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Abstrakty
The lakes of the Powidzki Landscape Park (Gniezno Lakeland) are known for their natural and recreational values. The majority of them are located within two large glacial tunnel valleys, that in many places cut through several levels of till and inter-till aquifers. Regional hydraulic linkage systems are developed where surface water and groundwater remain in direct contact. Smaller water bodies occur between the lakes, in other tunnel valleys, in isolated meltwater basins, or in river valleys. These water bodies constitute local drainage bases. The existence in the area of such morphologically diverse lakes with different flow rates, varied morphology, and heterogeneous geological structure permitted tracing of the hydrodynamic dependencies of lake catchments of various types. Hydrogeological cross-sections, comparative analyses of structural maps for successive aquifers, bathymetric plans of lakes, and piezometric contour maps were prepared. Surface and groundwater level fluctuations were investigated, as well as their response to changing atmospheric conditions. Water balances of lakes were also determined for selected lake catchments. The study showed that all the lakes analysed are closely related to groundwater, and that the deepest ones reach lower aquifers. The majority of the lakes drain the aquifers, but some of the lakes feed them. Such a situation was documented in coastal wetlands and in the eastern part of the Park, affected by a depression cone associated with a nearby lignite opencast mine. The study showed that the deepest of the lakes analysed have a very wide catchment area of groundwater recharge, expanding beyond the boundaries of their surface catchment areas. This is important for the development of their resources, especially in periods of hydrogeological low flow.
Czasopismo
Rocznik
Tom
Strony
205--219
Opis fizyczny
Bibliogr. 46 poz., rys., wykr.
Twórcy
autor
- Institute of Meteorology and Water Management-National Research Institute, Podleśna 61, 01-673 Warszawa, Poland
autor
- Adam Mickiewicz University, Institute of Geology, Krygowskiego 12, 60-680 Poznań, Poland
Bibliografia
- 1. Bajkiewicz-Grabowska, E., 1982. The water exchange in the Wigry Lake Basins (in Polish with English summary). Przegląd Geofizyczny, 35: 229-240.
- 2. Bajkiewicz-Grabowska, E., 2002. Obieg materii w systemach rzeczno-jeziornych (in Polish). Wydawnictwo UW.
- 3. Brock, T.D., Lee, D.R., Janes, D., Winek, D., 1982. Groundwater seepage as a nutrient source to a drainage lake; Lake Mendota, Wisconsin. Water Research, 16: 1255-1263.
- 4. Burchardt, L., Przybytek, J., 2004. Conditions of surface and groundwater flow vs. aquatic biocenoses of Lake Góreckie and Pond Pożegowo in the Wielkopolski National Park (in Polish with English summary). Morena, 11: 105-117.
- 5. Cheng, X., Anderson, M.P., 1993. Numerical simulation of groundwater interaction with lakes allowing for fluctuating lake levels. Ground Water, 31: 929-933.
- 6. Chmal, M., 2008. Methods of evaporation measurements from free water surface at meteorological station in Radzyń (in Polish with English summary). Wiadomości Meteorologii Hydrologii Gospodarki Wodnej, 52: 69-78.
- 7. Dąbrowski, M., 2013. Uwarunkowania naturalne i antropogeniczne obiegu wody w Systemie Wielkich Jezior Mazurskich (in Polish). Wydawnictwo IMGW-PIB, Warszawa.
- 8. Dąbrowski, S., 1990. Hydrogeologia i warunki ochrony wód podziemnych Wielkopolskiej Doliny Kopalnej (in Polish). Wydawnictwo SGGW, Warszawa: 1-56.
- 9. Dąbrowski, S., Rynarzewski, W., Straburzyńska-Janiszewska, R., Zachaś, J., Pawlak, A., 2011. The groundwater resources of hydrogeological system in the eastern Wielkopolska Lake Region (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 445: 75-86.
- 10. Glazik, R., Gierszewski, P., 2001. Influence of groundwater intakes on water resources of the chosen lakes located within Gostynińsko-Włocławski Landscape Park. Limnological Review, 1: 95-102.
- 11. Ilnicki, P., 1996. Wpływ drenażu odkrywek węgla brunatnego na walory rekreacyjne Pojezierza Gnieźnieńskiego (in Polish). Aura, 11: 10-12.
- 12. Ilnicki, P., Górecki, K., Szczepański, M., 2017. Accelerated peatlands disappearance in the vicinity of the Konin brown coal strip mine. Journal of Water and Land Development, 35: 83-93.
- 13. Ilnicki, P., Orłowski, W., 2006. Klęska ekologiczna w Powidzkim Parku Krajobrazowym (in Polish). Aura, 10: 11-14.
- 14. Jamorska, I., 2015. Hydrogeological conditions of southern Kujawy region (in Polish with English summary). Przegląd Geologiczny, 63: 756-761.
- 15. Jaworski, J., 2004. Parowanie w cyklu hydrologicznym zlewni rzecznych (in Polish). Polskie Towarzystwo Geofizyczne, Warszawa.
- 16. Kędziora, A., 2008. Water balance of Konin strip mine landscape in changing climatic conditions (in Polish with English summary). Roczniki Gleboznawcze, 59: 104-118.
- 17. Kędziora, A., 2011. Climatic conditions and water balance of the Kujawy Lakeland (in Polish with English summary). Roczniki Gleboznawcze, 62: 189-203.
- 18. Kilkus, K., 1998. Hydrogeological approach in limnology (in Polish with English summary). In: Zagrożenia degradacyjne a ochrona jezior (eds. P. Lange and D. Borowiak): 51-59. Badania Limnologiczne, t. 1.
- 19. Krawiec, A., Śmietański, L., 2007. Groundwater flow system in Drawsko Lakeland (in Polish with English summary). Współczesne Problemy Hydrogeologii, 13, Wydawnictwo AGH, Kraków: 687-695.
- 20. Krygowski, B., 1954. Some remarks on the connection between the lakes of the Lowlands of Greater Poland and groundwater (in Polish with English summary). Przegląd Geograficzny, 26: 92-105.
- 21. Mikulski, Z., 1970. Shaping of the water balance of lakes in Poland (in Polish with English summary). Przegląd Geograficzny, 42: 433-447.
- 22. Nowak, B., 2010. Effect of rushes on evaporation rate in water reservoirs in the example of Powidzkie Lake. Limnological Review, 10: 37-41.
- 23. Nowak, B., 2018. Rola jezior w kształtowaniu zasilania i drenażu wód podziemnych na Pojezierzu Gnieźnieńskim w warunkach naturalnych i antropopresji hydrodynamicznej (in Polish). Ph.D. thesis, Instytut Geologii UAM, Poznań.
- 24. Nowak, B., 2019. Reżim hydrologiczny Jeziora Powidzkiego oraz jego znaczenie w lokalnych i regionalnych systemach wodonośnych (in Polish). In: Jezioro Powidzkie wczoraj i dziś (ed. B. Nowak): 37-48. IMGW-PIB, Warszawa.
- 25. Nowak, B., Brodzińska, B., Gezella-Nowak, I., 2011. Natural and economic factors of shrinkage of lakes of the Wielkopolska Lakeland. Limnological Review, 11: 123-132.
- 26. Nowak, B., Lawniczak-Malinska, A.E., 2019. The influence of hydrometeorological conditions on changes in littoral and riparian vegetation of a meromictic lake in the last half-century. Water, 11: 2651.
- 27. Nowak, B., Nadolna, A., Stanek, P., 2018. Evaluation of the potential for the use of lakes in restoring water resources and flood protection, with the example of the Noteć Zachodnia River catchment (Gniezno Lakeland, Poland). Meteorology Hydrology and Water Management Research and Operational Applications. 6: 45-58.
- 28. Nowak, B., Przybytek, J., 2008. Groundwater level oscillation in the Poznańskie Lake District during the last three decades and its impact on lakes on the example of Góreckie Lake. In: Anthropogenic and Natural Transformations of Lakes, vol. 2 (eds. E. Bajkiewicz-Grabowska and D. Borowiak): 135-137. Polskie Towarzystwo Limnologiczne, Gdańsk.
- 29. Nowak, B., Ptak, M., 2018. Effect of a water dam on Lake Powidzkie and its vicinity. Bulletin of Geography. Physical Geography Series, 15: 5-13.
- 30. Nowak, B., Ptak, M., 2019. Natural and anthropogenic conditions of water level fluctoations in lakes - Powidzkie Lake case study (Central-Western Poland). Journal of Water and Land Development, 40: 13-25.
- 31. Paczyński, B., Sadurski, A. ed., 2007. Hydrogeologia regionalna Polski, 1 (in Polish). Wydawnictwo PIG, Warszawa.
- 32. Pasławski, Z., 1975. Hydrological typology of lakes in Great Poland Lakeland (in Polish with English summary). Przegląd Geofizyczny, 20: 271-280.
- 33. Pasławski, Z., Błaszczyk, B., 1970. Hydrologic characteristics and water balance of Lake Gopło (in Polish with English summary). Przegląd Geofizyczny, 23: 251-266.
- 34. Pomianowska, H., 2004. Modelling of groundwater flow of Chełmińskie Lakeland (in Polish with English summary). Acta Universitatis Wratislaviensis, 2729: 209-217.
- 35. Przybyłek, J., 2011. Groundwater conditions and problems of dewatering of lignite open pits in the eastern Wielkopolska area (in Polish with English summary). Roczniki Gleboznawcze, 62: 341-356.
- 36. Przybyłek, J., 2018. Current problems of the lignite opencast mines dewatering in the Wielkopolska region (in Polish with English summary). Górnictwo Odkrywkowe, 59: 5-14.
- 37. Przybyłek, J., Nowak, B., 2011. Impact of hydrogeological low flows and groundwater drainage by lignite open cast mine on aquifer systems of Gniezno Lakeland (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 445: 513-527.
- 38. Rautio, A., Korkka-Niemi, K., 2015. Chemical and isotopic tracers indicating groundwater/surface-water interaction within a boreal lake catchment in Finland. Hydrogeology Journal, 23: 687-705.
- 39. Rösler, A., Chmal, M., 2008. Water balance of lake Sława (1976-2005). In: Anthropogenic and Natural Transformations of Lakes, vol. 2 (eds. E. Bajkiewicz-Grabowska and D. Borowiak): 161-165. Polskie Towarzystwo Limnologiczne, Gdańsk.
- 40. Rösler, A., Chmal, M., 2010. Korekta opadu w bilansie wodnym (in Polish). In: Dynamika procesów przyrodniczych w zlewni Drawy i Drawieńskim Parku Narodowym (eds. A. Grześkowiak and B. Nowak): 127-132. IMGW-Polskie Towarzystwo Geofizyczne, Poznań.
- 41. Rösler, A., Chmal, M., Chmal, T., 2013. Parowanie z powierzchni wody - porównanie wzorów z pomiarami (in Polish). Materiały konferencyjne XVII Ogólnopolskiej Konferencji Limnologicznej „Naturalne i antropogeniczne przemiany jezior”, Olsztyn-Ryn, 24-27.09.2013, UWM, Olsztyn: 68-70.
- 42. Rudnicki, S., Lewandowski, J., Nützmann, G., 2015. Investigating groundwater-lake interactions by hydraulic heads and a water balance. Groundwater, 53: 227-237.
- 43. Sacks, L.A., Swancar, A., Lee, T.M., 1998. Estimating ground-water exchange with lakes using water-budget and chemical mass-balance approaches for ten lakes in ridge areas of Polk and Highlands counties, Florida. US Geological Survey Water Resources Investigations Report: 98-4133.
- 44. Shaw, G.D., White, E.S., Gammons, C.H., 2013. Characterizing groundwater-lake interactions and its impact on lake water quality. Journal of Hydrology, 492: 69-78.
- 45. Stachowski, P., Oliskiewicz-Krzywicka, A., Kupiec, J.M., 2016. The natural characteristics of the state of the water in lakes in the area of Open Mine Quarry “Konin”(in Polish with English summary). Rocznik Ochrona Środowiska, 18: 642-669.
- 46. Su, X., Cui, G., Du, S., Yuan, W., Wang, H., 2016. Using multiple environmental methods to estimate groundwater discharge into an arid lake (Dakebo Lake, Inner Mongolia, China). Hydrogeology Journal, 24: 1707-1722.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-be1317e9-7aea-4d43-b5a0-e4fe10a8b81a