Influence of natural and anthropogenic factors on the chemical composition of shallow groundwater in the city of Wrocław, south-west Poland

Ali, J., Kumar, M., Saraf, S. & Jain, T., 2015. Study of water quality of shallow groundwater. Advances in Applied Science Research 6, 78–87. Search in Google Scholar

Cattell, R.B., 1966. The scree test for the number of factors. Multivariate behavioral research 1(2), 245–276.10.1207/s15327906mbr0102_10 Search in Google Scholar

Chudzik, L. & Wojtkowiak, A., 2006. Hydrogeological Map of Poland, scale 1:50,000, Top aquifer – hydrodynamics and occurence, sheet 764 Wrocław. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Ciężka, M., Modelska, M., Górka, M., Trojanowska-Olichwer, A. & Widory, D., 2016. Chemical and isotopic interpretation of major ion compositions from precipitation: a one-year temporal monitoring study in Wrocław, SW Poland, Journal of Atmospheric Chemistry 73, 61–80.10.1007/s10874-015-9316-2 Search in Google Scholar

Criollo, R., Vázquez-Suñé, E., Burdons, S., Enrich, M. & Chesa, M.J., 2018. Urban groundwater quality. Update of the Barcelona city. [In:] EGU General Assembly Conference Abstracts, p. 18937. Search in Google Scholar

Czerski, M. & Ihnatowicz, A., 2006. Hydrogeological Map of Poland, scale 1:50,000, Top aquifer – hydrodynamics and occurence, sheet 727 Trzebnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Davies, P.J., Wright, I.A., Jonasson, O.J. & Findlay, S.J., 2010. Impact of concrete and PVC pipes on urban water chemistry. Urban Water Journal 7, 233–241.10.1080/1573062X.2010.484502 Search in Google Scholar

Dorociak-Tokarczyk, K., Kazak, J. & Szewrański, S., 2018. The impact of a large city on land use in Suburban area – the case of Wrocław (Poland). Journal of Ecological Engineering 19, 89–98.10.12911/22998993/81783 Search in Google Scholar

Dragon, K., 2006. Application of factor analysis to study contamination of a semi-confined aquifer (Wielkopolska Buried Valley aquifer, Poland). Journal of Hydrology 331, 272–279.10.1016/j.jhydrol.2006.05.032 Search in Google Scholar

Dubicki, A., Dubicka, M. & Szymanowski, M., 2002. Klimat Wrocławia [Climate of Wroclaw]. [In:] Smolnicki, K. & Szykasiuk, M. (Eds), Środowisko Wrocławia – Informator [Environment of Wroclaw]. Dolnośląska Fundacja Ekorozwoju, Wrocław, p. 9–20 (in Polish). Search in Google Scholar

EEA report | No 10/2017 Landscapes in transition – An account of 25 years of land cover change in Europe. https://www.eea.europa.eu/publications/landscapes-in-transition (access 20 January 2022). Search in Google Scholar

European Commission, 2018. Urban Atlas 2018. FUA Delivery Report. https://land.copernicus.eu/local/urban-atlas/urban-atlas-2018 (access 9 September 2021). Search in Google Scholar

European Commision, Eurostat, 2016. Urban Europe — statistics on cities, towns and suburbs. Publications Office, https://doi.org/10.2785/594675. Search in Google Scholar

Foster, S., 2020. Global overview of groundwater in urban development – A tale of 10 cities. Water 12, 456, 1–8.10.3390/w12020456 Search in Google Scholar

Gizler, H., 1982. Detailed Geological Map of Poland, 1:50,000, sheet 726 Oborniki Śląskie. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Grischek, T., Nestler, W., Piechniczek, D. & Fischer, T., 1996. Urban groundwater in Dresden, Germany. Hydrogeology Journal 4, 48–63.10.1007/s100400050088 Search in Google Scholar

Horbowy, K., Krawczyk, A. & Krawczyk, J., 2010, Hydrogeological Map of Poland, scale 1:50,000, Top aquifer – quality, sheet 727 Trzebnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

IMWM-NRI (The Polish Institute of Meteorology and Water Management – National Research Institute), 2021. https://danepubliczne.imgw.pl/datastore (access 20 January 2022). Search in Google Scholar

Johnson, A.I., 1975. Report on the activities of the international commission on subsurface water for the period 1971–1975. Hydrological Sciences Journal 20, 413–419.10.1080/02626667509491573 Search in Google Scholar

Khatri, N. & Tyagi, S., 2015. Influences of natural and anthropogenic factors on surface and groundwater quality in rural and urban areas. Frontiers in Life Science 8, 23–39.10.1080/21553769.2014.933716 Search in Google Scholar

Kiełczawa, J., 2006. Hydrogeological Map of Poland, scale 1:50,000, Top aquifer – hydrodynamics and occurence, sheet 763 Leśnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Kiełczawa, J., 2007. Hydrogeological Map of Poland, scale 1:50,000, Top aquifer – quality, sheet 763 Leśnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Kiełczawa, J., Mroczkowska, B. & Kłonowski, M., 1997. Hydrogeological Map of Poland, scale 1:50,000, sheet 763 Leśnica (with Explanations). Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Kieńć, D., 1997. Hydrogeological Map of Poland, scale 1:50,000, sheet 727 Trzebnica (with Explanations). Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Konieczyńska, M., 1998. Geochemical atlas of Wrocław and environs, Part II: groundwater. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Lidzbarski, M., Sokołowski, K. & Warumzer, R., 2016. Factors affecting resources and chemistry of ground-water in the Gdańska agglomeration area. Przegląd Geologiczny 64, 389–398 (in Polish with English summary). Search in Google Scholar

Łabno, A., 1986. Detailed Geological Map of Poland 1:50,000, sheet 763 Leśnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Macioszczyk, A., 1987. Hydrogeochemia [Hydrogeochemistry]. Wydawnictwa Geologiczne, Warszawa (in Polish), 475 pp. Search in Google Scholar

Macioszczyk, A. & Dobrzyński, K., 2002. Hydrogeochemia strefy aktywnej wymiany wód podziemnych [Hydrogeo-chemistry of active exchange groundwater zone]. PWN, Warszawa (in Polish), 448 pp. Search in Google Scholar

Mroczkowska, B. & Michniewicz. M., 1976. Atlas geologiczny Wrocławia, część III – Hydrogeologia [Geological atlas of Wrocław, part III – Hydrogeology] Wydawnictwa Geologiczne, Warszawa (in Polish). Search in Google Scholar

Nasrabadi, T. & Abbasi Maedeh, P., 2014. Groundwater quality degradation of urban areas (case study: Teheran city, Iran). International Journal of Environmental Sciences and Technology 11, 293–302.10.1007/s13762-013-0340-y Search in Google Scholar

Różański, P. & Gawlikowska, E., 2015a. Geoenvironmental Map of Poland II 1:50,000, B, sheet 726 Oborniki Śląskie. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Różański, P. & Gawlikowska, E., 2015b. Geoenvironmental Map of Poland II 1:50,000, B, sheet 727 Trzebnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Różański, P. & Gawlikowska, E., 2015c. Geoenvironmental Map of Poland II 1:50,000, B, sheet 763 Leśnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Różański, P. & Gawlikowska, E., 2015d. Geoenvironmental Map of Poland II 1:50,000, B, sheet 764 Wrocław. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Senate Department for Urban Development (SenStadt): Berlin Environmental Atlas: Map Description, 1993. https://www.berlin.de/umweltatlas/en/water/quality-of-groundwater/1991/map-description (access 12 February 2022). Search in Google Scholar

Senate Department for Urban Development (SenStadt): Berlin Environmental Atlas: Map Description, 2006. https://www.berlin.de/umweltatlas/en/water/quality-of-groundwater/2000/map-description (access 12 February 2022). Search in Google Scholar

Serafin, R., Krawczyk, A. & Chudzik, L., 2010. Hydrogeo-logical Map of Poland scale 1:50,000, Top aquifer – quality, sheet 764 Wrocław. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Shi, X., Wang, Y., Jiao, J.J., Zhong, J., Wen, H. & Dong, R., 2018. Assessing major factors affecting shallow groundwater geochemical evolution in a highly urbanized coastal area of Shenzhen City, China. Journal of Geochemical Exploration 184, 17–27.10.1016/j.gexplo.2017.10.003 Search in Google Scholar

Statistical Yearbook of Wrocław City, 2020. https://wro-claw.stat.gov.pl/en/publications/statistical-year-books/statistical-yearbook-of-wroclaw-city-2020,4,14.html (access 20 January 2022). Search in Google Scholar

Szkudlarek-Kajewska, J., Kajewski, I. & Otop, I., 2018 Bilans wodny powierzchni ziemi na obszarze Wrocławia na podstawie badań symulacyjnych przy pomocy modelu Wetspass [Earth surface water balance for area of Wrocław based on wetspass model simulations]. Inżynieria Ekologiczna 19, 33–41 (in Polish).10.12912/23920629/95276 Search in Google Scholar

The World According To GaWC, 2020. https://www.lboro.ac.uk/gawc/world2020t.html, (accessed 20 January 2022). Search in Google Scholar

Trałka, M., Modelska, M. & Błachowicz, M., 2021. Agresywność chemiczna płytkich wód podziemnych Wrocławia [Chemical aggressiveness of shallow ground-water in Wrocław]. Przegląd Geologiczny 69, 901–908 (in Polish with English summary).10.7306/2021.51 Search in Google Scholar

Vázquez Suñé, E., 2003. Urban groundwater. Barcelona City case study. Universitat Politècnica de Catalunya, 134 pp. Search in Google Scholar

Winnicka, G., 1985. Detailed Geological Map of Poland 1:50,000, sheet 764 Wrocław. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Winnicki, J., 1985. Detailed Geological Map of Poland 1:50,000, sheet 727 Trzebnica. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Wojciechowska, R., 1997. Hydrogeological Map of Poland, scale 1:50,000, sheet 726 Oborniki Śląskie (with Explanations). Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Worsa-Kozak, M. & Kotowski, A., 2009. Przykład wykorzystania danych z monitoringu wód podziemnych do oceny wpływu elektrowni wodnych na środowisko [The example of using data form groundwater monitoring to analyse the environmental effects of water-power plants]. Biuletyn Państwowego Instytutu Geologicznego 436, 555–562 (in Polish). Search in Google Scholar

Worsa-Kozak, M., Kotowski, A. & Wartalski, A., 2008. Monitoring stanów wód podziemnych w rejonie Śródmiejskiego Węzła Wodnego we Wrocławiu [Groundwater fluctuations monitoring program in Wrocław Downtown Water Floodway System]. Przegląd Geologiczny 56, 302–308 (in Polish with English summary). Search in Google Scholar

Zawistowski, K. & Wojtkowiak, A., 2006. Hydrogeological Map of Poland scale 1:50,000. Top aquifer – hydrodynamics and occurence, sheet 726 Oborniki Śląskie. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Zawistowski, K. & Wojtkowiak, A., 2007. Hydrogeological Map of Poland scale 1:50,000. Top aquifer – quality, sheet 726 Oborniki Śląskie. Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar

Żuk, U., 2000. Hydrogeological Map of Poland scale 1:50,000, sheet 764 Wrocław (with Explanations). Polish Geological Institute – National Research Institute, Warszawa. Search in Google Scholar