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This study presents the directions and the rate of changes occurring in the coastal lakes Jamno and Bukowo, located in northern Poland. Based on the cartographic materials and aerial photographs of those water bodies, it was established that in 1909–2012, the area of the lakes decreased by 183.6 ha (7.7%) and 250.7 ha (13.6%) for Jamno and Bukowo, respectively. Another component of lake disappearance - shallowing of lake basins - was analyzed using bathymetric plans. It turned out that water supplies of Jamno during more than 100 years decreased by 2.4 million m3 (5.9%), while in the case of Bukowo, it was 5.9 million (17.5%). Unfavorable location (inflow of pollutants from the basin) and morphometry of both lakes should be considered as the main causes of such major changes. The lakes are polymictic with a considerable area of the shallowest zone (1 m depth). This favors the vegetation succession and, consequently, shallowing of the lake basins. Moreover, direct connection with the Baltic Sea contributes to the fact that the materials of marine origin deposited in the form of a reverse delta also contribute to a decrease in the open water surface area.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
178--184
Opis fizyczny
Bibliogr. 36 poz., fot., rys.
Twórcy
autor
- Institute of Physical Geography and Environmental Planning, Adam Mickiewicz University, ul. Dzięgielowa 27, 61-680, Poznań, Poland
autor
- Institute of Physical Geography and Environmental Planning, Adam Mickiewicz University, ul. Dzięgielowa 27, 61-680, Poznań, Poland
autor
- Faculty of Food Sciences and Fisheries, West Pomeranian University of Technology in Szczecin, ul. Pawła VI 3, 71-459, Szczecin, Poland
Bibliografia
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- [4]. Choiński, A. & Gogołek, A. (2005). Changes in water chemistry of Lake Jamno over the years 19962–2004. Limnological Review 5: 27–36.
- [5]. Choiński, A. & Ptak, M. (2009). Lake infill as the main factor leading to lake’s disappearance. Polish Journal of Environmental Studies 18(3): 347–352.
- [6]. Chróst, R. (2012). Masurian Sea. Assessment of current ecological state of water quality and analysis of eutrophication threats in the system of Lake Śniardwy. Retrieved December 18, 2013, from http://www.zemuw.pl/pl/files/docs/JM_Raport_Sniardwy (in Polish)
- [7]. Cieśliński, R. (2011). Geographical background of hydrochemical changeability of lakes in the coast of the southern Baltic Sea. Wydawnictwo Uniwersytetu Gdańskiego, Gdańsk (in Polish)
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- [15]. Ławniczak, A., Choiński, A. & Kurzyca, I. (2011). Dynamics of lake morphometry and bathymetry in various hydrological conditions. Polish Journal of Environmental Studies 20(4): 931–940.
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- [23]. Ptak, M. & Ławniczak, A. (2011). Changes in water resources in selected lakes in the middle and lower catchment of the River Warta. Limnological Review 11(1): 25–32.
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- [29]. Terasmaa, J. (2011). Lake basin development in the Holocene and its impact on the sedimentation dynamics in a small lake (southern Estonia). Estonian Journal of Earth Sciences 60(3): 159–171.
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- [31]. Trzeciak, S. (2001). Stormy winds on the Polish Baltic coast. Studia / Wyższa Szkoła Morska w Szczecinie 36: 3–78 (in Polish).
- [32]. de Vicente, I., Cruz-Pizarro, L. & Rueda, F.J. (2009). Sediment Zambrano in two adjacent shallow coastal lakes: Controlling factors and consequences on phosphate dynamics. Aquatic Sciences 72(1): 21–31.
- [33]. Wiśniewski, B. & Wolski, T. (2005). Changes in Dąbie Lake bathymetry in the period 1962–1996. Limnological Review 5: 255–262.
- [34]. Woszczyk, M., Tylmann, W. & Jędrasik, J. (2013). Background and intensity of vertical mixing of sediments in Lake Sarbsko. (Eds. Kostrzewski A., Rachlewicz G., Woszczyk M.) Origin, lithology and stratigraphy of quaternary deposits, IGIG UAM Poznań, pp. 177–178 (in Polish).
- [35]. Yousef, Y.A., McLellon, W.M. & Zebuth, H.H. (1980). Changes in phosphorus concentrations due to mixing by motorboat shallow lakes. Water Research 14(7).
- [36]. Zambrano, L., Scheffer, M. & Martínez-Ramos, M. (2001). Catastrophic response of lakes to benthivorous fish introduction. Oikos 94(2): 344–350.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9e53ff98-3f4a-45ce-8ac6-7bf59b231c46