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Mohamed Jalal El hamidi

Université du Québec en Abitibi-Témiscamingue, Genie Minier, Post-Doc

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I am a skilled professional in the field of groundwater modelling, climate change, GIS, and remote sensing. Experienced in using GIS tools to analyze and visualize water resources data. Committed to advancing the field of hydrogeology through cutting-edge research and innovative technologies. #GIS #ClimateChange #GroundwaterModeling #RemoteSensing

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Jayjit Majumdar

University of Kalyani

University of Waterloo

Anna University

Dr.Subramaniam Karuppannan

Open University Malaysia (OUM),

Sayan Bhattacharya

Nalanda University, Rajgir, India

Rajesh Rajendran

Sathyabama University

Manchester Metropolitan University

Vasilios Melfos

Aristotle University of Thessaloniki

Charles University, Prague

Texas State PA Applied Research Projects

Texas State University

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Papers by Mohamed Jalal El hamidi

The Moroccan eastern region, a green energy complex for sustainable development and advanced decentralization

Characterization of Quaternary Deposits in the Bou Ahmed Coastal Plain (Chefchaouen, Morocco): Contribution of Electrical Prospecting

International Journal of Advanced Computer Science and Applications, 2021

The Bou Ahmed plain, which is part of the internal area of the Rif, is located along the Mediterr... more The Bou Ahmed plain, which is part of the internal area of the Rif, is located along the Mediterranean coast, 30 kilometers of Oued Laou town. This basin is made up by a quaternary filling mainly formed by detrital fluvial facies, channeled conglomerates surmounted by fluvial sand interlayered with pebbles; these facies can be new potential aquifers formations areas. Therefore, the main goal of this study is to build a lithostratigraphic three dimensional model to identify the hydrogeological units and the reservoir geometry of the Bou Ahmed plain. In order to achieve this goal, we have created a database made up by Vertical Electrical Sounding surveys and drilling data integrated into a Geographic Information System. This database allowed us to establish a three-dimensional model of the bottom, geoelectric cross-sections, isopach and isoresistivity maps of new potential aquifers units. This approach allowed us to explain the modalities of deposition for the quaternary deposits of the Bou Ahmed plain and to identify potential hydrogeological reservoirs. These results will also be used to develop a hydrodynamic model based on MODFLOW code in the Bou Ahmed aquifer.

Quantification of Surface Water-Groundwater Exchanges by GIS Coupled with Experimental Gauging in an Alluvial Environment

by Mohamed Jalal El hamidi and Jamal Chao

International Journal of Advanced Computer Science and Applications, 2021

Surface water and groundwater are two interrelated components, where the influence of one automat... more Surface water and groundwater are two interrelated components, where the influence of one automatically affects the quantity and quality of the other. These exchange flows are robustly influenced by some mechanisms such as permeability, lithological nature of the soil, landscape, in addition to the difference between the hydrometric height of the river and the piezometric level of groundwater. The study area of Bou Ahmed plain is vulnerable to intensive pumping mainly in the coastal fringe. The increase in water demand, due to demographic development, is accompanied by pressure on groundwater abstraction which causes significant drops of the groundwater level. The main objectives of this study are to develop Geographic Information System database and mathematical models to analyze spatial and temporal hydrogeological characteristics and hydrodynamic functioning of groundwater flow of the Bou Ahmed aquifer. The present work exhibits the characteristics of the river-groundwater exchanges in an alluvial plain. Therefore, we quantified the flows exchanged between a river and its groundwater using GIS tools along with measurements of parameters obtained by the differential gauging, which was carried out in the field, and hydrogeological boreholes data. These quantified flows, moreover, enabled us to eventually estimate the uncertainties related to the use of the GIS method. These results will also be used to support a set of groundwater simulations based on MODFLOW code in the Bou Ahmad aquifer. These models also associated with develop Geographic Information System will help to better plan, manage and control the groundwater resources of this aquifer.

Modeling the impacts of climate change on water resources in Mediterranean and Atlantic hydraulic basins of Morocco

DESALINATION AND WATER TREATMENT, 2020

Modeling and Mapping of coastal aquifer vulnerability to seawater intrusion using SEAWAT code and GALDIT index technique: the case of the Rmel aquifer – Larache, Morocco

E3S Web of Conferences, 2021

The study area of Rmel-O. Ogbane aquifer, located in the north of Morocco, currently faces major ... more The study area of Rmel-O. Ogbane aquifer, located in the north of Morocco, currently faces major water challenges related to the sustainable management of water resources. Climate change and Sea-Level-Rise can increase the risks and costs of water resources management and impact water resources' quantity and quality. Hence, for planning and management, an integrated approach is developed for linking climate models and groundwater models to investigate future impacts of climate change on groundwater resources. Climate projections show an increase in temperature of about 0.45 °C and a reduction in precipitation of 16.7% for 2016-2050. Simulations of seawater intrusion corresponding to various combinations of groundwater extraction predicted climate change and sea-level-rise show that the area will be contaminated on the NW sector of the coastal part. The toe would reach about 5.2 km inland and intrude on high salinity (15–25g/l). Beyond these zones, the contamination of the aquife...

GIS and Database for a Groundwater Assessment and Management of the Rmel-Oulad-Ogbane Aquifers (Larache, Morocco)

The majority of urban and rural centers of Morocco are generally located on the coast and the coa... more The majority of urban and rural centers of Morocco are generally located on the coast and the coastal plains. The increase in water demand, due to demographic and agricultural development, is accompanied by pressure on groundwater abstraction. This situation causes significant drops of the groundwater level and may eventually cause a deficit water balance of the aquifer as well as a degradation of the freshwater quality by seawater intrusion; and consequently concern the decision makers responsible for the management and planning of water resources. The study area of Rmel-Ouled Ogbane aquifers, with a surface of approximately 303 km , is located in Low-Loukkos basin in northern Morocco (south of Larache city). This area is delimited 2 to the west by the Atlantic Ocean, to the east by succession of hills of prerifan aquifer and to the south by marl outcrops from Mio-Pliocene. The analysis of data from different sources and provided on different media, have been processed and organize...

Spatial distribution of regionalized variables on reservoirs and groundwater resources based on geostatistical analysis using GIS: case of Rmel-Oulad Ogbane aquifers (Larache, NW Morocco)

Arabian Journal of Geosciences, 2018

In many countries of the world, groundwater is the main source of water in arid and semiarid regi... more In many countries of the world, groundwater is the main source of water in arid and semiarid regions. The scarcity of water is one of the main issues in Morocco. The coastal aquifer system of Rmel-Oulad Ogbane is recognized as one of the most important aquifers in Morocco and is very well known for their role in industrial, economic, and social development. However, this role is confronted to climate change impacts and heavy abstraction rates leading to a major decline in the groundwater levels and may eventually cause a deficit water balance of the aquifer as well as a degradation of the freshwater quality by seawater intrusion. The objective of this research is to identify and evaluate the distribution and spatial changes of regionalized variables on reservoirs and groundwater resources using geostatistical analysis in Geographic Information System (GIS) software. The prediction of these variables was performed using an interpolation method: ordinary kriging in a GIS. The normality test and trend analysis were applied to each variable to select the appropriate semivariogram model (SVM) and check the results using cross-validation (CV). Hence, several kriged maps of reservoirs and water resources have been produced to be exploited by the decision maker. The studied variables related to reservoirs and hydrodynamic data have a strong spatial dependence, which show correlations in specific direction, while the hydrochemical data are mainly related to groundwater mechanisms, such as advective-diffusive transport, without any autocorrelation between data.

Numerical Modeling of Saltwater Intrusion in the Rmel-Oulad Ogbane Coastal Aquifer (Larache, Morocco) in the Climate Change and Sea-Level Rise Context (2040)

Water, 2021

Many coastal aquifers have experienced seawater intrusion (SWI) into fresh groundwater aquifers. ... more Many coastal aquifers have experienced seawater intrusion (SWI) into fresh groundwater aquifers. The principal causes of SWI include over-pumping and events such as climate change (CC) and rising sea levels. In northern Morocco, the Rmel-Oulad Ogbane coastal aquifer (ROOCA) supplies high-quality groundwater for drinking water and agriculture. This favorable situation has led to increased pumping, resulting in environmental challenges such as dropping water table and SWI. Furthermore, the climate has resulted in less recharge, with an estimated annual precipitation of 602 mm and an average temperature of 18.5 °C. The goal of this study is to determine how CC, over-pumping, and sea-level rise (SLR) affect SWI. Computational groundwater and solute transport models are used to simulate the spatial and temporal evolution of hydraulic heads and groundwater solute concentrations. The calibration is based on steady and transient groundwater levels from 1962 to 2040. SWI simulations show tha...

Développement d’un sih pour l’amélioration des connaissances techniques sur le réservoir et le fonctionnement hydrodynamique de la nappe de Rmel (Maroc)

Revue des sciences de l’eau, 2019

La majorité des centres urbains et ruraux du bassin du Bas-Loukkos (nord du Maroc) sont généralem... more La majorité des centres urbains et ruraux du bassin du Bas-Loukkos (nord du Maroc) sont généralement situés sur la côte et les plaines côtières. L'augmentation de la demande en eau due à la démographie et au développement agricole est accompagnée par une pression sur les eaux souterraines. Cette situation a entraîné une baisse significative du niveau piézométrique et peut éventuellement causer un déficit du bilan hydrique de la nappe en provoquant une dégradation de la qualité de l'eau douce par invasion des eaux marines. La zone d'étude de Rmel-Oulad Ogbane,
couvrant une superficie de 305 km2, est située dans le bassin du Bas-Loukkos au sud de la ville de Larache. Afin de fournir une meilleure caractérisation de l’aquifère, il a été décidé d'organiser toutes les données dans des formats standard stockés dans une base de données numérique SIH (Système d'information hydrogéologique). Cette base de données SIH développée englobe un menu très varié relatif aux réservoirs et aux fonctionnements hydrodynamiques des ressources en eau. Les données issues de plusieurs sources et sur différents supports ont été traitées et organisées dans une
base de données commune avec des coordonnées spatiales référencées. Une
application Visual Basic a été aussi développée pour une meilleure utilisation et
gestion de cette base de données sous SIH. Ainsi, plusieurs cartes thématiques
relatives aux réservoirs et aux ressources en eau ont été produites pour être exploitées
par le décideur. Ces produits de la base de données SIH ont permis l’actualisation du
bilan hydrique de la nappe, la construction d’un bon modèle conceptuel des aquifères
conduisant au développement d’un modèle mathématique en régimes permanent et
transitoire, ainsi qu’un modèle de transport simulant l'intrusion de l'eau de mer dans
ces aquifères.

The Moroccan eastern region, a green energy complex for sustainable development and advanced decentralization

Characterization of Quaternary Deposits in the Bou Ahmed Coastal Plain (Chefchaouen, Morocco): Contribution of Electrical Prospecting

International Journal of Advanced Computer Science and Applications, 2021

The Bou Ahmed plain, which is part of the internal area of the Rif, is located along the Mediterr... more The Bou Ahmed plain, which is part of the internal area of the Rif, is located along the Mediterranean coast, 30 kilometers of Oued Laou town. This basin is made up by a quaternary filling mainly formed by detrital fluvial facies, channeled conglomerates surmounted by fluvial sand interlayered with pebbles; these facies can be new potential aquifers formations areas. Therefore, the main goal of this study is to build a lithostratigraphic three dimensional model to identify the hydrogeological units and the reservoir geometry of the Bou Ahmed plain. In order to achieve this goal, we have created a database made up by Vertical Electrical Sounding surveys and drilling data integrated into a Geographic Information System. This database allowed us to establish a three-dimensional model of the bottom, geoelectric cross-sections, isopach and isoresistivity maps of new potential aquifers units. This approach allowed us to explain the modalities of deposition for the quaternary deposits of the Bou Ahmed plain and to identify potential hydrogeological reservoirs. These results will also be used to develop a hydrodynamic model based on MODFLOW code in the Bou Ahmed aquifer.

Quantification of Surface Water-Groundwater Exchanges by GIS Coupled with Experimental Gauging in an Alluvial Environment

by Mohamed Jalal El hamidi and Jamal Chao

International Journal of Advanced Computer Science and Applications, 2021

Surface water and groundwater are two interrelated components, where the influence of one automat... more Surface water and groundwater are two interrelated components, where the influence of one automatically affects the quantity and quality of the other. These exchange flows are robustly influenced by some mechanisms such as permeability, lithological nature of the soil, landscape, in addition to the difference between the hydrometric height of the river and the piezometric level of groundwater. The study area of Bou Ahmed plain is vulnerable to intensive pumping mainly in the coastal fringe. The increase in water demand, due to demographic development, is accompanied by pressure on groundwater abstraction which causes significant drops of the groundwater level. The main objectives of this study are to develop Geographic Information System database and mathematical models to analyze spatial and temporal hydrogeological characteristics and hydrodynamic functioning of groundwater flow of the Bou Ahmed aquifer. The present work exhibits the characteristics of the river-groundwater exchanges in an alluvial plain. Therefore, we quantified the flows exchanged between a river and its groundwater using GIS tools along with measurements of parameters obtained by the differential gauging, which was carried out in the field, and hydrogeological boreholes data. These quantified flows, moreover, enabled us to eventually estimate the uncertainties related to the use of the GIS method. These results will also be used to support a set of groundwater simulations based on MODFLOW code in the Bou Ahmad aquifer. These models also associated with develop Geographic Information System will help to better plan, manage and control the groundwater resources of this aquifer.

Modeling the impacts of climate change on water resources in Mediterranean and Atlantic hydraulic basins of Morocco

DESALINATION AND WATER TREATMENT, 2020

Modeling and Mapping of coastal aquifer vulnerability to seawater intrusion using SEAWAT code and GALDIT index technique: the case of the Rmel aquifer – Larache, Morocco

E3S Web of Conferences, 2021

The study area of Rmel-O. Ogbane aquifer, located in the north of Morocco, currently faces major ... more The study area of Rmel-O. Ogbane aquifer, located in the north of Morocco, currently faces major water challenges related to the sustainable management of water resources. Climate change and Sea-Level-Rise can increase the risks and costs of water resources management and impact water resources' quantity and quality. Hence, for planning and management, an integrated approach is developed for linking climate models and groundwater models to investigate future impacts of climate change on groundwater resources. Climate projections show an increase in temperature of about 0.45 °C and a reduction in precipitation of 16.7% for 2016-2050. Simulations of seawater intrusion corresponding to various combinations of groundwater extraction predicted climate change and sea-level-rise show that the area will be contaminated on the NW sector of the coastal part. The toe would reach about 5.2 km inland and intrude on high salinity (15–25g/l). Beyond these zones, the contamination of the aquife...

GIS and Database for a Groundwater Assessment and Management of the Rmel-Oulad-Ogbane Aquifers (Larache, Morocco)

The majority of urban and rural centers of Morocco are generally located on the coast and the coa... more The majority of urban and rural centers of Morocco are generally located on the coast and the coastal plains. The increase in water demand, due to demographic and agricultural development, is accompanied by pressure on groundwater abstraction. This situation causes significant drops of the groundwater level and may eventually cause a deficit water balance of the aquifer as well as a degradation of the freshwater quality by seawater intrusion; and consequently concern the decision makers responsible for the management and planning of water resources. The study area of Rmel-Ouled Ogbane aquifers, with a surface of approximately 303 km , is located in Low-Loukkos basin in northern Morocco (south of Larache city). This area is delimited 2 to the west by the Atlantic Ocean, to the east by succession of hills of prerifan aquifer and to the south by marl outcrops from Mio-Pliocene. The analysis of data from different sources and provided on different media, have been processed and organize...

Spatial distribution of regionalized variables on reservoirs and groundwater resources based on geostatistical analysis using GIS: case of Rmel-Oulad Ogbane aquifers (Larache, NW Morocco)

Arabian Journal of Geosciences, 2018

In many countries of the world, groundwater is the main source of water in arid and semiarid regi... more In many countries of the world, groundwater is the main source of water in arid and semiarid regions. The scarcity of water is one of the main issues in Morocco. The coastal aquifer system of Rmel-Oulad Ogbane is recognized as one of the most important aquifers in Morocco and is very well known for their role in industrial, economic, and social development. However, this role is confronted to climate change impacts and heavy abstraction rates leading to a major decline in the groundwater levels and may eventually cause a deficit water balance of the aquifer as well as a degradation of the freshwater quality by seawater intrusion. The objective of this research is to identify and evaluate the distribution and spatial changes of regionalized variables on reservoirs and groundwater resources using geostatistical analysis in Geographic Information System (GIS) software. The prediction of these variables was performed using an interpolation method: ordinary kriging in a GIS. The normality test and trend analysis were applied to each variable to select the appropriate semivariogram model (SVM) and check the results using cross-validation (CV). Hence, several kriged maps of reservoirs and water resources have been produced to be exploited by the decision maker. The studied variables related to reservoirs and hydrodynamic data have a strong spatial dependence, which show correlations in specific direction, while the hydrochemical data are mainly related to groundwater mechanisms, such as advective-diffusive transport, without any autocorrelation between data.

Numerical Modeling of Saltwater Intrusion in the Rmel-Oulad Ogbane Coastal Aquifer (Larache, Morocco) in the Climate Change and Sea-Level Rise Context (2040)

Water, 2021

Many coastal aquifers have experienced seawater intrusion (SWI) into fresh groundwater aquifers. ... more Many coastal aquifers have experienced seawater intrusion (SWI) into fresh groundwater aquifers. The principal causes of SWI include over-pumping and events such as climate change (CC) and rising sea levels. In northern Morocco, the Rmel-Oulad Ogbane coastal aquifer (ROOCA) supplies high-quality groundwater for drinking water and agriculture. This favorable situation has led to increased pumping, resulting in environmental challenges such as dropping water table and SWI. Furthermore, the climate has resulted in less recharge, with an estimated annual precipitation of 602 mm and an average temperature of 18.5 °C. The goal of this study is to determine how CC, over-pumping, and sea-level rise (SLR) affect SWI. Computational groundwater and solute transport models are used to simulate the spatial and temporal evolution of hydraulic heads and groundwater solute concentrations. The calibration is based on steady and transient groundwater levels from 1962 to 2040. SWI simulations show tha...

Développement d’un sih pour l’amélioration des connaissances techniques sur le réservoir et le fonctionnement hydrodynamique de la nappe de Rmel (Maroc)

Revue des sciences de l’eau, 2019

La majorité des centres urbains et ruraux du bassin du Bas-Loukkos (nord du Maroc) sont généralem... more La majorité des centres urbains et ruraux du bassin du Bas-Loukkos (nord du Maroc) sont généralement situés sur la côte et les plaines côtières. L'augmentation de la demande en eau due à la démographie et au développement agricole est accompagnée par une pression sur les eaux souterraines. Cette situation a entraîné une baisse significative du niveau piézométrique et peut éventuellement causer un déficit du bilan hydrique de la nappe en provoquant une dégradation de la qualité de l'eau douce par invasion des eaux marines. La zone d'étude de Rmel-Oulad Ogbane,
couvrant une superficie de 305 km2, est située dans le bassin du Bas-Loukkos au sud de la ville de Larache. Afin de fournir une meilleure caractérisation de l’aquifère, il a été décidé d'organiser toutes les données dans des formats standard stockés dans une base de données numérique SIH (Système d'information hydrogéologique). Cette base de données SIH développée englobe un menu très varié relatif aux réservoirs et aux fonctionnements hydrodynamiques des ressources en eau. Les données issues de plusieurs sources et sur différents supports ont été traitées et organisées dans une
base de données commune avec des coordonnées spatiales référencées. Une
application Visual Basic a été aussi développée pour une meilleure utilisation et
gestion de cette base de données sous SIH. Ainsi, plusieurs cartes thématiques
relatives aux réservoirs et aux ressources en eau ont été produites pour être exploitées
par le décideur. Ces produits de la base de données SIH ont permis l’actualisation du
bilan hydrique de la nappe, la construction d’un bon modèle conceptuel des aquifères
conduisant au développement d’un modèle mathématique en régimes permanent et
transitoire, ainsi qu’un modèle de transport simulant l'intrusion de l'eau de mer dans
ces aquifères.