Redirigiendo al acceso original de articulo en 19 segundos...
Inicio  /  Water  /  Vol: 9 Núm: 10 Par: 0 (2017)  /  Artículo
ARTÍCULO
TITULO

Aquifer Vulnerability Assessment for Sustainable Groundwater Management Using DRASTIC

Won Seok Jang    
Bernard Engel    
Jon Harbor    
Larry Theller    

Resumen

Groundwater management and protection has been facilitated by computational modeling of aquifer vulnerability and monitoring aquifers using groundwater sampling. The DRASTIC (Depth to water, Recharge, Aquifer media, Soil media, Topography, Impact of vadose zone media, and hydraulic Conductivity) model, an overlay and index GIS model, has been used for groundwater quality assessment because it relies on simple, straightforward methods. Aquifer vulnerability mapping identifies areas with high pollution potential that can be areas for priority management and monitoring. The objectives of this study are to demonstrate how aquifer vulnerability assessment can be achieved using DRASTIC with high resolution data. This includes calibrating DRASTIC weights using a binary classifier calibration method with a genetic algorithm (Bi-GA), identifying areas of high potential aquifer vulnerability, and selecting potential aquifer monitoring sites using spatial statistics. The aquifer vulnerability results from DRASTIC using Bi-GA were validated with a well database of observed nitrate concentrations for a study area in Indiana. The DRASTIC results using Bi-GA showed that approximately 42.2% of nitrate detections >2 ppm are within ?High? and ?Very high? vulnerability areas (representing 3.4% of study area) as simulated by DRASTIC. Moreover, 53.4% of the nitrate detections were within the ?Moderate? vulnerability class (26.9% of study area), and only 4.3% of the nitrate detections were within the ?Low? vulnerability class (60.1% of study area). Nitrates >2 ppm were not detected at all within the ?Very low? vulnerability class (9.6% of area). ?High? and ?Very high? vulnerability areas should be regarded as priority areas for groundwater monitoring and efforts to prevent groundwater contamination. This case study suggests that the approach may be applicable to other areas as part of efforts to target groundwater management efforts.

 Artículos similares

       
 
Carmine Massarelli, Maria Silvia Binetti, Mariangela Triozzi and Vito Felice Uricchio    
The topic of diffuse pollution is of particular interest from technical, scientific, and administrative management points of view. Diffuse pollution is defined as the contamination or chemical, physical, or biological alterations of environmental matrice... ver más
Revista: Hydrology

 
Chaloemporn Ponprasit, Yong Zhang, Xiufen Gu, Andrew M. Goodliffe and Hongguang Sun    
Groundwater vulnerability assessment helps subsurface water resources management by providing scientific information for decision-makers. Rigorous, quantitative assessment of groundwater vulnerability usually requires process-based approaches such as gro... ver más
Revista: Water

 
Vanessa Gonçalves, Antonio Albuquerque, Paulo Carvalho, Pedro Almeida and Victor Cavaleiro    
Deposition of corpses in the ground is the most common burial practice, which can allow interactions between polluting compounds and the soil, groundwater, and surface water, which may afterwards lead to negative environmental impacts and risks to public... ver más
Revista: Water

 
Emna Hfaiedh, Amor Ben Moussa, Marco Petitta and Ammar Mlayah    
Hydrogeochemical properties and groundwater quality assessment are very important for the effective management of water resources in arid and semiarid regions. The present investigation is a spatiotemporal analysis of groundwater quality using both chemi... ver más
Revista: Applied Sciences

 
Ümit Yildirim    
This study aimed to investigate groundwater vulnerability to pollution in the Upper Kelkit Valley (NE Turkey). For this purpose, vulnerability index maps were created using the generic DRASTIC and AHP-DRASTICLu models. The latter model was suggested by a... ver más