Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Vertical electrical sounding technique (VES) is proposed as an alternative geoelectrical approach to estimate the hydraulic conductivity and transmissivity parameters related to the Quaternary aquifer of semiarid Khanasser valley, Northern Syria. Schlumberger array is used for carrying out the VES measurements, where three of them were made just near three existing boreholes for comparison. The conjoint analysis of the pumping tests results from the available three drilled boreholes, and the geoelectrical Dar-Zarrouk of transverse resistance (R) and longitudinal conductance (S) parameters resulted from VES interpretations allows to obtain the both parameters of the hydraulic conductivity and transmissivity Quaternary aquifer. Empirically calibrated relationship between hydraulic conductivity evaluated by using the available pumping test results and the transverse resistance (R) of the Quaternary aquifer is derived for those three boreholes. A very good agreement is noticed between the measured hydraulic conductivity from pumping tests and the one computed geophysically. The constructed calibrated relationship is thereafter applied to extrapolate and estimate both the hydraulic conductivity and the transmissivity parameters in thirty-four measured VES points in the Khanasser valley study area. Such an extrapolation allows deriving and characterizing the spatial variation maps of hydraulic conductivity and transmissivity in the study area. The acquired geophysical results give useful information, particularly on the groundwater potentiality of the study region. The developed alternative approach is successfully applied in the study area and can therefore be practiced for characterizing similar semiarid environments worldwide.
Wydawca
Czasopismo
Rocznik
Tom
Strony
997--1013
Opis fizyczny
Bibliogr. 48 poz.
Twórcy
autor
- Atomic Energy Commission, P.O.Box 6091, Damascus, Syria
Bibliografia
- 1. Abdulrazzaq ZT, Ahmad MM, Salih SA, Asfahani J (2022) Hydro-geophysical parameters estimation of porous aquifer using geoelectrical technique-case study taken from baiji-tikrit sub-basin, Iraq. ANAS Trans Earth Sci 1:3–16
- 2. ACSAD (1984) Water Resources Map of the Arab Countries, The Arab Center for the Studies of Arid Zones and Dry Lands, Damascus, Syria.
- 3. Aretouyap Z, Nouayou R, Njandjock Nouck P, Asfahani J (2015) Aquifers productivity in the Pan-African context. J Earth Syst Sci 124(3):527–539
- 4. Aretouyap Z, Bisso D, Meli JL, Njandjock Nouck P, Njouay AR, Asfahani J (2019) Hydraulic parameters evaluation of the Pan-African aquifer by applying an alternative geoelectrical approach based on vertical electrical soundings. Geofísica Internacional 58–2:113–126
- 5. Aretouyap Z, Bisso D, Teikeu AW, Domra KJ, Ghomsi KFE, Nouayou R, Njandjock NP, Asfahani J (2021) A detailed analysis of hydro-parameters of the adamawa plateau watershed derived from the application of geoelectrical technique. Environ Earth Sci 80:774. https://doi.org/10.1007/s12665-021-10080-3
- 6. Asfahani J (2007a) Geoelectrical Investigation for characterizing the hydrogeological conditions in semi-arid region in Khanasser valley, Syria. J Arid Environ 68:31–52
- 7. Asfahani J (2007b) Electrical Earth Resistivity surveying for delineating the characteristics of ground water in semiarid region in Khanaser valley Northern Syria. Hydrol Process 21:1085–1097
- 8. Asfahani J (2007c) Neogene aquifer properties specified through the interpretation of electrical sounding data Sallamiyeh Region, Central Syria. Hydrol Process 21:2934–2943
- 9. Asfahani J (2010a) Application of surfacial geoelectrical resistivity technique in hydrogeology domain for characterizing saline groundwater in semi arid regions. (Benjamin Veress and Jozsi Szigethy, Editors) Horizons in Earth Science Research Series, Volume 1, NOVA Science Publishers, 351–381.
- 10. Asfahani J (2010) Electrical resistivity investigations for guiding and controlling fresh water well drilling in semi arid region in Khanasser valley, Northern Syria. Acta Geophys. https://doi.org/10.2478/s11600-010-0031-8
- 11. Asfahani J (2012) Quaternary aquifer transmissivity derived from vertical electrical sounding measurements in the semi-arid Khanasser valley region, Syria. Acta Geophys 60(4):1143–1158. https://doi.org/10.2478/s11600-012-0016-x
- 12. Asfahani J (2016) Hydraulic parameters estimation by using an approach based on vertical electrical soundings (VES) in the semi-arid Khanasser valley region, Syria. J Afr Earth Sci 117:196–206
- 13. Asfahani J, Ahmad Z (2020) Estimation of hydraulic parameters by using VES sounding and neural network techniques in the semi-arid Khanasser valley region, Syria. Contrib Geophys Geod 50(1):113–133
- 14. Asfahani J (2021) Classification of the transmissivity spatial variations of quaternary aquifer in the semi-arid region Khanasser valley Northern Syria. J Afr Earth Sci. https://doi.org/10.1016/j.jafrearsci.2021.104269
- 15. Asfahani J, Al-Fares W (2021) Alternative vertical electrical sounding technique for hydraulic parameters estimation of the quaternary basaltic aquifer in Deir Al-Adas area, Yarmouk Basin. Southern Syria. Acta Geophys. https://doi.org/10.1007/s11600-021-00646-x
- 16. Asfahani J, Ahmad Z (2022) Estimation of hydraulic parameters using VES sounding and fuzzy techniques in semi arid Khanasser region Syria. Comput Ecol Softw 12(2):38–53
- 17. Bhattacharya PK, Patra HP (1968) Direct current geoelectric sounding, Elsevier Science Publications, 4–7
- 18. De Lima OAL, Niwas S (2000) Estimation of hydraulic parameters of shaly sandstone aquifers from geological measurements. J Hydrol 235:12–26
- 19. de Almeida A, Maciel DF, Sousa KF, Nascimento CTC, Koide S (2021) Vertical electrical sounding (VES) for estimating of hydraulic parameters in the porous aquifer. Water. https://doi.org/10.3390/w13020170
- 20. Dhakate R, Singh VS (2005) Estimation of hydraulic parameters from surface geophysical methods, Kaliapani Ultramafic Complex, Orissa, India. Journal of Environmental Hydrology 13 ( paper 12)
- 21. Fitts CR (2002) Groundwater Science, Elsevier Science Publications, The Netherlands, 167–175
- 22. Freeze RA, CherryJ A (1979) Groundwater. Prentice- Hall Inc, Englewood Cliffs, N.J.
- 23. Frohlich RK (1994) The electric- hydraulic relationship. Geophys Model Trends Hydrogeol 1:347–358
- 24. Frohlich RK, Fisher JJ, Summerly E (1996) Electric-hydraulic conductivity correlation in fractured crystalline bedrock: Central Landfill, Island, USA. J Appl Geophys 35:249–259
- 25. Hassan M, Shang Y, Jin W, Akhter G (2020) Estimation of hydraulic parameters in a hard rock aquifer using integrated surface geoelectrical method and pumping test data in Southeast Guangdong, China. Geosci J. https://doi.org/10.1007/s12303-020-0018-7
- 26. Heigold PC, Gilkeson RH, Cartwright K, Reed PC (1979) Aquifer transmissivity from surfacial electrical methods. Ground Water 17(4):338–345
- 27. Hoogeveen RJA, Zobisch M (1999) Decline of groundwater quality in Khanasser valley (Syria) due to salt-water intrusion. Paper presented at International Dryland Conference, Cairo, Egypt, 16p.
- 28. Ibuot JC, George NJ, Okwesili AN, Obiora DN (2019) Investigation of litho-textural characteristics of aquifer in Nkanu West local government area of Enugu state, Southern Nigeria. J Afr Earth Sc 153:197–207
- 29. ICARDA (2001) GIS Guides Khanasser Valley to a Sustainable Future. Caravan No.14.
- 30. Keller GV, Frischknecht FC (1966) Electrical methods in geoelectric prospecting. Pergamon Press 90–04:1966
- 31. Koefoed O (1979) Geosounding Principle-1. Elsevier Science Publications Amsterdam, The Netherlands, pp 170–181
- 32. Lesmes D, Friedman SP (2005) Relationships between the electrical and hydrogeological properties of rocks and soils. In: Rubin Y, Hubbard S (eds) hydrogeophysics, water science and technology library, chapter 4, 50:523. Springer, pp 87–128
- 33. Marotz G (1968) Technische Grundlagen einer wasserspeicherung im naturlichen untergrund. Verlag Wasser Und Boden, Hamburg
- 34. Niwas S, De Lima OA (2003) Aquifer parameter estimation from surface resistivity data. Groundwater 41(1):94–99
- 35. Niwas S, Singhal DC (1981) Estimation of aquifer transmissivity from dar-zarrouk parameters in porous media. J Hydrol 50:393–399
- 36. Niwas S, Singhal DC (1985) Aquifer transmissivity of porous media from resistivity data. J Hydrol 82:143–153
- 37. Orellana E, Mooney H.M.(1966) Master Tables and curves for vertical electrical sounding over layered structures. interciencia, Madrid, Spain.
- 38. Ponikarov (1964) The Geological Map of Syria, 1:200.000 and Explanatory Notes. Syrian Arab Republic, Ministry of Industry, Department of Geological and Mineral Research, Damascus, Syria.
- 39. Salem HS (1999) Determination of fluid transmissivity and electric transverse resistance for shallow aquifers and deep reservoirs from surface and well-log electric measurements. Hydrol Earth Syst Sci 3(3):421–427
- 40. Schweers W, Rieser A, Bruggeman A, Abu-Zakhem B, Asfahani J, Kadkoy N, Kasmo B (2002) Assessment of groundwater resources for sustainable management in the Khanasser valley, northwest Syria. Monitoring Management and Protection, Amman, Paper presented at ACSAD/BGR Workshop on Soil and Groundwater Quality, pp 23–25
- 41. Shevnin V, Delgado-Rodriguez O, Mousatov A, Ryjov A (2006) Estimation of hydraulic conductivity on clay content in soil determined from resistivity data. Geofis Int 45(3):195–207
- 42. Soumi G (1991) Supplemental Irrigation Systems of the Syrian Arab Republic (SAR). P.497-511, Proceeding of a workshop on regional consultation on supplemental irrigation. ICARDA and FAO, 7-9 December 1987, Rabat, Morocco. Kluwer Academic Publishers, Dordrecht, The Netherlands
- 43. Soupios PM, Kouli M, Vallianatos F, Vafidis A, Stavroulakis G (2007) Estimation of aquifer hydraulic parameters from surfacial geophysical methods: a case study of Keritis basin in Chania (Crete-Greece). J Hydrol 338:122–131
- 44. Velpen BA (2004) WinRESIST Version 1.0. M.Sc Research Project. ITC, Deft, Netherlands.
- 45. Yadav GS, Abolfazli H (1998) Geoelectrical soundings and their relationship to hydraulic parameters in semi arid regions of Jalore, Northwestern India. J Appl Geophys 39:35–51
- 46. Zohdy AAR (1989) A new method for the automatic interpretation of schlumerger and wenner sounding curves. Geophysics 54:245–253
- 47. Zohdy AAR, Bisdorf RJ (1989) Programs for the automatic processing and interpretation of Schlumberger sounding curves in Quick Basic. US Geol Surv Open File Rep 89(13):64
- 48. Zohdy AAR, Eaton GP, Mabeym DR (1974) Application of surface geophysics to groundwater investigations: in Tech. of water sources investigations of the U.S. Geol. survey book 2, chap, Dl. U.S. Dept. of the Interior, Geological Survey : U.S. Govt. Print.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4c6c3bd3-637a-4b09-9617-5ee7aee3d088