Abstract
The lower Khwae Hanuman sub-basin in Thailand suffers from water shortage during each dry season. As such, groundwater resources are an additional freshwater source in this region, in particular for cultivating activities. Thus, an understanding of the volume of groundwater recharge into the saturated zone is required. The objective of the study is to assess the groundwater recharge potential (GRP) using the weighted overlay analysis method by geographic information system (GIS) and finally checking the reliability of GRP map using observed specific capacity carried out by the Department of Groundwater Resources (DGR). The geological and hydrogeological features that affect groundwater potential are the lithology, land use, lineaments, drainage, slope, and soil. The weighting and rating of these six influencing factors were determined by assessing the interrelationship of the main and minor influences of each factor based on several literature reviews, followed by a weighted overlay analysis with GIS, in association with groundwater recharge. The GRP can be classified in descending order: high, moderate, low, and very low, where about 33.9 km2 (2.26% of the total area of 1,500 km2) had high recharge potentiality, located at the center of the area. Only 12.8% of the total precipitation (271.75 million m3/y or approximately 181.2 mm) infiltrated the groundwater aquifer, while the rest was lost by either surface runoff or evapotranspiration. Based on GRP sensitivity analysis index, lithology was the most efficient influencing factor in GRP mapping. Most groundwater wells (>96% or 369 wells) were classified into the classes of low and moderated, which agree to the GRP zones. The results of calculating the area under the curve (AUC) of the receiver operating characteristic (ROC) curve were 86.0 percent, with relatively good predictive accuracy. The stable baseflow analysis would be used to confirm the amount of GRP by weighting overlay technique. Therefore, the GRP method can be applied in other areas, particular in similar hydrogeological characteristics. The first-hand recharge potential map and groundwater recharge information in this area can be used to establish an effective groundwater exploration program for agricultural activities; it is also used to appropriate sustainable yields from each groundwater basin to provide groundwater over the long-term, without negatively impacting the environment and without affecting the groundwater balance as it has recharge in the rainy seasons, which can use groundwater sustainably. It is in line with the sustainable development goals (SDGs) in goal number six of the UN.
Highlights
Water is an essential resource for agriculture
The present study used a classification of six influencing factors with different levels of effect on the water recharge potential (Figure 5) and the effect of each factor used a different method for evaluation
This indicates that only 12.8% of the precipitated water in the area was recharged into the groundwater, the rest being lost due to evapotranspiration or surface runoff
Summary
Water is an essential resource for agriculture. In Thailand, surface water is the main source of agricultural irrigation. This study aimed to determine the groundwater recharge potential (GRP) by the geographic information system (GIS) to determine six contributing influencing factors: lithology, land use, lineaments, drainage, slope, and soil. Most previous studies have not validated and conducted the sensitivity analysis of GRP maps, which found that some studies quantitatively investigated the recharge of water into groundwater aquifers (Adham et al, 2010; Deepa et al, 2016; Selvam et al, 2016). The above studies did not mention the sensitivity analysis of the influencing factors
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