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Assessing groundwater vulnerability to sea water intrusion in the coastline of the inner Puck Bay using GALDIT method

Abstrakt

In this research, GALDIT method was used to assess seawater intrusion in the coastal aquifer of the inner Puck Bay (Southern Baltic Sea). The impact of potential sea-level rise on groundwater vulnerability for years 2081-2100 was also considered. The study area was categorized into three classes of vulnerability: low, moderate and high. The most vulnerable area is the Hel Peninsula with northern part of the Kashubian Coastland. Increased class of aquifer vulnerability is also adopted to glacial valleys. The results of this research revealed that about 18.9% of the analysed area is highly vulnerable to seawater intrusion, 25.3% is moderately vulnerable and 55.8% is potentially at low risk. The simulated scenario of predicted sea level rise shows enlargement of high vulnerability areas.

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Wersja publikacji
Accepted albo Published Version
Licencja
Creative Commons: CC-BY otwiera się w nowej karcie

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Kategoria:
Aktywność konferencyjna
Typ:
materiały konferencyjne indeksowane w Web of Science
Tytuł wydania:
25th Salt Water Intrusion Meeting (SWIM 2018)
Język:
angielski
Rok wydania:
2018
Opis bibliograficzny:
Potrykus D., Gumuła-Kawęcka A., Jaworska-Szulc B., Pruszkowska-Caceres M., Szymkiewicz A., Dzierzbicka-Głowacka L..: Assessing groundwater vulnerability to sea water intrusion in the coastline of the inner Puck Bay using GALDIT method, W: 25th Salt Water Intrusion Meeting (SWIM 2018), 2018, ,.
DOI:
Cyfrowy identyfikator dokumentu elektronicznego (otwiera się w nowej karcie) 10.1051/e3sconf/20185400023
Bibliografia: test
  1. Chachadi A.G. and Lobo-Ferreira J.P. 2001. Sea Water Intrusion Vulnerability Mapping of Aquifers Using GALDIT Method. Proceedings of the Workshop on Modelling in Hydrogeology, Anna University, Chennai, 143-156.
  2. Chachadi, A.G. and Lobo-Ferreira, J.P., 2007. Assessing aquifer vulnerability to seawater intrusion using GALDIT method: part 2, GALDIT indicators description. Water in Celtic Countries Quantity, Quality and Climatic Variability, IAHS Publ. 310, pp. 172-180.
  3. Frączek E. 1998. Hydrogeological Map of Poland 1:50 000 -Puck sheet explanations (in Polish). Polish Institute of Geology.
  4. Furmańczyk K. 2004. Hel Peninsula (Poland). Eurosion Case Study, 28 pp. Available (Feb 2018): http://copranet.projects.eucc-d.de/files/000143_EUROSION_Hel_peninsula.pdf
  5. Kallioras A., Pliakas F-K., Schuth Ch. And Rausch R. 2012. Methods to Countermeasure the Intrusion of Seawater into Coastal Aquifer Systems. In book: Wastewater Reuse and Management (eds. Sharma S.K and Sanghi R.) 479-490. otwiera się w nowej karcie
  6. Kazakis N., Spiliotis M., Voudouris K., Pliakas F-K. and Papadopoulos B. 2018. A fuzzy multicriteria categorization of the GALDIT method to assess seawater intrusion vulnerability of coastal aquifers. Science of the Total Environment 621: 524-534. otwiera się w nowej karcie
  7. Lobo-Ferreira, J.P., Chachadi A.G., Diamantino C. and Henriques M.J. 2007. Assessing aquifer vulnerability to seawater intrusion using GALDIT method: part 1, application to the Portuguese Monte Gordo aqiufer. Water in Celtic Countries Quantity, Quality and Climatic Variability, IAHS Publ. 310, pp. 161-171.
  8. Luoma S., Okkonen J. and Korkka-Niemi, K. 2017. Comparison of the AVI, modified SINTACS and GALDIT vulnerability methods under future climate-change scenarios for a shallow low-lying coastal aquifer in southern Finland. Hydrogeology Journal v. 25:1 203-222. otwiera się w nowej karcie
  9. Moskalewicz D. 2016. Hel Peninsula -development and future of sandy barrier under sea level rise. In book: Quaternary geology of north-central Poland: from the Baltic coast to the LGM limit (eds. Sokołowski R.J. and Moskalewicz D.) 5-16. otwiera się w nowej karcie
  10. Paprotny D. and Terefenko P. 2017. New estimates of potential impacts of sea level rise and coastal floods in Poland. Natural Hazards v. 85:2 1249-1277. otwiera się w nowej karcie
  11. Pruszak Z. and Zawadzka E. 2008. Potential Implications of Sea-Level Rise for Poland. Journal of Coastal Research v. 24:2 410-422. otwiera się w nowej karcie
  12. Trabelsi N., Triki I., Hentati I. and Zairi M. 2016. Aquifer vulnerability and seawater intrusion risk using GALDIT, GQI SWI and GIS: case of a coastal aquifer in Tunisia. Environmental Earth Sciences 75:669 otwiera się w nowej karcie
  13. Wibig J. and Jakusik E. (eds.) 2012. Warunki klimatyczne i oceanograficzne w Polsce i na Bałtyku południowym (in Polish). Institute of Meteorology and Water Management -National Research Institute. Available (Feb 2018): http://klimat.imgw.pl/wp-content/uploads/2013/01/tom1.pdf?edmc= Contact Information: Dawid Potrykus, Gdańsk University of Technology, Faculty of Civil and Environmental Engineering, 80-233 Gdańsk, ul. Narutowicza 11/12, Poland, Phone: +48 58 3472311 Email: dawpotry@pg.edu.pl otwiera się w nowej karcie
Źródła finansowania:
Weryfikacja:
Politechnika Gdańska

wyświetlono 165 razy

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