AI Chat Paper
Note: Please note that the following content is generated by AMiner AI. SciOpen does not take any responsibility related to this content.
{{lang === 'zh_CN' ? '文章概述' : 'Summary'}}
{{lang === 'en_US' ? '中' : 'Eng'}}
Chat more with AI
Powered by AMiner. Clicking this button will take you away from SciOpen.
Home Journal of Groundwater Science and Engineering Article
PDF (4.7 MB)
Cite
EndNote(RIS) BibTeX
Collect
Submit Manuscript AI Chat Paper
Show Outline
Outline
Show full outline
Hide outline
Outline
Show full outline
Hide outline

Mapping potential areas for groundwater storage in the High Guir Basin (Morocco): Contribution of remote sensing and geographic information system

Abderrahime Nouayti1( )Driss Khattach1Mohamed Hilali2Nordine Nouayti1,2,3
Laboratory of Applied Geosciences, Faculty of Sciences, University Mohamed First Oujda 60000, Morocco
Research Team of Mining, Water and Environment Engineering, Faculty of Sciences and Techniques, Moulay Ismaïl University, 52000, Post Box: 509, Boutalamine, Errachidia, Morocco
Laboratory of Water and Environmental Engineering, Al Hoceima National School of Applied Sciences PO Box 03, Ajdir Al Hoceima
Show Author Information

Abstract

Identification of water potential areas in arid regions is a crucial element for the enhancement of their water resources and socio-economic development. In fact, water resources system-planning can be used to make various decisions and implement management of water resources policies. The purpose of this study is to identify groundwater storage areas in the high Guir Basin by implementing Geographic Information System (GIS) and Remote Sensing methods. The required data for this study can be summarized into five critical factors: Topography (slope), lithology, rainfall, rock fracture and drainage. These critical factors have been converted by the GIS into thematic maps. For each critical parameter, a coefficient with weight was attributed according to its importance. The map of potential groundwater storage areas is obtained by adding the products (coefficient × weight) of the five parameters. The results show that 50% to 64% of the total area of the High Guir Basin is potentially rich in groundwater, where most of fracture systems are intensely developed. The obtained results are validated with specific yield of the aquifer in the study area. It is noted that there is a strong positive correlation between excellent groundwater potential zones with high flows of water points and it diminishes with low specific yield with poor potential zones.

Keywords

Remote SensingPotential assessmentGroundwater storageHigh Guir BasinGeographic Information System

References

 

Ahmed F, Hagz Y A, Andrawis A S. 1984. Landsat model for groundwater exploration in the Nuba Mountains, Sudan. Advances in Space Research, 4 (11): 123-131.
Crossref Google Scholar
 

Baki S, Hilali M, Kacimi I, et al. 2017. Assessment of groundwater intrinsic vulnerability to pollution in the Pre-Saharan areas-the case of the Tafilalet Plain (Southeast Morocco). Procedia Earth Planetary Science, (17): 590-593.
Crossref Google Scholar
 

Dhekra S, Mohamed H M, Lahcen Z, et al. 2018. Mapping groundwater recharge potential zones in arid region using GIS and Landsat approaches, southeast Tunisia. Hydrological Sciences Journal, 63(2): 251-268.
Crossref Google Scholar
 

Edet A E, Okereke C S, Teme S C, et al. 1998. Application of remote sensing data to groundwater exploration: A case study of the Cross River State, South Nigeria. Hydrogeological Journal, 6(3): 394-404.
Crossref Google Scholar
 

El Kochri A, Chorowicz J. 1996. Oblique extension in the Jurassic trough of the central and eastern High Atlas (Morocco). Canadian Journal of Earth Science, 33(1): 84-92.
Crossref Google Scholar
 

El-Baz F, Himida I. 1995. Groundwater potential of the Sinai Peninsula, Egypt. Project Summary. Boston, MA: Center for Remote Sensing.
 

El Kochri A, Chorowicz J. 1996. Oblique extension in the Jurassic trough of the central and eastern High Atlas (Morocco). Canadian Journal of Earth Sciences, 33(33): 84-92.
Crossref Google Scholar
 

El Arabi E H, Ferrandini J, Essamoud R. 2003. Triassic stratigraphy and structural evolution of a rift basin: The Ec Cour basin, High atlas of Marrakech, Morocco. Journal of African Earth Sciences, 36(1-2): 29-39.
Crossref Google Scholar
 
European Commission Soil Terrain Database. 1995. Land management & natural hazards unit. IES and JRC, European Commission, Brussels. https://esdac.jrc.ec.europa.eu/projects/SOTER/Soter_Model.html
 

Haddoumi H, Charriére A, Mojon PO. 2010. Stratigraphy and sedimentology of JurassicCretaceous Continental « Red Beds » of the Central High Atlas (Morocco). Geobios Journal, 43: 433-451.
Crossref Google Scholar
 

Huang Chih-Chao, Yeh Hsin-Fu, Lin Huang-I, et al. 2013. Groundwater recharge and exploittative potential zone mapping using GIS and GOD techniques. Environmental Earth Sciences, 68(1): 267-280.
Crossref Google Scholar
 

Mall R K, Gupta A, Singh R, et al. 2006. Water resources and climate change: An Indian perspective. Current Science, 90(12): 1610-1626.
Google Scholar
 

Margat J. 2004. Blue Plan. Mediterranean Water: Situation and Prospects, Athens, PAM, 158: 403.
Google Scholar
 

Mashael A S. 2010. Mapping potential areas for groundwater storage in Wadi Aurnah Basin, western Arabian Peninsula, using remote sensing and geographic information system techniques. Hydrogeology Journal, 18(6): 1481-1495.
Crossref Google Scholar
 

Nouayti A, Khattach D, Hilali M, et al. 2019. Assessment of groundwater quality using statistical techniques in high Basin of Guir (Eastern High Atlas, Morocco). Material stoday: Proceedings, 13(3): 1084-1091.
Crossref Google Scholar
 

Nordine N, Khattach D, Hilali M. 2017. Potential areas mapping for the groundwater storage in the high Ziz Basin (Morocco): Contribution of remote sensing and geographic information system. Bulletin de l'Institut Scientifique, Rabat, Section Sciences de la Terre, 39: 45-57.
Google Scholar
 

Nouayti N, Khattach D, Hilali M, et al. 2016. Assessment of metal contamination in Jurassic water tables of High Ziz Basin (Central High Atlas, Morocco). Journal Materials Environmental Science, 7(5): 1495-1503.
Google Scholar
 

Oikonomidis D, Dimogianni S, Kazakis N, et al. 2015. A GIS /remote sensing-based methodology for groundwater potentiality assessment in Tirnavos area, Greece. Journal of Hydrology, 525: 197-208.
Crossref Google Scholar
 

Pique A, Michard A. 1989. Moroccan Hercynides, a synopsis. The Palaeozoic sedimentary and tectonic evolution at the northern margin of West Africa. American Journal of Science, 289: 286-330.
Crossref Google Scholar
 

Pouliot J, Thomson K P B, Chevallier J J, et al. 1994. Integrated application of geomatic techniques in the context of agricultural antierosion management. Canadian Journal of Remote Sensing, 20(4): 419-425.
Crossref Google Scholar
 

Teixell A, Arboleya M L, Julivert M, et al. 2003. Tectonic shortening and topography in the central High Atlas (Morocco). Tectonics, 22 (5): 1051.
Crossref Google Scholar
 

Toutin T. 1996. Rigorous geometric correction: A need for the health of your results. Canadian Journal of Remote Sensing, 22(2): 184-189.
Crossref Google Scholar
 

Siebert S, Burke J, Faures J M, et al. 2010. Groundwater use for irrigation-A global inventory. Hydrology and Earth System Sciences, 14: 1863-1880.
Crossref Google Scholar
 

Sander P, Chesley M, Minor T. 1996. Groundwater assessment using remote sensing and GIS in a rural groundwater project in Ghana: Lessons learned. Hydrogeology Journal, 4(3): 40-49.
Crossref Google Scholar
 

Teeuw R M. 1995. Groundwater exploration using remote sensing and a low-cost geographic information system. Hydrogeological Journal, 3 (3): 21-30.
Crossref Google Scholar
 

Yeh Hsin-fu, CHENG Yong-sin, LIN Hung-I, et al. 2016. Mapping groundwater recharge potential zone using a GIS approach in Hualian River, Taiwan. Sustainable Environment Research, 26(1): 33-43.
Crossref Google Scholar
Journal of Groundwater Science and Engineering
Volume 7 Issue 4,
December 2019
Pages 309-322
DOI: 10.19637/j.cnki.2305-7068.2019.04.002
Cite this article:
Nouayti A, Khattach D, Hilali M, et al. Mapping potential areas for groundwater storage in the High Guir Basin (Morocco): Contribution of remote sensing and geographic information system. Journal of Groundwater Science and Engineering, 2019, 7(4): 309-322. https://doi.org/10.19637/j.cnki.2305-7068.2019.04.002

374

Views

34

Downloads

0

Crossref

10

Web of Science

15

Scopus

Altmetrics
Received: 30 May 2019
Accepted: 02 August 2019
Published: 28 December 2019
© 2019 Journal of Groundwater Science and Engineering Editorial Office
Return