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2015 | 20 | 3 |

Tytuł artykułu

Magnesium and calcium concentrations in the surface water and bottom deposits of a river-lake system

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
River-lake systems comprise chains of lakes connected by rivers and streams that flow into and out of them. The contact zone between a lake and a river can act as a barrier, where inflowing matter is accumulated and transformed. Magnesium and calcium are natural components of surface water, and their concentrations can be shaped by various factors, mostly the geological structure of a catchment area, soil class and type, plant cover, weather conditions (precipitation- evaporation, seasonal variations), land relief, type and intensity of water supply (surface runoffs and groundwater inflows), etc. The aim of this study was to analyze the influence of a river-lake system on magnesium and calcium concentrations in surface water (inflows, lake, outflow) and their accumulation in bottom deposits. The study was performed between March 2011 and May 2014 in a river-lake system comprising Lake Symsar with inflows, lying in the Olsztyn Lakeland region. The study revealed that calcium and magnesium were retained in the water column and the bottom deposits of the lake at 12.75 t Mg year-1 and 1.97 t Ca year-1. On average, 12.7±1.2 g of calcium and 1.77±0.9 g of magnesium accumulated in 1 kg of bottom deposits in Lake Symsar. The river-lake system, which received pollutants from an agricultural catchment, influenced the Ca2+ and Mg2+ concentrations in the water and the bottom deposits of Lake Symsar. The Tolknicka Struga drainage canal, to which incompletely treated municipal wastewater was discharged, also affected Ca2+ and Mg2+ levels, thus indicating the significant influence of anthropogenic factors.

Wydawca

-

Rocznik

Tom

20

Numer

3

Opis fizyczny

p.677-692,fig.,ref.

Twórcy

autor
  • Chair of Water Recourses, Climatology and Environmental Management, University of Warmia and Mazury in Olsztyn, pl.Lodzki 2, 10-719 Olsztyn, Poland
autor
  • Chair of Water Resources, Climatology and Environmental Management, University of Warmia and Mazury in Olsztyn, Olsztyn, Poland

Bibliografia

  • Augustyn Ł., Kaniuczak J., Stanek-Tarkowska J. 2012. Selected physicochemical and chemical properties of surface water of the Wisłoka used as potable water. Inż. Ekolog., 26: 7-19. (in Polish)
  • Bhat S.A., Meraj G., Yaseen S., Pandit A.K. 2014. Statistical assessment of water quality parametres for pollution source identification in sukhnag stream: an inflow stream of Lake Wular (Ramsar Site), Kashmir Himalaya. J. Ecosyst., 2014: 1-18. DOI: 10.1155/2014/898054
  • Chapra S.C., Dove A., Warren G.J. 2012. Long-term trends of Great Lakes major ion chemistry. J. Great Lakes Res., 38: 550-560. DOI: 10.1016/j.jglr.2012.06.010
  • Correll D.L. 1998. The Role of phosphorus in the eutrophicatin of recelving waters: A Review. J. Environ. Qual., 27(2): 261-266. DOI: 10.2134/jeq1998.00472425002700020004x
  • Gałczyńska M., Gamrat R., Burczyk P., Horak A., Kot M. 2013. The influence of human impact and water surface stability on the concentration of selected mineral macroelements in mid -field ponds. Water-Environment-Rural Areas, 3(3/43): 41-54 (in Polish).
  • Glińska-Lewczuk K., Burandt P. 2011. Effect of river straightening on the hydrochemical properties of floodplain lakes: Observations from the Łyna and Drwęca Rivers, N Poland. J. Ecol. Eng., 37(5): 786-795. DOI:10.1016/j.ecoleng.2010.07.028
  • Grochowska J., Tandyrak R. 2009. The influence of the use of land on the content of calcium, magnesium, iron and manganese in water exemplified in three lakes in Olsztyn vincinity. Limnol. Rev., 9(1): 9-16.
  • Hillbricht-Ilkowska A. 2005. Protection of lakes and lake district landscape - problems, processes and perspectives. Features regional and research problems lake district landscape. KOSMOS. Problems of Biological Sciences, 54(2-3): 285-302. (in Polish)
  • Jeziorski A., Paterson A.M., Watson I., Cumming B.F., Smal J.P. 2014. The influence of calcium decline and climate change on the Cladocerans within low calcium, circumneutral lakes of the Experimental Lakes Area. Hydrobiologia, 722(1): 129-142. DOI: 10.1007/s10750-013-1691-6
  • Katz A., Nishri A. 2013. Calcium, magnesium and strontium cycling in stratified, hardwatres lakes: Lake Kinneret (Sea of Galilee, Israel). Geochim. Cosmochimi. Acta, 105: 372-394. DOI: 10.1016/j.gca.2012.11.045
  • Koc J., Szymczyk S. 2003. Effect of agriculture intensity on the calcium and magnesium outflow from soils. J. Elem., 8(4): 231-238. (in Polish)
  • Kolanek A., Kowalski A. 2002. On the contribution of biochemical processes and humic substances to calcium and magnesium concentrations in watercourses. Ochr. Środ., 1(84): 9-12. (in Polish)
  • Obolewski K., Glińska-Lewczuk K., Kobus Sz. 2009. Effect of hydrological connectivity on the molluscan community structure in oxbow lakes of the Łyna River. Oceanol Hydrobiol St., 38(4): 75-88. DOI: 10.2478/v10009-009-0045-1
  • Obolewski K., Glińska-Lewczuk K. 2013. Distribution of heavy metals in bottom sediments of floodplain lakes and their parent river – a case study of the Słupia. J. Elem., 18(4): 673-682. DOI: 10.5601/jelem.20013.18.4.435
  • Obolewski K., Skorbiłowicz E., Skorbiłowicz M., Glińska-Lewczuk K., Astel A.M., Strzelczak A. 2011. The effect of metals accumulated in reed (Phragmites australis) on the structure of periphyton. Ecotoxicol Environ. Saf., 74(4): 558-568. DOI:10.1016/j.ecoenv.2011.01.024
  • Orzepowski W., Pulikowski K. 2008. Magnesium, calcium, potassium and sodium content in groundwater and surface water in arable lands in the commune (gmina) of Kąty Wrocławskie. J. Elementol., 13(4): 605-614.
  • Pulikowski K, Kos trzewa S., Paluch J., Szewrański S. 2006. Concentration and load of magnesium and calcium in drainage Waters. J. Elem., 11(4): 483-493.
  • Rafałowska M., Sobczyńska-Wójcik M. 2012. Effect of agricultural production on organic matter accumulation in the bottom deposits of Pilwa Bay (Lake Dobskie). Ecol. Chem. Eng. A, 19(6): 591-599.
  • Sheikh J.A., Jeelam Gh., Gavali R.S., Shah R.A. 2014. Weathering and antrophogenic influences on the water and sediment chemistry of Wular Lake, Kashmir Himalaya. Environ. Earth Sci., 71(6): 2837-2846. DOI: 10.1007/s12665-013-2661-z
  • Szymczyk S., Glińska-Lewczuk K. 2007. Causes of loading the water of eutrophic Lake Jagiełek with nitrogen and phosphorus compounds under the meteorological conditions of Olsztyn Lakeland. J. Elementol., 12(4): 347-360.
  • Szyperek U. 2005. Quality of ground and surface water in agriculturally utilized catchment Rocz. AR Pozn. Melior. Inż. Środ., 26: 453-459. (in Polish)
  • Treder W. Kowalczyk W. 2010. Seasonal changes in the macroelement content in the water of the Rawka River in 2003-2009. Zesz. Nauk. Inst. Sad. Kwiac. im. Szczepana Pieniążka, 18: 155-165. (in Polish)
  • Wons M., Szymczyk S., Glińska-Lewczuk K. 2012. Ecological approach to monitoring the hardness of the groundwater. Inż. Ekolog., 31: 137-143. (in Polish)

Typ dokumentu

Bibliografia

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Identyfikator YADDA

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