utilization of gravimetric satellite data has been carried out to delineate the subsurface model of the Purwokerto-Purbalingga Groundwater Basin. Access and processing of satellite gravity anomalies data were carried out to obtain the residual gravity anomalies data. Modeling of the residual gravity anomalies data was conducted along the AA′, BB′, and CC′ trajectories. The modeling results show a basin model filled by alluvial deposits (1.75 g/cm3 and 2.28 g/cm3) with a maximum depth of about 402 m for the AA′ trajectory, 543 m for the BB′ trajectory, and 463 m for the CC′ trajectory. The modeling results show that this alluvial basin is delimited by impermeable and semi-impermeable layers, which include laharic deposits of Slamet Volcano (2.61 g/cm3), andesite lava deposits (2.90 g/cm3), Tapak formation rocks (2.50 g/cm3), breccia rocks of Tapak formation (2.70 g/cm3), and breccia rocks of Halang formation (2.80 g/cm3). The fairly large thickness of alluvial deposits supported by dug-well water tables data and resistivity data indicates that the potential of groundwater in the Purwokerto-Purbalingga Groundwater Basin area is very large. The results of the study are expected to be a solution to overcome droughts that often occur in the Banyumas and Purbalingga regencies, as well as for the development of groundwater-based irrigation.
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利用卫星重力数据圈定Purwokerto-Purbalingga地下水盆地地下模型
利用重力卫星数据绘制了Purwokerto Purbalingga地下水盆地的地下模型。对卫星重力异常数据进行了访问和处理,以获得剩余重力异常数据。沿AA′、BB′和CC′轨迹对剩余重力异常数据进行了建模。建模结果显示,由冲积沉积物(1.75 g/cm3和2.28 g/cm3)填充的盆地模型,AA′轨迹的最大深度约为402 m,BB′轨迹为543 m,CC′轨迹为463 m。建模结果表明,该冲积盆地由不渗透层和半不渗透层界定,包括Slamet火山的熔岩矿床(2.61g/cm3)、安山岩熔岩矿床(2.90g/cm3)、Tapak组岩石(2.50g/cm3)、Tapak组角砾岩(2.70g/cm3)和Halang组角砾岩岩石(2.80g/cm3)。由挖井地下水位数据和电阻率数据支持的相当大的冲积层厚度表明,Purwokerto Purbalingga地下水盆地区域的地下水潜力非常大。这项研究的结果有望成为克服Banyumas和Purbalingga县经常发生的干旱以及发展地下水灌溉的解决方案。
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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来源期刊
Indonesian Journal of Geography
Indonesian Journal of Geography Social Sciences-Geography, Planning and Development
CiteScore
1.30
自引率
0.00%
发文量
32
审稿时长
8 weeks
期刊介绍: Indonesian Journal of Geography ISSN 2354-9114 (online), ISSN 0024-9521 (print) is an international journal published by the Faculty of Geography, Universitas Gadjah Mada in collaboration with The Indonesian Geographers Association. Our scope of publications include physical geography, human geography, regional planning and development, cartography, remote sensing, geographic information system, environmental science, and social science. IJG publishes its issues three times a year in April, August, and December. Indonesian Journal of Geography welcomes high-quality original and well-written manuscripts on any of the following topics: 1. Geomorphology 2. Climatology 3. Biogeography 4. Soils Geography 5. Population Geography 6. Behavioral Geography 7. Economic Geography 8. Political Geography 9. Historical Geography 10. Geographic Information Systems 11. Cartography 12. Quantification Methods in Geography 13. Remote Sensing 14. Regional development and planning 15. Disaster The Journal publishes Research Articles, Review Article, Short Communications, Comments/Responses and Corrections
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