Hydrogeochemical characterization and suitability of groundwater for drinking and irrigation in Menzel Bourguiba aquifers (Northeastern Tunisia)

The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of excessive use by agricultural and industrial activities leading to the degradation of its water quality. To better understand the hydrochemi...

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Published in	Environmental monitoring and assessment Vol. 194; no. 8; p. 524
Main Authors	Ayari, Ines, Ben Alaya, Mohsen, Zammouri, Mounira
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.08.2022 Springer Nature B.V
Subjects	absorption Aquifer systems Aquifers Atmospheric Protection/Air Quality Control/Air Pollution basins Dissolved solids Drinking Drinking water Earth and Environmental Science Ecology Ecotoxicology Electrical conductivity Electrical resistivity Environment Environmental Management Environmental monitoring Environmental science Groundwater Groundwater irrigation Groundwater resources Hydrochemicals Hydrochemistry Hydrogeochemistry Industrial areas Irrigation Irrigation water Mathematical analysis Mineralization Monitoring/Environmental Analysis multivariate analysis Multivariate statistical analysis nitrates Parameters Sodium Statistical analysis Statistical methods Sulphates Total dissolved solids Tunisia Water analysis Water quality Water resources Water sampling World Health Organization Tunisia Drinking and irrigation suitability Hydrochemistry Statistical analysis Menzel Bourguiba basin Mineralization
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Abstract	The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of excessive use by agricultural and industrial activities leading to the degradation of its water quality. To better understand the hydrochemistry of these aquifers, identify the main factors controlling their mineralization, and assess their suitability for drinking and agricultural purposes, 35 groundwater samples collected during the campaign of October 2019 were analyzed by different physicochemical methods. The results showed that the hydrochemical facies of the study area is characterized by two major types SO4-Cl-Ca and Na–Cl. The total dissolved solids (TDS) values range from 0.5 to 1.9 g/L in the shallow aquifer and from 0.6 to 2 g/L in the deep aquifer. The high rates are recognized downstream of the studied basin. The interpretation of multivariate statistical analysis and geochemical approaches revealed that rock-water interaction, dissolution and precipitation process, ionic exchange mechanisms, water irrigation return, and marine intrusion are the main factors controlling the mineralization of the study area groundwater. The comparison of the analytical data to the Tunisian and World Health Organization (WHO) standards unveiled that the majority of groundwater samples are unsuitable for drinking because of high nitrate contents, elevated electrical conductivity (EC), TDS values, and high concentrations of some chemical parameters. In addition, the sodium absorption ratio and the sodium percent parameters indicated that most of the analyzed samples are inappropriate for irrigation uses.
AbstractList	The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of excessive use by agricultural and industrial activities leading to the degradation of its water quality. To better understand the hydrochemistry of these aquifers, identify the main factors controlling their mineralization, and assess their suitability for drinking and agricultural purposes, 35 groundwater samples collected during the campaign of October 2019 were analyzed by different physicochemical methods. The results showed that the hydrochemical facies of the study area is characterized by two major types SO4-Cl-Ca and Na–Cl. The total dissolved solids (TDS) values range from 0.5 to 1.9 g/L in the shallow aquifer and from 0.6 to 2 g/L in the deep aquifer. The high rates are recognized downstream of the studied basin. The interpretation of multivariate statistical analysis and geochemical approaches revealed that rock-water interaction, dissolution and precipitation process, ionic exchange mechanisms, water irrigation return, and marine intrusion are the main factors controlling the mineralization of the study area groundwater. The comparison of the analytical data to the Tunisian and World Health Organization (WHO) standards unveiled that the majority of groundwater samples are unsuitable for drinking because of high nitrate contents, elevated electrical conductivity (EC), TDS values, and high concentrations of some chemical parameters. In addition, the sodium absorption ratio and the sodium percent parameters indicated that most of the analyzed samples are inappropriate for irrigation uses. The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of excessive use by agricultural and industrial activities leading to the degradation of its water quality. To better understand the hydrochemistry of these aquifers, identify the main factors controlling their mineralization, and assess their suitability for drinking and agricultural purposes, 35 groundwater samples collected during the campaign of October 2019 were analyzed by different physicochemical methods. The results showed that the hydrochemical facies of the study area is characterized by two major types SO4-Cl-Ca and Na–Cl. The total dissolved solids (TDS) values range from 0.5 to 1.9 g/L in the shallow aquifer and from 0.6 to 2 g/L in the deep aquifer. The high rates are recognized downstream of the studied basin. The interpretation of multivariate statistical analysis and geochemical approaches revealed that rock-water interaction, dissolution and precipitation process, ionic exchange mechanisms, water irrigation return, and marine intrusion are the main factors controlling the mineralization of the study area groundwater. The comparison of the analytical data to the Tunisian and World Health Organization (WHO) standards unveiled that the majority of groundwater samples are unsuitable for drinking because of high nitrate contents, elevated electrical conductivity (EC), TDS values, and high concentrations of some chemical parameters. In addition, the sodium absorption ratio and the sodium percent parameters indicated that most of the analyzed samples are inappropriate for irrigation uses. The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of excessive use by agricultural and industrial activities leading to the degradation of its water quality. To better understand the hydrochemistry of these aquifers, identify the main factors controlling their mineralization, and assess their suitability for drinking and agricultural purposes, 35 groundwater samples collected during the campaign of October 2019 were analyzed by different physicochemical methods. The results showed that the hydrochemical facies of the study area is characterized by two major types SO4-Cl-Ca and Na-Cl. The total dissolved solids (TDS) values range from 0.5 to 1.9 g/L in the shallow aquifer and from 0.6 to 2 g/L in the deep aquifer. The high rates are recognized downstream of the studied basin. The interpretation of multivariate statistical analysis and geochemical approaches revealed that rock-water interaction, dissolution and precipitation process, ionic exchange mechanisms, water irrigation return, and marine intrusion are the main factors controlling the mineralization of the study area groundwater. The comparison of the analytical data to the Tunisian and World Health Organization (WHO) standards unveiled that the majority of groundwater samples are unsuitable for drinking because of high nitrate contents, elevated electrical conductivity (EC), TDS values, and high concentrations of some chemical parameters. In addition, the sodium absorption ratio and the sodium percent parameters indicated that most of the analyzed samples are inappropriate for irrigation uses.The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of excessive use by agricultural and industrial activities leading to the degradation of its water quality. To better understand the hydrochemistry of these aquifers, identify the main factors controlling their mineralization, and assess their suitability for drinking and agricultural purposes, 35 groundwater samples collected during the campaign of October 2019 were analyzed by different physicochemical methods. The results showed that the hydrochemical facies of the study area is characterized by two major types SO4-Cl-Ca and Na-Cl. The total dissolved solids (TDS) values range from 0.5 to 1.9 g/L in the shallow aquifer and from 0.6 to 2 g/L in the deep aquifer. The high rates are recognized downstream of the studied basin. The interpretation of multivariate statistical analysis and geochemical approaches revealed that rock-water interaction, dissolution and precipitation process, ionic exchange mechanisms, water irrigation return, and marine intrusion are the main factors controlling the mineralization of the study area groundwater. The comparison of the analytical data to the Tunisian and World Health Organization (WHO) standards unveiled that the majority of groundwater samples are unsuitable for drinking because of high nitrate contents, elevated electrical conductivity (EC), TDS values, and high concentrations of some chemical parameters. In addition, the sodium absorption ratio and the sodium percent parameters indicated that most of the analyzed samples are inappropriate for irrigation uses.
ArticleNumber	524
Author	Ayari, Ines Zammouri, Mounira Ben Alaya, Mohsen
Author_xml	– sequence: 1 givenname: Ines orcidid: 0000-0003-1875-4815 surname: Ayari fullname: Ayari, Ines email: inesyari@gmail.com organization: University of Tunis El Manar, Faculty of Sciences of Tunis, Sedimentary Environments, Oil Systems and Reservoir Characterization Laboratory, UR11 ES15 – sequence: 2 givenname: Mohsen surname: Ben Alaya fullname: Ben Alaya, Mohsen organization: National Institute of Research and Physical Chemical Analysis (INRAP), LMU – sequence: 3 givenname: Mounira surname: Zammouri fullname: Zammouri, Mounira organization: University of Tunis El Manar, Faculty of Sciences of Tunis, Sedimentary Environments, Oil Systems and Reservoir Characterization Laboratory, UR11 ES15
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Copyright	The Author(s), under exclusive licence to Springer Nature Switzerland AG 2022 The Author(s), under exclusive licence to Springer Nature Switzerland AG 2022. 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.
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Snippet	The aquifer system of Menzel Bourguiba, located in northeastern Tunisia, is an important groundwater resource that, for the last decades, has been a subject of...
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SubjectTerms	absorption Aquifer systems Aquifers Atmospheric Protection/Air Quality Control/Air Pollution basins Dissolved solids Drinking Drinking water Earth and Environmental Science Ecology Ecotoxicology Electrical conductivity Electrical resistivity Environment Environmental Management Environmental monitoring Environmental science Groundwater Groundwater irrigation Groundwater resources Hydrochemicals Hydrochemistry Hydrogeochemistry Industrial areas Irrigation Irrigation water Mathematical analysis Mineralization Monitoring/Environmental Analysis multivariate analysis Multivariate statistical analysis nitrates Parameters Sodium Statistical analysis Statistical methods Sulphates Total dissolved solids Tunisia Water analysis Water quality Water resources Water sampling World Health Organization
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Title	Hydrogeochemical characterization and suitability of groundwater for drinking and irrigation in Menzel Bourguiba aquifers (Northeastern Tunisia)
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