Giacomelli, SITAI WEB: analisi degli accessi al sito (Maggio 2000-Maggio 2001), CRS4 Tech. Rep. Luglio 2001
Presentato alla prima conferenza su Saltwater intrusion and Coastal Aquifers-Monitoring, Modeling, and Management (Intrusione salina e monitoraggio, modellazione e gestione di acquiferi costieri). Tenuta a Essaouira (Marocco) nel 2001.
M. Hilali1, E. Lorrai2, A. Larabi1 and A. Giacomelli2
1 Mohammadia School of Engineers, Rabat Morocco
2 Centre for Advanced Study, Research and Development in Sardinia (CRS4) Cagliari, Italy
In the Moroccan Sahel water resources for agricultural, industrial and drinking use, are obtained almost exclusively by groundwater supply. Due to a high density of pumping wells, mainly located near the sea and characterised by a consistent exploitation for agricultural use, the Sahel aquifer system has been progressively affected by an increasing saltwater encroachment. The stress induced in the aquifer by the high pumping rates from the wells adds to a situation of natural saltwater intrusion, determined by the high permeability of the coastal aquifer, the thickness of the saturated zone and substratum.
The study area, with a surface of approximately 3100 km2, is part of a series of sub-atlantic plains in the coastal Méséta of Morocco (Ferré 1975). The area is delimited to the North by the oued (ephemeral stream) Oum Er Rbia, to the West by the Atlantic Ocean, and to the South-East by the Abda et Doukkala region (Figure 1). Agriculture represents the main economic activity in all the coastal zone of the Sahel. The region is characterized by a maritime climate, with an average annual rainfall of 350mm. Temperatures are relatively moderate, varying between 12 and 25°C. Infiltration is estimated around 7% on the yearly rainfall average; however we find this value rising to or above 15% in some of the zones characterized by karst structures (DRHT, 1994). Hydrologically, the Sahel may be classified as an endoreic area, with no oueds draining the internal part of the region and the limestone plateaus of Safi and El Jadida.
A geographic information system (GIS) provides functionality to store, display and analyze data of different nature, and to integrate such data for cartographic or modelling purposes. In order to provide an enhanced characterization of the aquifer, it was decided to organize the available set of data in a GIS framework. The data may be summarized as:
- Location and main characteristics of pumping and monitoring wells
- Three-dimensional representation of the aquifer
- Time series concerning variables such as piezometry, salinity, and other chemical parameters;
- Distribution of the hydraulic and hydro-chemical parameters;
- Description of different conditions of aquifer recharge and depletion;
- Representation of different hydraulic structures (or activities) directly or indirectly related to the aquifer system, such as xxperimètres irrigués.
These data, originally deriving from different sources and provided on different media, have been processed and organized in a common directory-based repository. The access to the different sets of information, represented by a group of geographic layers and a database for the storage of all alphanumeric data, has been based on the ArcView package, with the construction of a set of “projects” (i.e. user interfaces) reflecting the logical organization of the data by grouping the geographic layers and relating to each of these the relevant alphanumeric information. Namely, the main layers include monitoring and exploitation wells, geology, elevation, transmissivity. Salinity and piezometry maps for different time periods have also been derived. Figure 2 provides a sample display from one of the ArcView projects created, showing the distribution of the monitoring wells and of the exploitation wells which have been recorded during a recent survey on the coastal part of the Sahel.
Following the setup of the database and the characterization of the aquifer system obtained by the analysis of the geographic data and the available time series, the database will be used to support a set of hydrologic simulations based on the CODESA-3D model, thus complementing other studies undertaken within the same project both in the Sahel area and in other sites in the Mediterranean area (Paniconi, 2000).
DRHT, Elaboration d’un schéma d’exploitation des eaux souterraines du Sahel. Rapport de synthèse. F.A.O Projet TCP/MOR/2251. Marrakech (Maroc), 1994.
Ferré M., Ruhard J. P., Les bassins des Abda-Doukkala et du Sahel de Azemmour à Safi. – Ress. En eau du Maroc. Tome 2. Ed. Serv. Géol. du Maroc. Rabat. pp. 261-298, 1975.
Paniconi, C., Report on the Preliminary Study of Soil and Aquifer Degradation from Seawater Intrusion in the Coastal Areas of Tunisia, Morocco, and Sardinia (R.A.S. L.R. 19/96, Phase II), Centre for Research, Development, and Advanced Studies in Sardinia (CRS4) and Ente Autonomo del Flumendosa (EAF), Cagliari, Italy, November 2000
Acknowledgements: The study was financed by the Sardinian Regional Authorities (L.R. 19/96, International cooperation for development).
C. Paniconi, I. Khlaifi, G. Lecca, A. Giacomelli, J. Tarhouni, A modelling study of Seawater Intrusion in the Korba Coastal Plain, Tunisia, Phys. Chem, Earth (B), 26(4), 345-351, 2001
A. Giacomelli, C. Giupponi, C. Paniconi, Agricultural Impacts on Groundwater: Processes, Modelling and Decision Support, in C. Dosi (ed.), Agricultural Use of Groundwater, 35-75, Kluwer Academic Publishers, Great Britain, 2001
Lorrai, E., A. Giacomelli, I. Meloni
Studio di un sistema informativo per la gestione delle emergenze in seguito ad eventi calamitosi in Sardegna. Atti 3a Conferenza Associazione Scientifica per l’Informazione Territoriale e Ambientale (ASITA), Napoli, Novembre, Vol.II, pp.861-866, 1999
C. Paniconi, S. Kleinfeldt, J. Deckmyn, A. Giacomelli, Integrating GIS and data visualization tools for distributed hydrologic modelling, Transactions in GIS, 97-118, 3(2), 1999.
S. Loddo, A. Giacomelli, ELEGIA: European Local Enterprise and Geographic Information Aggregation, Proceedings of the 4th EC-GIS Workshop, Budapest, June 1998.
A. Giacomelli, C. Paniconi, I. Khlaifi, J. Tarhouni, A modular approach to the Korba aquifer seawater intrusion study, 1, GIS field data analysis, Atti del 15th Salt Water Intrusion Meeting (SWIM). Laboratory of Applied Geology and Hydrogeology, University of Ghent, Ghent, Belgium, 1998
A. Giacomelli, S. Loddo, E. Lorrai, SITAI: a geographic information system for the industrial areas of Sardinia, in “GIS Technologies and their Environmental Applications”, 201-210, P. Pascolo and C.A. Brebbia eds., Computational Mechanics Publications, Southampton, UK and Boston, USA, 1998.
A .Giacomelli, L. Muscas, Tre esempi di valutazione del rischio idrogeologico realizzati con un supporto GIS. CRS4 Technical report, 1998.