Abstract
It is a well-known fact that sustainable development goals are difficult to achieve without a proper water resources management strategy. This study tries to implement some state-of-the-art statistical and data mining models i.e., weights-of-evidence (WoE), boosted regression trees (BRT), and classification and regression tree (CART) to identify suitable areas for artificial recharge through floodwater spreading (FWS). At first, suitable areas for the FWS project were identified in a basin in north-eastern Iran based on the national guidelines and a literature survey. Using the same methodology, an identical number of FWS unsuitable areas were also determined. Afterward, a set of different FWS conditioning factors were selected for modeling FWS suitability. The models were applied using 70% of the suitable and unsuitable locations and validated with the rest of the input data (i.e., 30%). Finally, a receiver operating characteristics (ROC) curve was plotted to compare the produced FWS suitability maps. The findings depicted acceptable performance of the BRT, CART, and WoE for FWS suitability mapping with an area under the ROC curves of 92, 87.5, and 81.6%, respectively. Among the considered variables, transmissivity, distance from rivers, aquifer thickness, and electrical conductivity were determined as the most important contributors in the modeling. FWS suitability maps produced by the proposed method in this study could be used as a guideline for water resource managers to control flood damage and obtain new sources of groundwater. This methodology could be easily replicated to produce FWS suitability maps in other regions with similar hydrogeological conditions.
Highlights
A major part of Iran falls under arid and semi-arid climates with a low amount of precipitation, high temperature, and high evapotranspiration rates [1]
The over-exploitation of groundwater in the Mashhad Plain has led to a decline in the water table
This has caused problems for the sustainable development of the region that has resulted in the migration of the residents to other areas during the last decade
Summary
A major part of Iran falls under arid and semi-arid climates with a low amount of precipitation, high temperature, and high evapotranspiration rates [1]. Iran receives only one-third of the average annual rainfall in the world [2]. Thirty out of forty natural disasters in the world occur in this country [1]. Floods are regarded as the most frequent natural disaster in the past years and have resulted in a huge amount of social, environmental, and economic losses [4,5]. Regarding the undesirable situation of water resources in Iran and many other countries in the Middle East, achieving sustainable development is becoming more difficult and immediate action is needed to change the situation. A good solution for this would be an implementation of floodwater spreading (FWS) system, which has two main goals: (i) controlling floods and reducing the damage they cause, and (ii) recharging groundwater (GW) by infiltrating surface water into the ground. Water managers need to consider several factors and guidelines in order to select the best locations for FWS construction
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