Spatial assessment of flood vulnerability and waterlogging extent in agricultural lands using RS-GIS and AHP technique—a case study of Patan district Gujarat, India

Assessing and mapping flood risks are fundamental tools that significantly contribute to the enhancement of flood management strategies. Identifying areas that are susceptible to floods and devising strategies to reduce the risk of waterlogging is of utmost importance. In the present study, an integ...

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Bibliographic Details
Published in:Environmental monitoring and assessment 2024-04, Vol.196 (4), p.338-338, Article 338
Main Authors: Gahalod, Nitin Surendra Singh, Rajeev, Kumar, Pant, Pawan Kumar, Binjola, Sonam, Yadav, Rameshwar Lal, Meena, Rang Lal
Format: Article
Language:English
Subjects:
Agricultural land
Agricultural practices
Analytic hierarchy process
Assessments
Atmospheric Protection/Air Quality Control/Air Pollution
Conservation
Earth and Environmental Science
Ecology
Ecotoxicology
Environment
Environmental Management
Environmental risk
Evaluation
Flood control
Flood management
Flood mapping
Flood risk
Flooding
Floods
Geographic information systems
Geographical information systems
Ground truth
Heavy rainfall
Information systems
Integrated approach
Land use
Monitoring/Environmental Analysis
Multiple criterion
Rainfall
Remote sensing
Risk levels
Risk reduction
Satellite imagery
Soil drainage
Soil improvement
Sustainable agriculture
Sustainable practices
Visual system
Vulnerability
Waterlogged ground
Waterlogging
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Summary:Assessing and mapping flood risks are fundamental tools that significantly contribute to the enhancement of flood management strategies. Identifying areas that are susceptible to floods and devising strategies to reduce the risk of waterlogging is of utmost importance. In the present study, an integrated approach, combining advanced remote sensing technologies, Geographic Information Systems (GIS), and analytic hierarchy process (AHP), was adopted in the Patan district of Gujarat, India, with a coastline spanning over 1600 km, to evaluate the numerous variables that contribute to the risk of flooding and waterlogging. After evaluating the flood conditioning factors and their respective weights using the analytic hierarchy process (AHP), the results were processed in GIS to accurately delineate areas that are prone to flooding. The results highlighted exceptional precision in identifying vulnerable areas, allowing for a thorough evaluation of the impact severity. The integrated approach yields valuable insights for multi-criteria assessments. The findings indicate that a significant portion of the district’s land, precisely 8.94%, was susceptible to very high- risk of flooding, while 27.76% were classified as high-risk areas. Notably, 35.17% of the region was identified as having a moderate level of risk. Additionally, 20.96% and 7.15% were categorized as low-risk and very low-risk areas, respectively. Overall, the study highlights the need for proactive measures to mitigate the impact of floods on vulnerable communities. The research findings were verified by conducting ground truth and visual assessments using microwave satellite imagery (Sentinel-1). The aim of this validation was to test the accuracy of the study in identifying waterlogged agricultural areas and their extent based on AHP analysis. The ground verification and analysis of satellite images confirmed that the model accurately identified approximately 74% of the area categorized under high and very high flood vulnerability to be waterlogged and flooded. This research can provide valuable assistance to policymakers and authorities responsible for flood management by gathering necessary information about floods, including their intensity and the regions that are most susceptible to their impact. Additionally, it is crucial to implement corrective measures to improve soil drainage in vulnerable areas during heavy rainfall events. Prioritizing the adoption of sustainable agricultural practices a
ISSN:0167-6369
1573-2959
DOI:10.1007/s10661-024-12482-9