Saved in:
Bibliographic Details
Main Authors: Seraiche, Lakhdar, Dougha, Mostafa, Ghodbane, Messaoud, Selmane, Tahar, Ferhati, Ahmed, Djemiat, Djamal Eddine
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.00023
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866915763950977024
author Seraiche, Lakhdar
Dougha, Mostafa
Ghodbane, Messaoud
Selmane, Tahar
Ferhati, Ahmed
Djemiat, Djamal Eddine
author_facet Seraiche, Lakhdar
Dougha, Mostafa
Ghodbane, Messaoud
Selmane, Tahar
Ferhati, Ahmed
Djemiat, Djamal Eddine
contents Groundwater vulnerability is a major concern in arid regions worldwide, where population growth and intensive agriculture increase the risks of depletion and contamination. This study proposes a hybrid groundwater vulnerability assessment framework that improves the conventional DRASTIC model by integrating land-use data and applying advanced weighting techniques, namely the Analytical Hierarchy Process (AHP) and its fuzzy logic variant (Fuzzy AHP). This method makes expert-based weighting less subjective, better captures anthropogenic effects, and facilitates adaptation to challenging situations and limited data. Four vulnerability maps were produced using Geographic Information Systems (GIS): DRASTIC, DRASTIC_LU, AHP DRASTIC_LU, and Fuzzy AHP DRASTIC_LU. We used nitrate levels from 70 wells to verify our work. We found that agricultural areas, especially those above the alluvial aquifer, were the most vulnerable. The ROC curve analysis showed that the model improved over time, with the area under the curve (AUC) values of 0.812 for DRASTIC, 0.864 for DRASTIC_LU, 0.875 for AHP DRASTIC_LU, and 0.951 for fuzzy AHP DRASTIC_LU. These results show that fuzzy AHP DRASTIC_LU makes groundwater risk assessments much more. The GIS-based hybrid models offer a scalable and transferable method for mapping vulnerability, but they also provide local and regional water resource managers with useful information.
format Preprint
id arxiv_https___arxiv_org_abs_2602_00023
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Groundwater vulnerability assessment in semi-arid regions using GIS-based DRASTIC models and FUZZY AHP: South Chott Hodna
Seraiche, Lakhdar
Dougha, Mostafa
Ghodbane, Messaoud
Selmane, Tahar
Ferhati, Ahmed
Djemiat, Djamal Eddine
Computers and Society
Groundwater vulnerability is a major concern in arid regions worldwide, where population growth and intensive agriculture increase the risks of depletion and contamination. This study proposes a hybrid groundwater vulnerability assessment framework that improves the conventional DRASTIC model by integrating land-use data and applying advanced weighting techniques, namely the Analytical Hierarchy Process (AHP) and its fuzzy logic variant (Fuzzy AHP). This method makes expert-based weighting less subjective, better captures anthropogenic effects, and facilitates adaptation to challenging situations and limited data. Four vulnerability maps were produced using Geographic Information Systems (GIS): DRASTIC, DRASTIC_LU, AHP DRASTIC_LU, and Fuzzy AHP DRASTIC_LU. We used nitrate levels from 70 wells to verify our work. We found that agricultural areas, especially those above the alluvial aquifer, were the most vulnerable. The ROC curve analysis showed that the model improved over time, with the area under the curve (AUC) values of 0.812 for DRASTIC, 0.864 for DRASTIC_LU, 0.875 for AHP DRASTIC_LU, and 0.951 for fuzzy AHP DRASTIC_LU. These results show that fuzzy AHP DRASTIC_LU makes groundwater risk assessments much more. The GIS-based hybrid models offer a scalable and transferable method for mapping vulnerability, but they also provide local and regional water resource managers with useful information.
title Groundwater vulnerability assessment in semi-arid regions using GIS-based DRASTIC models and FUZZY AHP: South Chott Hodna
topic Computers and Society
url https://arxiv.org/abs/2602.00023