Abstract
There is currently some controversy in the scientific community regarding the efficiency of the water–rock interaction process in the contamination of radon in groundwater. In this study, some difficulties were found in the sampling phase. Many of the water collection points are used for human consumption. As such, some municipalities did not want to collaborate. When this natural contaminant is undetectable to the human sense and may cause pulmonary neoplasms in the long term, it is difficult to obtain collaboration from the municipalities concerned. To overcome this controversy, it is important to understand that geogenic, climatic, hydrological, and topographic features may contribute to the effective transfer of radon from rocks to groundwater. In brief, this new approach combines the radon transfer from the geological substrate to the groundwater circulation through hierarchic agglomerative clustering (HAC) and partial least squares-path modeling (PLS-PM) methods. The results show that some lithologies with higher radon production may not always contribute to noticeable groundwater contamination. In this group, the high-fracturing density confirms the recharge efficiency, and the physical-chemical properties of the hydraulic environment (electric conductivity) plays the main role of radon unavailability in the water intended for human consumption. Besides, the hydraulic turnover time of the springs can be considered an excellent radiological indicator in groundwater. In the absence of an anomalous radioactive source near the surface, it means that the high-turnover time of the springs leads to a low-radon concentration in the water. Besides linking high-risk areas with a short period required to free local flow discharges, this study exposes the virtues of a new perspective of a groundwater contamination risk modeling.
Highlights
In Europe, concerns about the protection of public health about the presence of radionuclides in water intended for human consumption are associated with a legal framework publication comprising the European Directive [1]
The main purpose of this study is to present a new standpoint on the radiological assessment of drinking water based on the relationship between groundwater contamination risk and radon production in rocks
This study aims to model presented in this study helps visualize some theoretical links between geology, hydraulic circuit contribute to clustering methods and parallel coordinate plots to the knowledge of the control type, and the radon concentration in groundwater
Summary
In Europe, concerns about the protection of public health about the presence of radionuclides in water intended for human consumption are associated with a legal framework publication comprising the European Directive [1]. The groundwater radon contamination into the surrounding environment may raise concerns for the general public, requiring the continuous monitoring for the assessment of harmful human health effects caused by its radionuclides disposal. Hespanhol et al [4] carried out a hospital-based study in patients from the north of Portugal, identifying an increasing trend of patients diagnosed with lung cancer, highlighting in 2008 32.2% of the total registered cases (n = 3288) and two years later a new increase for the 39.5%
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