Abstract
Human activities are deeply connected with groundwater reservoirs, so protecting them from pollution has become a priority in many regions of the world. Nitrate is considered the main groundwater pollutant since it is directly linked to many human activities. Agricultural activities and domestic wastewater have been identified as the main sources of nitrate in groundwater. Nevertheless, there are some natural processes that can mitigate nitrate pollution. Together with dilution processes, the degradation of nitrate through denitrification has been acknowledge as a process that can potentially reduce nitrogen loads, in both deep and shallow aquifers. Usually these processes were not properly quantified in vulnerability assessment methods, until the introduction of LOS indices. In this study, the application of the LOS indices on 4 agricultural areas is discussed, highlighting how the LOS indices can identify portions of the landscape with higher potential denitrification and how they directly enhance the groundwater vulnerability assessment. Previous studies have shown that LOS indices are a valuable tool for proper vulnerability assessment to nitrate, however they need to be coupled with other parameters that also describe nitrate behavior in groundwater. The SINTACS-SVN and DRASTIC-PA methods that include the LOS indices, were applied for the first time in the Epanomi coastal area to evaluate the reliably of the assessment and, despite the different classes range and the weights applied, similar groundwater vulnerability assessment maps were obtained. The nitrate vulnerability maps were comparable with the observed nitrate concentrations and were found to be highly comparable with original LOS maps. Nevertheless, it should be kept in mind that vulnerability methods are only screening tools and groundwater quality observations are pivotal information for environmental management.
Highlights
Groundwater pollution represents one of the main concerns all over the world, especially for those regions where agriculture is the primary activity
All the seven parameters necessary for the LOSN-P application have been digitalized using a raster format with a resolution of 25 x 25 m in Geographic Information System (GIS) environment raster format with a resolution of 25 x 25 m in Geographic Information System (GIS) environment using ArcGIS 10.2, for all the four study areas
− the application of LOSN index in four different study areas and its role in 3 concentration has been attributed to the fertilizer application as the main land use of improving the vulnerability methodologies was analyzed
Summary
Groundwater pollution represents one of the main concerns all over the world, especially for those regions where agriculture is the primary activity. This is mainly due to the high dependence of all human assets (agricultural, industrial, municipals, etc.) on groundwater resources, that could make them highly susceptible to external pollution [1]. Together with domestic wastewater disposal, industrial discharge and urban activities have been identified as the main sources of nitrate in groundwater [5,6,7,8]. The alluvial plains are the areas more characterized by intensive agricultural activities and they are often affected by groundwater nitrate pollution [9,10,11,12]
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