Delineation of groundwater potential zones using data-driven approaches: towards achieving sustainable groundwater management in drought-prone region of Eastern India.

To a large extent, the food security and ecological balance of a region, particularly in agriculturally dominated areas, largely depend on the sustainable use and management of groundwater resources. However, in recent times, both natural and human-driven factors have heavily impacted the lowering of groundwater resources. Therefore, the present study has been carried out in a drought-prone region of Birbhum district, part of the red-lateritic agro-climatic zone of West Bengal, Eastern India, to delineate groundwater potential zones (GWPZs). In this regard, 12 hydrological and environmental factors were selected after a multicollinearity test, i.e., elevation, slope, curvature, geomorphology, geology, lineament density, distance from river, topographic wetness index (TWI), groundwater level, rainfall, land use land cover, and soil types for modeling groundwater potentiality. To fulfill the objective, standard machine learning (ML) algorithms like "random forest (RF)," "support vector regression (SVR)," "maximum-entropy (Max-Ent)," and the ensemble approach of RF-Max-Ent have been applied. To validate the obtained result, five statistical techniques, i.e., area under curve (AUC), sensitivity, specificity, F-score, and Kappa coefficient, have been selected. The ranking and relative importance of all factors revealed that elevation, rainfall, TWI, and soil type are the most influential factors for groundwater potentiality in this study. The result of the evaluation metric indicates that the ensemble of RF-Max-Ent is the most suitable model to delineate GWPZ in this study site, as AUC is 0.893 in validation, followed by RF, Max-Ent, and SVR. Additionally, the rank value in the Friedman rank test and chi-squared test for RF-Max-Ent is 3.824 and 32.121, respectively. Overall, the findings revealed that a sizeable section of the study area has moderate to very good groundwater potential. The findings of this study can significantly support achieving sustainable development goals and help to improve groundwater levels in this region through appropriate groundwater policy planning.