Abstract
Electrical resistivity tomography and induced polarization studies were conducted for groundwater exploration in eight selected agricultural sites in Brunei Darussalam. The study was undertaken to meet the growing demands for water supply in the agricultural sector, particularly for paddy field irrigation purposes. This study conducted nineteen surveys with lengths of up to 800 m and a depth of investigation of up to 150 m below ground level. 2D inverted resistivity and chargeability models delineated subsurface geological formations and aquifer zones in the study area. Aquifer zones were detected in all the investigated sites, with resistivity values ranging from 1 to 100 Ω m and chargeability values ranging from 0 to 10 ms. Based on the resistivity and chargeability interpretations, two new groundwater wells were drilled and constructed in two of the investigated sites. Borehole drilling encountered aquifer zones primarily in sand and sandstone layers. Hydraulic tests of the newly drilled boreholes revealed groundwater yields of 4.3 and 288 m3/day. Transmissivity values of the aquifer units estimated using the Cooper–Jacob time-drawdown solutions are 0.53 and 109 m2/day, while their hydraulic conductivity values are 0.05 and 2.75 m/day, respectively. Our findings suggest weak to moderate groundwater yield for withdrawal and distribution for irrigation purposes in the investigated sites. The present study helped decision-makers take suitable measures for placing future groundwater irrigation wells and achieve significant groundwater exploration results in the study area and other areas with similar geological settings.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Explore related subjects
Discover the latest articles and news from researchers in related subjects, suggested using machine learning.References
Aizebeokhai AP, Oyeyemi KD (2014) The use of the multiple-gradient array for geoelectrical resistivity and induced polarization imaging. J Appl Geophys 111:364–375
Alabi AA, Ogungbe AS, Adebo B, Lamina O (2010) Induced polarization interpretation for subsurface characterization: a case study of Obadore, Lagos state. Arch Phys Res 1:34–43
Annuar UM, Noridana MM (2018) Aquifer detection using 2D resistivity method and porosity calculation. J Teknologi (Sci Eng) 80(6):149–158
Ashraf MA, Yusoh RS, Abidin MH (2018) Aquifer characterization and groundwater potential evaluation in sedimentary rock formation. J Phys 995:012106
Azffri SL, Azaman A, Sukri RS, Jaafar SM, Ibrahim MF, Schirmer M, Gödeke SH (2022) Soil and groundwater investigations for sustainable agricultural development: a case study from Brunei Darussalam. Sustainability 14:1388
Azhar AS, Abdul Latiff AH, Lim LH, Gödeke SH (2019) Groundwater investigation of a coastal aquifer in Brunei Darussalam using seismic refraction. J Environ Earth Sci 78:220
Aziman M, Hazreek ZA, Azhar AT, Fahmy KA, Faizal TB, Sabariah M, Ismail MA (2018) Electrical resistivity technique for groundwater exploration in quaternary deposit. J Phys 995:012110
Bailie P, Darman H, Fraser TH (2004) Deformation of Cenozoic basins of Borneo and West Sulawesi. Proceedings of Deepwater and Frontier Exploration In Asia & Australasia Symposium. Jakarta: Indonesian Petroleum Associations.
BDMD (2021) Climate. Retrieved from Brunei Darussalam Meteorological Department. www.bruneiweather.com.bn. Accessed 15 Oct 2021
Binley A (2015) Tools and techniques: Electrical methods. In: Gerald S (editor-in-chief) Treatise on Geophysics 2nd edn, Oxford, Elsevier, vol 11, pp 233–259. https://doi.org/10.1016/B978-0-444-53802-4.00192-5.
Chuan GK (1992) Hydrological characteristics and water resources. Singapore J Trop Geogr 13(1):25–37
Cooper HH, Jacob CE (1946) A generalized graphical method for evaluating formation constants and summarising well-field history. EOS Trans Am Geophys Union 27(4):526–534
Custodio E (2002) Overexploitation, what does it mean? Hydrogeol J 10(2):254–277
Dahlin T (1996) 2D resistivity surveying for environmental and engineering applications. First Break 14:275–283
Dahlin T (2001) The development of DC resistivity imaging techniques. Comput Geosci 27:1019–1029
Dahlin T, Zhou B (2006) Multiple-gradient array measurement for multichannel 2D resistivity imaging. Near Surf Geophys 4(2):113–123
Dalin C, Wada Y, Kastner T, Puma MJ (2017) Groundwater depletion embedded in international food trade. Nat 543(7647):700–704
Defourny A, Nguyen F, Collignon A, Jobé P, Dassargues A, Kremer T (2020) Induced polarization as a proxy for CO2-rich groundwater detection—evidences from the Ardennes, South-East of Belgium. Water 12:1394. https://doi.org/10.3390/w12051394
DEPS (2021) Population. Retrieved from Department of Economical Planning and Statistics. www.deps.gov.bn. Accessed 6 Dec 2021
De Wiest RJM (1965) Geohydrology. John Wiley, New York
Essink G (2001) Improving fresh groundwater supply—problems and solutions. Contribution of working group II to the third assessment report of the intergovernmental panel on climate change. Ocean Coast Manag 44:429–449
FAO (2011) AQUASTAT Country Profile—Brunei Darussalam. Food and Agriculture Organisation of the United Nations (FAO) Rome, Italy.
Galazoulas EC, Mertzanides YC, Petalas CP, Kargiotis EK (2015) Large scale electrical resistivity tomography survey correlated to hydrological data for mapping groundwater salinization: a case study from multilayered coastal aquifer in Rhodope, Northeastern Greece. Environ Process 2:19–25
Giordano M, Villholth KG (2007) The agricultural groundwater revolution: opportunities and threats to development. International Water Management Institute Colombo, Sri Lanka, 420p.
Gӧdeke SH, Geistlinger H, Fischer A, Richnow HH, Wachter T, Schirmer M (2008) Simulation of a reactive tracer experiment using stochastic hydraulic conductivity fields. Environ Geol 55(6):1255–1261. https://doi.org/10.1007/s00254-007-1073-3
Gӧdeke SH, Malik OA, Lai DTC, Bretzler A, Schirmer M, Mansor NH (2020) Water quality investigation in Brunei Darussalam: investigation of the influence of climate change. Environ Earth Sci 79:18. https://doi.org/10.1007/s12665-020-09157-2
Goldman M, Neubauer FM (1994) Groundwater exploration using integrated geophysical techniques. Surv Geophys 15:331–361
Grealish GJ, Fitzpatrick RW (2013) Acid sulphate soil characterization in Negara Brunei Darussalam: a case study to inform management decisions. Soil Use Manage 29:432–444. https://doi.org/10.1111/sum.12051
Green TR, Taniguchi M, Kooi H, Gurdak JJ, Allen DM, Hiscock KM, Treidel H, Aureli A (2011) Beneath the surface of global change: impacts of climate change on groundwater. J Hydrol 405:532–560
Hall R (1997) Cenozoic tectonics of SE Asia and Australasia. In: Howes JVC, Noble RA (eds) Petroleum systems of SE Asia and Australasia. Indonesian Petroleum Association, Jakarta, pp 47–62
Hall R, Nichols G (2002) Cenozoic sedimentation and tectonics in Borneo: climatic influences on orogenesis. In: Jones SJ, Frostick L (eds) Sediment flux to basins: causes, controls and consequences. Geological Society London, Special Publications, London, pp 5–22
Hazreek ZAM, Rosli S, Chitral WD, Fauziah A, Azhar ATS, Aziman M, Ismail B (2015) Soil identification using field electrical resistivity method. J Phys 622(1):012030
Hutchison CS (2005) Geology of North-West Borneo: Sarawak, Brunei and Sabah. Elsevier, Amsterdam, p 421
Jia H, Qian H, Zheng L, Feng W, Wang H, Gao Y (2020) Alterations of groundwater chemistry due to modern water transfer for irrigation over decades. Sci Total Environ 717:137170. https://doi.org/10.1016/j.scitotenv.2020.137170
Kachi N, Kachi S, Bousnoubra H (2016) Effects of irrigated agriculture on water and soil quality (case perimeter Guelma, Alge-ria). Soil Water Res 1:97–104. https://doi.org/10.17221/81/2015-SWR
Kearey P, Brooks M, Hill I (2002) An Introduction to Geophysical Exploration, 3rd edn. Blackwell Science Ltd, Hoboken
Keller GV, Frischknect FC (1996) Electrical methods in geophysical prospecting. Pergamon Press Inc, Oxford
Kumar D, Mondal S, Nanda MJ, Harini P, Soma Sekhar BMV, Sen MK (2016a) Two-dimensional electrical resistivity tomography (ERT) and time-domain-induced polarization (TDIP) study in hard rock for groundwater investigation: a case study at Choutuppal Telangana. India Arab J Geosci 9(5):1–15. https://doi.org/10.1007/s12517-016-2382-1
Kumar D, Mondal S, Soma Sekhar BMV, Balaji T, Nanda MJ, Rangarajan R (2016b) Full waveform inversion of 2D resistivity and IP data for groundwater exploration in granite aquifers: Implications for complex tectonic setting. J Appl Hydrol 1–4:9–19
Kumar D, Mondal S, Warsi T (2020a) Deep insight into the complex aquifer and its characteristics from high-resolution electrical resistivity tomography and borehole studies for groundwater exploration and development. J Earth Syst Sci 129:68. https://doi.org/10.1007/s12040-019-1336-x
Kumar D, Rajesh K, Mondal S, Warsh T, Rangarajan R (2020b) Groundwater exploration in limestone-shale-quartzite terrain through 2D electrical resistivity tomography in Tadipatri, Anantapur district. Andhra Pradesh J Earth Syst Sci 129:1. https://doi.org/10.1007/s12040-020-1341-0
Lech M, Skutnik Z, Bajda M, Markowska-Lech K (2020) Applications of electrical resistivity surveys in solving selected geotechnical and environmental problems. Appl Sci 10:2263
Liechti P, Roe FN, Hailie NS, Kirk HJC (1960) The geology of Sarawak, Brunei and the Western part of North Borneo. Bulletin 3, vol 1&2. Geological Survey Department British Territories in Borneo. Government Printing Office, Kuching, Sarawak, p 360
Llamas MR, Martínez-Santos P (2005) Intensive groundwater use: a silent revolution that cannot be ignored. Water Sci Technol 51(8):167–174
Loke MH, Barker RD (1996) Rapid least-squares inversion of apparent resistivity pseudosections by quasi-Newton Method. Geophys Prospect 44(1):131–152
Loke MH, Dahlin T (2002) A comparison of the Gauss-Newton and quasi-Newton methods in resistivity imaging inversion. J Appl Geophy 49:149–162
Marshall DJ, Abdelhady AA, Wah DTT, Mustapha N, Gӧdeke SH, De Silva LC, Hall-Spencer JM (2019) Biomonitoring acidification using marine gastropods. Sci Total Environ 692:833–843. https://doi.org/10.1016/J.SCITOTENV.2019.07.041
Moeck C, Grech-Cumbo N, Podgorski J, Bretzler A, Gurdak JJ, Berg M, Schirmer M (2020) A global-scale dataset of direct natural groundwater recharge rates: a review of variables, processes and relationships. Sci Total Environ 717:137042. https://doi.org/10.1016/j.scitotenv.2020.137042
Mogaji KA, Olayanju GM, Oladapo MI (2011) Geophysical evaluation of rock type impact on aquifer characterization in the basement complex areas of Ondo state, Southern Nigeria: Geo-electric assessment and Geographic Information Systems (GIS) approach. J Water Res Environ Eng 3(4):77–86 (ISSN 1991-637X)
Morley C, Back S, Van Rensbergen P, Cravello P, Lambiase J (2003) Characteristics of repeated, detached Miocene-Pliocene tectonic inversion events in a large delta province on an active margin, Brunei Darussalam, Borneo. J Struct Geol 25:1147–1169
Osli LN, Shalaby MR, Islam MA (2021) Source rock characteristics and hydrocarbon generation potential in Brunei-Muara District Brunei Darussalam: a comparative case study from selected Miocene-Quaternary formations. J Pet Explor Prod. https://doi.org/10.1007/s13202-021-01142-0
Peña-Arancibia JL, Mainuddin M, Ahmad MD, Hodgson G, Ibn Murad KF, Ticehurst C, Maniruzzaman M, Golam Mahboob M, Kirby JM (2020) Groundwater use and rapid irrigation expansion in a changing climate: hydrological drivers in one of the world’s food bowls. J Hydrol. https://doi.org/10.1016/j.jhydrol.2019.124300
Provenzale A, Palazzi E (2015) Assessing climate change risks under uncertain conditions. In: Manconi A, Clague J, Shan W, Chiarle M (eds) Engineering geology for society and territory, climate change and engineering geology, vol 1. IAEG, Springer, Berlin, pp 1–5
Ranjan SP, Kazama S, Sawamoto M (2006) Effects of climate and land use changes on groundwater resources in coastal aquifers. J Environ Manage 80:25–35
Rehman F, Abuelnaga HSO, Harbi HM, Cheema T, Atef AH (2016) Using a combined electrical resistivity imaging and induced polarization techniques with the chemical analysis in determining groundwater pollution at Al Misk Lake, Eastern Jeddah, Saudi Arabia. Arab J Geosci 9:286. https://doi.org/10.1007/s12517-016-2423-9
Riwayat AI, Ahmad Nazri MA, Zainul MH (2018) Application of electrical resistivity method (ERM) in groundwater exploration. J Phys 995:012094
Saad R, Nawawi MN, Mohamad ET (2012) Groundwater detection in alluvium using 2-D electrical resistivity tomography (ERT). J Geotech Eng 17:369–376
Saller A, Blake G (2003) Sequence stratigraphy and syndepositional tectonics of upper Miocene and Pliocene deltaic sediments, offshore Brunei Darussalam. In: Sidi H et al (eds) Tropical deltas of Southeast Asia—sedimentology, stratigraphy and petroleum geology, vol 76. Society for Sedimentary Geology (SEPM) Special Publications, Oklahoma, pp 219–234
Samouëlian A, Cousin I, Tabbagh A, Bruand A, Richard G (2005) Electrical resistivity survey in soil science: a review. Soil Tillage Res 83:173–193
Sandal ST (1996) The geology and hydrocarbon resources of Negara Brunei Darussalam. Bandar Seri Begawan: Brunei Shell Petroleum Company, 243p.
Sazali Y, Gödeke S, Sazali WL, Ibrahim JM, Graham GM, Kidd SL, Ohen HA (2018). Fines migration during CO2 saturated brine flow in carbonate reservoirs with some migratory clay minerals—the Malaysian formations. Proceedings—SPE International Symposium on Formation Damage Control, 2018 (February).
Sazali YA, Sazali WML, Ibrahim JM, Dindi M, Graham G, Gödeke S (2019) Investigation of high temperature, high pressure, scaling and dissolution effects for carbon capture and storage at a high CO2 content carbonate gas field offshore Malaysia. J Pet Sci Eng 174:599–606. https://doi.org/10.1016/j.petrol.2018.11.060
Shah T, Villholth KG, Burke JJ (2006) Groundwater use in agriculture: a global assessment of scale and significance for food, livelihoods and nature. Comprehensive Assessment, International Water Management Institute.
Shen SL, Wu YX, Xu YS, Hino T, Wu HN (2015) Evaluation of hydraulic parameters from pumping tests in multi-aquifers with vertical leakage in Tianjin. Comput Geotech 68:196–207. https://doi.org/10.1016/j.compgeo.2015.03.011
Slater LD, Lesmes D (2002) IP interpretation in environmental investigations. Geophys 67:77–88
Spitz K, Moreno J (1996) A practical guide to groundwater and solute transport modelling. Wiley, New York
Sudha K, Israil M, Mittal S, Rai J (2009) Soil characterization using electrical resistivity tomography and geotechnical investigation. J Appl Geophys 67:74–79
Suhip MAABH, Gӧdeke SH, Cobb AR, Sukri RS (2020) Seismic refraction study, single well test and physical core analysis of anthropogenic degraded Peat at the Badas Peat Dome. Eng Geol, Brunei Darussalam. https://doi.org/10.1016/j.enggeo.2020.105689
Telford WM, Geldart LP, Sheriff RE (1990) Applied geophysics. Cambridge University Press, Cambridge, p 770
Tewabe D, Dessie M, Asmamaw DK, Tamiru E, Adgo E, Nyssen J, Walraevens K, Cornelis WM (2021) Comparative analysis of groundwater conditions on rain-fed and irrigated agriculture in the upper Blue Nile basin, Ethiopia. J Hydro 37:100916. https://doi.org/10.1016/j.ejrh.2021.100916
Thiagarajan S, Rai SN, Kumar D, Manglik A (2018) Delineation of groundwater resources using electrical resistivity tomography. Arab J Geosci 11(9):1–16. https://doi.org/10.1007/s12517-018-3562-y
Thornton PK, Ericksen PJ, Herrero M, Challinor AJ (2014) Climate variability and vulnerability to climate change: a review. Glob Change Biol. https://doi.org/10.1111/gcb.12581 (Wiley-Blackwell Online Open)
Torres J, Gartrell A, Hoggmascal N (2011) Redefining a sequence stratigraphic framework for the Miocene to present in Brunei Darussalam: roles of local tectonics, eustacy and sediment supply. International Petroleum Technology Conference, Bangkok, pp 15–17.
Wasil W (2018) Agri Dept to pilot irrigation system, seeks to boost rice production. https://thescoop.co/2018/09/28/agri-dept-to-pilot-irrigation-system-seeks-to-boost-rice-production/. Accessed 6 Dec 2021
Wasil W (2019) $3.9M Imang Dam upgrade to improve irrigation supply, boost rice output. https://thescoop.co/2019/02/13/3-9m-imang-dam-upgrade-to-improve-irrigation-supply-boost-rice-output/. Accessed 6 Dec 2021
Watto MA, Bashir S, Khan N (2018) Pakistan heading for groundwater crisis. In: Springer Nature, Vol 554, Macmillan Publishers Limited.
Wilford GE (1961) The geology and mineral resources of Brunei and adjacent parts of Sarawak: with descriptions of Seria and Miri oil fields. British Borneo Geological Survey, Memoirs 10, Brunei Darussalam: Brunei Press Limited.
Wu YX, Shen JS, Cheng WC, Hino T (2017) Semi-analytical solution to pumping test data with barriers, wellbore storage, and partial penetration effects. Eng Geol. https://doi.org/10.1016/j.enggeo.2017.05.011
Acknowledgements
The authors thank the Ministry of Primary Resources and Tourism, Department of Agriculture and Agrifood, Brunei Darussalam, for the supplied data and for allowing the publication of this study. Finally, the authors thank the operations team at Preston GeoCEM Brunei for valuable interactions and discussions throughout the research period.
Funding
This project was supported by research grant UBD/RSCH/URC//RG(b)/2020/017 from Universiti Brunei Darussalam.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare no conflict of interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Azffri, S.L., Ibrahim, M.F. & Gödeke, S.H. Electrical resistivity tomography and induced polarization study for groundwater exploration in the agricultural development areas of Brunei Darussalam. Environ Earth Sci 81, 233 (2022). https://doi.org/10.1007/s12665-022-10284-1
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12665-022-10284-1