Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco

Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco

The main landfill in the city of Rabat (Morocco) is based on sandy material containing the shallow Mio-Pliocene aquifer. The presence of a pollution plume is likely, but its extent is not known. Measurements of spontaneous potential (SP) from the soil surface were cross-referenced with direct measur...

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Main Authors: Meryem Touzani, Ismail Mohsine, Jamila Ouardi, Ilias Kacimi, Moad Morarech, Mohamed Habib El Bahajji, Tarik Bouramtane, Abdessamad Tiouiouine, Suzanne Yameogo, Badr El Mahrad
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Water
Subjects:
self-potential
redox potential
leachate plume
landfill
Rabat (Morocco)
Online Access:https://www.mdpi.com/2073-4441/13/7/961
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spelling doaj-b98f79414fce46b8adf63749d3b1bbcc2021-03-31T23:06:24ZengMDPI AGWater2073-44412021-03-011396196110.3390/w13070961Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, MoroccoMeryem Touzani0Ismail Mohsine1Jamila Ouardi2Ilias Kacimi3Moad Morarech4Mohamed Habib El Bahajji5Tarik Bouramtane6Abdessamad Tiouiouine7Suzanne Yameogo8Badr El Mahrad9Laboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoLaboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoRegional Centre for Education and Training Professions, El Jadida 24000, MoroccoLaboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoLaboratory in Applied and Marine Geosciences, Geotechnics and Georisk (LR3G), Faculty of Science Tetouan, Abdelmalek Essaâdi University, Tetouan 93000, MoroccoLaboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoLaboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoLaboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoEarth Sciences Department, University of Ouagadougou, Ouagadougou BP 7021, Burkina FasoLaboratory of Geoscience, Water and Environment (LG2E-CERNE2D), Department of Earth Sciences, Faculty of Sciences, Mohammed V University of Rabat, Rabat 10999, MoroccoThe main landfill in the city of Rabat (Morocco) is based on sandy material containing the shallow Mio-Pliocene aquifer. The presence of a pollution plume is likely, but its extent is not known. Measurements of spontaneous potential (SP) from the soil surface were cross-referenced with direct measurements of the water table and leachates (pH, redox potential, electrical conductivity) according to the available accesses, as well as with an analysis of the landscape and the water table flows. With a few precautions during data acquisition on this resistive terrain, the results made it possible to separate the electrokinetic (~30%) and electrochemical (~70%) components responsible for the range of potentials observed (70 mV). The plume is detected in the hydrogeological downstream of the discharge, but is captured by the natural drainage network and does not extend further under the hills.https://www.mdpi.com/2073-4441/13/7/961self-potentialredox potentialleachate plumelandfillRabat (Morocco)
collection DOAJ
language English
format Article
sources DOAJ
author Meryem Touzani
Ismail Mohsine
Jamila Ouardi
Ilias Kacimi
Moad Morarech
Mohamed Habib El Bahajji
Tarik Bouramtane
Abdessamad Tiouiouine
Suzanne Yameogo
Badr El Mahrad
spellingShingle Meryem Touzani
Ismail Mohsine
Jamila Ouardi
Ilias Kacimi
Moad Morarech
Mohamed Habib El Bahajji
Tarik Bouramtane
Abdessamad Tiouiouine
Suzanne Yameogo
Badr El Mahrad
Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco
Water
self-potential
redox potential
leachate plume
landfill
Rabat (Morocco)
author_facet Meryem Touzani
Ismail Mohsine
Jamila Ouardi
Ilias Kacimi
Moad Morarech
Mohamed Habib El Bahajji
Tarik Bouramtane
Abdessamad Tiouiouine
Suzanne Yameogo
Badr El Mahrad
author_sort Meryem Touzani
title Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco
title_short Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco
title_full Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco
title_fullStr Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco
title_full_unstemmed Mapping the Pollution Plume Using the Self-Potential Geophysical Method: Case of Oum Azza Landfill, Rabat, Morocco
title_sort mapping the pollution plume using the self-potential geophysical method: case of oum azza landfill, rabat, morocco
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2021-03-01
description The main landfill in the city of Rabat (Morocco) is based on sandy material containing the shallow Mio-Pliocene aquifer. The presence of a pollution plume is likely, but its extent is not known. Measurements of spontaneous potential (SP) from the soil surface were cross-referenced with direct measurements of the water table and leachates (pH, redox potential, electrical conductivity) according to the available accesses, as well as with an analysis of the landscape and the water table flows. With a few precautions during data acquisition on this resistive terrain, the results made it possible to separate the electrokinetic (~30%) and electrochemical (~70%) components responsible for the range of potentials observed (70 mV). The plume is detected in the hydrogeological downstream of the discharge, but is captured by the natural drainage network and does not extend further under the hills.
topic self-potential
redox potential
leachate plume
landfill
Rabat (Morocco)
url https://www.mdpi.com/2073-4441/13/7/961
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