Geothermal Water Quality Index Assessment for Irrigation Purpose with Multicomputing Modeling Coupled with GIS: Case of El Hamma, Southeastern Tunisia

Aquifer quality monitoring and scoping are essential for both groundwater control and water provision in agricultural areas. The Irrigation Geothermal Water Quality Index (IGWQI) was investigated based on 6 variables (EC, SAR, Cl, Na, HCO 3 , and T ) for 41 water samples using conventional method an...

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Bibliographic Details
Published in:Water, air, and soil pollution air, and soil pollution, 2024-02, Vol.235 (2), p.160, Article 160
Main Authors: Haddaji, Boulbaba, Atoui, Mounir, Wederni, Khyria, Agoubi, Belgacem, Karroubi, Adel
Format: Article
Language:English
Subjects:
Aquifers
Atmospheric Protection/Air Quality Control/Air Pollution
Climate Change/Climate Change Impacts
Decision making
Earth and Environmental Science
Environment
Geographical information systems
Groundwater
Groundwater quality
Hydrogeology
Irrigation
Irrigation water
Mathematical models
Parameter identification
Quality assessment
Regression analysis
Soil Science & Conservation
Support vector machines
Water analysis
Water quality
Water Quality/Water Pollution
Water resources
Water sampling
Water temperature
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Summary:Aquifer quality monitoring and scoping are essential for both groundwater control and water provision in agricultural areas. The Irrigation Geothermal Water Quality Index (IGWQI) was investigated based on 6 variables (EC, SAR, Cl, Na, HCO 3 , and T ) for 41 water samples using conventional method and predicted with support vector machine (SVM) and classification tree and regression (CART) computer models as an indicator to evaluate the suitability of geothermal water for irrigation. It was found that the use of such parameters allows for more accurate identification of unsuitable groundwater areas and reduces estimation bias, particularly if the dataset is limited (6 variables). In this study, the SVM and CART models were developed and validated to assess the groundwater quality of the EL Hamma aquifer. The values predicted by the SVM and CART approaches are in extremely good agreement with the measured IGWQI, with a mean coefficient of determination ( R 2 ) close to 1, about 0.91 and 0.99, respectively, thus ensuring practicality and confidence for the artificial intelligent model. Findings showed that three classes of groundwater quality were identified: 12% are good, 56% are satisfactory, and 32% are classified as unsuitable water. The poor water quality for irrigation is shown in the eastern parts of the study area, which is nearly similar to that of the water temperature, averaging between 35 and 57 °C. This rise in water temperature is controlled by the fault that connects the deep compartments of the system and the shallow aquifer. IGWQI delineation and mapping is an excellent tool for the protection and safeguarding of groundwater resources, notably in arid areas where groundwater is the sole source of life, as well as an important tool in decision-making for groundwater planning and use.
ISSN:0049-6979
1573-2932
DOI:10.1007/s11270-024-06961-5