Abstract
BackgroundThe presence of nitrate is one of the factors limiting the quality of groundwater resources, particularly in arid and semi-arid climates. Therefore, the knowledge about the distribution of nitrate in groundwater and its source has an effective role in protecting health. The study aimed to optimize an interpolation method to predict the nitrate concentration and assessment of aquifer vulnerability in Qazvin plain.MethodsOne hundred sixty-two deep wells in Qazvin plain aquifer were randomly selected and nitrate concentration was analyzed in four different lands including agricultural, residential, steppe and mixed-use areas. Interpolation was done by IDW, Spline, Kriging and National neighbor methods using ArcGIS software. To select the best interpolation method, errors of predicted values were determined by Mean Relative Error (RME) and Root Mean Square Error (RMSE). For analysis of potential vulnerability of aquifer to nitrate pollution due to agricultural activity and sewage leaks, hazard factors and control factors were used for identification of hazard indexes (HI) using IPNOA and IPNOC model.ResultsThe results showed that in 8.82% and 18.52% of samples in agricultural and residential areas, the detected nitrate was above the acceptable level at 50 mg/L. National neighbor method with the lowest RME and Spline method with the lowest RMSE were provided the most accurate estimates of nitrates in the aquifer. The highest hazard was obtained in agricultural areas (HI = 6.11). Also, the most influential parameters on aquifer vulnerability were mineral fertilizer (HFf = 3), organic fertilizers (HFm = 3), irrigation systems (CFi = 1.04) and tillage patterns (CFap = 1.04).ConclusionsAccording to the results, National neighbor with the lowest RME was preferable than the other spatial interpolation methods for prediction of nitrate concentration in the aquifer. This method provided similar spatial distribution maps of nitrate in groundwater and that was an efficient method for assessing water quality. Hazard index as a result of agricultural activities (IPNOA) was ranged from “very low” to “low” which was in accordance with detected and predicted nitrate concentration in the aquifer. In addition he hazard of nitrate contamination from household (IPNOC) was in very low (class 2).
Highlights
The presence of nitrate is one of the factors limiting the quality of groundwater resources, in arid and semi-arid climates
In addition the results showed that nitrate concentration was significantly different in two climates (p < 0.05)
The results showed that 27 sample stations were located in residential areas at a distance of 500 m between water wells and residential septic based on Calculated fixed radial (CFR) method
Summary
The presence of nitrate is one of the factors limiting the quality of groundwater resources, in arid and semi-arid climates. The knowledge about the distribution of nitrate in groundwater and its source has an effective role in protecting health. Due to its wide distribution and ease access, groundwater is considered as one of the most important sources of drinking water [1]. Due to increased human activities and negligence in chemical usage, an increase in nitrate concentration in residential areas groundwater seems natural. Many studies have shown high concentration of nitrate in areas with septic tank. The increase in population has considered as an influential factor in increasing nitrate concentration. Nas and Berktay showed that the average nitrate concentration increased from 2.2 to 16.1 mg/L during 1998 to 2001 in Konya, Turkey [15]
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