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Assessment of Aquifer Vulnerability in an Agricultural Area in Spain Using the DRASTIC Model
Authors:Georgios Bartzas  Dimitra Zaharaki  Ma Teresa Hernández-Fernández  Jose Luis Moreno Ortego
Affiliation:1. National Technical University of Athens, School of Mining and Metallurgical Engineering, Athens, Greece;2. Technical University Crete, School of Mineral Resources Engineering, Chania, Greece;3. Centro de Edafologia y Biologia Aplicada Del Segura, Consejo Superior de Investigaciones Científicas (CEBAS CSIC), Espinardo, Murcia, Spain
Abstract:The assessment of aquifer vulnerability is a very important task, especially in agricultural areas because the quality and availability of groundwater affects both the sustainability of agriculture and the quality of life. In this study, an integrated approach is considered, with the use of the generic and agricultural DRASTIC models as well as a geographic information system (GIS), to assess groundwater vulnerability in the agricultural area of Barrax, in the province of Albacete, in Spain. Seven parameters—depth to water, net recharge, aquifer media, soil media, topography, impact of vadose zone media, and hydraulic conductivity of the aquifer (DRASTIC)—have been considered as weighted layers to enable an accurate groundwater risk mapping. The results of the generic DRASTIC model indicated very low vulnerability to contamination for Barrax groundwater due to limited urban and industrial development in the wider area. However, agricultural activities impose pressure to groundwater resources and the results of the agricultural DRASTIC model show that 6.86% of the study area is characterized by very high, 2.29% by high, 47.28% by medium, 38.28% by low, and the remaining 5.29% by no vulnerability to groundwater contamination. The distribution of nitrate concentration in groundwater in the area under study is quite well correlated with the agricultural DRASTIC vulnerability index. Sensitivity analysis was also performed to acknowledge statistical uncertainty in the estimation of each parameter used, to assess its impact, and thus to identify the most critical parameters that require further investigation. Depth to water and impact of vadose zone are the parameters that had the most noticeable impact on the generic DRASTIC vulnerability index followed by the soil media and topography. In contrast, the agricultural DRASTIC method is more sensitive to the removal of the depth to water parameter followed by the topography and the soil media parameters.
Keywords:Barrax  DRASTIC  groundwater  risk  vulnerability
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