Analysis of the geological control on the spatial distribution of potentially toxic concentrations of As and F- in groundwater on a Pan-European scale

The distribution of the high concentrations of arsenic (As) and fluoride (F-) in groundwater on a Pan-European scale could be explained by the geological European context (lithology and structural faults). To test this hypothesis, seventeen countries and eighteen geological survey organizations (GSOs) have participated in the dataset. The methodology has used the HydroGeoToxicity (HGT) and the Baseline Concentration (BLC) index. The results prove that most of the waters considered in this study are in good conditions for drinking water consumption, in terms of As and/or F- content. A low proportion of the analysed samples present HGT≥ 1 levels (4% and 7% for As and F-, respectively). The spatial distribution of the highest As and/or F- concentrations (via BLC values) has been analysed using GIS tools. The highest values are identified associated with fissured hard rock outcrops (crystalline rocks) or Cenozoic sedimentary zones, where basement fractures seems to have an obvious control on the distribution of maximum concentrations of these elements in groundwaters.This research was co-funded by the European Union’s Horizon 2020 research and innovation program (GeoERA HOVER project) under grant agreement number 731166. D. Voutchkova, B. Hansen, and J. Schullehner were also supported by Innovation Fund Denmark (funding agreement number 8055- 00073B). N. Rman participation was supported by the Slovenian Research Agency, research program P1-0020 Groundwaters and Geochemistry. A. Felter, J. Cabalska and A. Mikołajczyk participation was supported by the Polish Ministry of Education and Science. E. Giménez-Forcada is grateful for the support received from the CIPROM/2021/032 Project. Valencian Government. University of Valencia (Spain)

The Polish Hydrogeological Survey Database Integrator : a new GIS tool for the hydrogeological database management useful in mapping process

The PSH Database Integrator as a sophisticated tool for groundwater management answers the needs of the Polish Hydrogeological Survey. At the first stage it is a functional integration system for all hydrogeological databases existing in the Polish Geological Institute such as those of Groundwater Monitoring, HYDRO Bank and Hydrogeological Map of Poland. The final stage of all kind of analysis involves cartographical representation of the results. Using the PSH Database Integrator in this process reduces labour input and time as well as helps keeping standards. Next stage in the system development will enable internet access for users

Occurrence of pesticides in the measurement points of groundwater chemical status monitoring

Since 2009 Polish Geological Institute – National Research Institute has pursued measurements of pesticide concentration in the chosen points of groundwater chemical status monitoring as a part of State Environmental Monitoring. The article shows the results, which confirm that in groundwater in Poland occurrences of pesticides are mostly below of their limits of quantification or very close to them