INVESTIGATION OF GROUNDWATER SOURCES IN BANYOL HAMLET MALANG REGENCY USING THE GEOELECTRICAL RESISTIVITY METHOD TO OVERCOME DROUGHT STRATEGY

Alamsyah M. Juwono; Adi  Susilo; Muhammad Fathur Rouf  Hasan; Nieske Ari  Yunika; Achmad Achdan  Annabil; Mochammad Wafa Husain  Mujtaba; Saffanatul  Haniyyah

doi:10.29303/ipr.v7i2.320

INVESTIGATION OF GROUNDWATER SOURCES IN BANYOL HAMLET MALANG REGENCY USING THE GEOELECTRICAL RESISTIVITY METHOD TO OVERCOME DROUGHT STRATEGY

Authors

Alamsyah M. Juwono , Adi Susilo , Muhammad Fathur Rouf Hasan , Nieske Ari Yunika , Achmad Achdan Annabil , Mochammad Wafa Husain Mujtaba , Saffanatul Haniyyah

DOI:

10.29303/ipr.v7i2.320

Published:

2024-04-02

Issue:

Vol. 7 No. 2 (2024)

Keywords:

Resistivity, Schlumberger, Aquifer, Drought, Malang Regency

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Juwono, A. M., Susilo, A. ., Hasan, M. F. R. ., Yunika, N. A. ., Annabil, A. A. ., Mujtaba, M. W. H. ., & Haniyyah, S. . (2024). INVESTIGATION OF GROUNDWATER SOURCES IN BANYOL HAMLET MALANG REGENCY USING THE GEOELECTRICAL RESISTIVITY METHOD TO OVERCOME DROUGHT STRATEGY. Indonesian Physical Review, 7(2), 240–248. https://doi.org/10.29303/ipr.v7i2.320

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Abstract

The drought in Banyol Hamlet, Malang Regency, severely impacts community sustainability. This problem can be overcome if the hamlet has a groundwater source; theoretically, groundwater can be detected using geoelectric resistivity. This research aims to investigate the existence of aquifer layers in Banyol Hamlet, Malang Regency, using the resistivity method Schlumberger configuration. Resistivity data was measured at 5 points with a track stretch of 400 m and a distance between electrodes of 5 m; then, three parallel measurement points were interpolated into a 2D cross-section. Based on the analysis, the presence of the aquifer is considered to be in the breccia tuff layer because the resistivity value is lower than usual in this layer. So, we assume that the tuff breccia rocks can act as an aquifer in the study area. The results of the 2D cross-section show that the shallow aquifer is found at a depth of 10-22 m with a resistivity value of around 30.78 Ωm - 314 Ωm. and a deep aquifer at a depth of 40-125 m with a resistivity value of around 22.34 Ωm - 192 Ωm. So drilling is recommended at measurement points SS-1 and SS-3 in deep aquifers because the thicker the soil layer, the more water infiltration.

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Author Biographies

Adi Susilo, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Geophysics

Muhammad Fathur Rouf Hasan, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia and Civil Engineering Department, Politeknik Negeri Jakarta, Indonesia

Geophysics

Nieske Ari Yunika, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Geophysics

Achmad Achdan Annabil, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Geophysics

Mochammad Wafa Husain Mujtaba, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Geophysics

Saffanatul Haniyyah, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Geophysics

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INVESTIGATION OF GROUNDWATER SOURCES IN BANYOL HAMLET MALANG REGENCY USING THE GEOELECTRICAL RESISTIVITY METHOD TO OVERCOME DROUGHT STRATEGY

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DOI:

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Articles

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How to Cite

Abstract

References

Author Biographies

Adi Susilo, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Muhammad Fathur Rouf Hasan, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia and Civil Engineering Department, Politeknik Negeri Jakarta, Indonesia

Nieske Ari Yunika, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Achmad Achdan Annabil, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Mochammad Wafa Husain Mujtaba, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

Saffanatul Haniyyah, Physics department, Faculty Mathematics and Natural Science, Brawijaya University, Indonesia

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