期刊
LAND
卷 12, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/land12040771
关键词
groundwater; remote sensing; GIS; data-driven modeling
Groundwater is an important resource that meets daily water demands, supports industrial development, influences agricultural output, and maintains ecological equilibrium. Remote sensing data can predict potential water resources. A study was conducted in China's Yellow River region, using a GIS-based frequency ratio machine learning technique to generate and integrate nine layers of evidence influenced by remote sensing data. The study identified different groundwater prospective zones and validated the maps using well data. Combining different data sets through GIS can reveal promising areas of water resources. Rating: 8/10
Groundwater is an essential resource that meets all of humanity's daily water demands, supports industrial development, influences agricultural output, and maintains ecological equilibrium. Remote sensing data can predict the location of potential water resources. The current study was conducted in China's Yellow River region, Ningxia Hui Autonomous Region (NHAR). Through the use of a GIS-based frequency ratio machine learning technique, nine layers of evidence influenced by remote sensing data were generated and integrated. The layers used are soil characteristics, aspect, and roughness index of the terrain, drainage density, elevation, lineament density, depressions, rainfall, and distance to the river from the location. Six groundwater prospective zones (GWPZs) were found to have very low (13%), low (30%), moderate (25%), high (16%), very high (11%), and extreme potentiality (5.26%) values. According to well data used to validate the GWPZs map, approximately 40% of the wells are consistent to very high to excellent zones. Information about groundwater productivity was gathered from 150 well locations. Using well data that had not been used for model training, the resulting GWPZs maps were validated using area-under-the-curve (AUC) analysis. FR models have an accuracy rating of 0.759. Landsat data were used to characterize the study area's changes in land cover. The spatiotemporal differences in land cover are detected and quantified using multi-temporal images which revealed changes in water, agricultural, and anthropogenic activities. Overall, combining different data sets through a GIS can reveal the promising areas of water resources that aid planners and managers.
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