PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2015 | 19 |
Tytuł artykułu

Capacity to accumulate barium, strontium, calcium and magnesium in the water-air interface of a coastal lake at the Baltic Sea

Autorzy
Treść / Zawartość
Warianty tytułu
PL
Zdolność do akumulacji strontu, baru, wapnia i magnezu w interfazie woda - powietrze przymorskiego jeziora Morza Bałtyckiego
Języki publikacji
EN
Abstrakty
EN
Studies were conducted to determine the capacity to accumulate four metals – barium, strontium, calcium and magnesium in a coastal lake, Dołgie Wielkie. The lake is situated in World Biosphere Reserve – the Slovinski National Park. Water samples were collected from the surface microlayer (SML) using the Garrett mesh screen and at the same time samples were also collected from the subsurface water layer. Metal concentrations were analysed using a mass spectrometer. The enrichment factors were determined for metals in the surface microlayer. The greatest accumulation capacity was observed for barium. A lesser accumulation capacity was found for magnesium. Concentrations of calcium and strontium were comparable in both investigated layers. Seasonal variation was observed for all analyzed metals.
PL
Przeprowadzono badania zdolności do akumulacji czterech metali – strontu, baru, wapnia i magnezu w przymorskim jeziorze Dołgie Wielkie. Jezioro usytuowane jest na terenie Słowińskiego Parku Narodowego. Próbki wody pobierano z mikrowarstwy powierzchniowej za pomocą siatki Garretta oraz równolegle z warstwy wody podpowierzchniowej. Analizy stężenia metali wykonano z użyciem spektrometru masowego. Badano zdolność do wzbogacania metali w mikrowarstwie powierzchniowej. Najwyższą zdolność do akumulacji wykazywał bar. W mniejszym stopniu akumulował się magnez. Stężenie wapnia i strontu było porównywalne w obu badanych warstwach. Stwierdzono sezonową zmienność wszystkich badanych metali.
Słowa kluczowe
Wydawca
-
Rocznik
Tom
19
Opis fizyczny
p.23-35,fig.,ref.
Twórcy
  • Department of Environmental Chemistry, Institute of Biology and Environmental Protection, Pomeranian University in Slupsk, Arciszewskiego 22b, 76-200 Slupsk, Poland
Bibliografia
  • Agogué H., Casamayor E.O., Bourrain M., Obernosterer I., Joux F., Herndl G.J., Lebaron P., 2005. A survey on bacteria inhabiting the sea surface microlayer of coastal ecosystems. FEMS Microbial Ecology, 54, 269-280.
  • Ahlers W.W., Reid M.R., Kim J.P., Hunter K.A., 1990. Contamination-free sample collection and handling protocols for trace elements in natural fresh waters. Austr. J. Mar. and Freshwat. Res., 41, 713-720.
  • Antonowicz J., 2008a. Daily changes in concentrations of selected heavy metals in relation to chlorophyll content in surface water microlayer of lake Gardno. Ecol. Chem. and Engin. S, 15, 473-481.
  • Antonowicz J., 2008b. Quantity of selected physical and chemical parameters in surface microlayers and subsurface water on the example of three lakes. Balt. Coast. Zone, 12, 5-19.
  • Antonowicz J., Trojanowski J., Trojanowska C., 2010. 24-hour cycle of variability contents of nitrogen forms in surface microlayer of Baltic Sea lagune lake (North Poland) – part I, Baltic. Coast. Zone, 14, 37-47.
  • Antonowicz J.P., 2013. Daily cycle of variability contents of phosphorus forms in surface microlayer of a light salinity Baltic Sea Lagoon lake (North Poland) – part II. Cent. Eur. J. of Chem., 11, 817-826.
  • Antonowicz J.P., Mudryk Z., Zdanowicz M., 2015. A relationship between accumulation of heavy metals and microbiological parameters in the surface microlayer and subsurface water of a coastal Baltic lake. Hydrobiol., 762, 65-80.
  • Atlas jezior Polski. (Atlas of Polish lakes). 1997. (Ed.) J. Jańczak, Bogucki Wydawnictwo Naukowe, Poznań, (in Polish).
  • Bigg E.K., Leck C., Tranvik L., 2004. Particulates of the surface microlayer of open water in the Central Arctic Ocean in the summer. Mar. Chem., 91, 131-141.
  • Brettum P., Andersen T., 2005. Report of Norwegian Institute for Water Research. The use of phytoplankton as indicators of water quality. NIVA, Norway, 1-33.
  • Ciepielewski W., Sobocki M., Szczerbowski J., Korzeń J., 2003. Operat ochrony ichtiofauny. Tom XIII. W: Projekt Plan Ochrony Słowińskiego Parku Narodowego. Operaty Ochrony Przyrody Ożywionej. (Operat of the ichtiofauna protection. Volume XIII. In: Project of Protection Plan of Slovinski National Park. Living Nature Conservation Operats). 1-26, (in Polish).
  • Cincinelli L.A., Stortini A., Perugini M., Checchini L., Lepsi L., 2001. Organic polutants in sea-surface microlayer and aerosol in the coastal environment of Leghorn – (Tyrrhenian Sea). Mar. Chem., 76, 77-98.
  • Dojlido J.R., 1995. Chemia wód powierzchniowych. (Chemistry of surface waters). Białystok, Wydawnictwo Ekonomia i Środowisko, (in Polish).
  • Engel A., Galgani L., 2015. The organic sea surface microlayer in the upwelling region off Peru and implications for air–sea exchange processes. Biogeosc. Disc., 12, 10579-10619.
  • Estep K., Maki J., Danos S., Remson C., 1985. The retrieval of material from the surface microlayer with screen and plate samples and its implications for partitioning of material within the microlayer. Freshwat. Biol., 15, 15-19.
  • Freeman C., Lock M. A., 1995. The biofilm polysaccharide matrix: A buffer against changing organic substrate supply? Limnol. and Oceanogr., 40, 273-278.
  • Galgani L., Engel A., 2015. Changes in optical characteristics of surface microlayers hint to photochemically and microbially-mediated DOM turnover in the upwelling region off Peru. Biogeosci. Disc., 12, 19373-19421.
  • Garrett W., 1965. Collection of slick forming materials from the sea surface. Limnol. and Oceanogr., 10, 602-605.
  • Gašparović B., Plavšić M., Ćosović B., Saliot A., 2007. Organic matter characterization in the sea surface microlayers in the subarctic Norwegian fjords region. Mar. Chem., 105, 1-14.
  • Green T., Houk D.F., 1979. The removal of organic surface films by rain. Limnol. Oceanogr., 24, 966-970.
  • Hale M., Mitchell J.G., 1997. Sea surface microlayer and bacterioneuston spreading dynamics. Mar. Ecol. Prog. Ser., 147, 269-276.
  • Hardy J., 1982. The surface microlayer: Biology, chemistry and anthropogenic enrichment. Prog. Oceanogr., 11, 307-328.
  • Hermanowicz W., Dojlido J., Dożańska W., Koziorowski B., Zerbe J., 1999. Fizykochemiczne badanie wody i ścieków. (Physicochemical studies of water and waste water). Arkady, Warszawa, (in Polish).
  • Klimaszyk P., Piotrowicz R., Rzymski P., 2015. Changes in the ecosystem of shallow softwater lake induced by the Great Cormorant roosting colony. J. Limnol., 74, 114-121.
  • Knulst J., Backlund P., Hessen D., Riise G., Södergren A., 1997. Response of surface microlayers to artificial acid precipitation in a meso-humic lake in Norway. Wat. Res., 31(9), 2177-2186.
  • Komunikat o stanie czystości jeziora Dołgie Wielkie na podstawie badań przeprowadzonych w 1995 roku. (Communicate on state of cleanliness and the Great Lake Dołgie based on research carried out in 1995). 1995. (Ed.) R. Zaręba. WIOŚ, Słupsk, (in Polish).
  • Kozarac Z.B., Ćosović S., Frka D.M., Mobiüs D., Hacke S., 2003. Complex methodological approach to the studies of natural microlayers at the air/water interface. Colloids and Surfaces A: Physicochem. Eng. Aspects, 219, 173-186.
  • Lis J., Pasieczna A., 1995. Geochemical atlas of Poland. Warszawa, Państwowy Instytut Geologiczny, (in Polish).
  • Luszniewicz A., Słaby T., 2008. Statystyka z pakietem komputerowym STATISTIKA PL. Teoria i zastosowania. (Statistics with the computer package STATISTICA PL. Theory and application). Wydawnictwo C.H. Beck, (in Polish).
  • Maki J.S., Hermansson M., 1994. The dynamics of surface microlayers in aquatic environments. In: The Biology of Particles in Aquatic Systems. (Ed.) R.S. Wotton, Ann Arbour- London-Tokyo, Lewis Publisher Boca Raton, 161-182.
  • Małecki J., 1991. Rola mikroorganizmów w ocenie antropogenicznych przekształceń chemizmu wód podziemnych. W: Współczesne problemy hydrogeologii. (The role of microorganisms in the assessment of anthropogenic transformations of groundwater chemistry. In: Current problems of hydrogeology). Oficyna Wydawnicza Sudety, Wrocław, 4.
  • Mudryk Z., Trojanowski J., Skórczewski P., Antonowicz J., 2003. Chemical and bacteriological studies of surface and subsurface water layers in estuarine Lake Gradno. Pol. J. Environ. Stud., 12, 199-206.
  • Norkrans B., 1980. Surface microlayer in aquatic enviroments. Adv. Microb. Ecol., 4, 51-85.
  • Parzych A., 2015. Accumulation of macro- and microelements in mosses in the Słowiński National Park. Sylwan., 159, 345-352.
  • Romano J., Marquet R., 1991. Occurrence frequencies of sea-surface slicks at long and shorttime scales relation to wind speed. Estuar. Coast. Self Sci., 33, 445-498.
  • Santos L., Santos A.L., Coelho F.J.R.C., Gomes N.C.M., Dias J.M., Cunha A., Almeida A., 2011. Relation between bacterial activity in the surface microlayer and estuarine hydrodynamics. FEMS Microbiol. Ecol., 77, 636-646.
  • Santos L., Santos A.L., Coelho F.J.R.C., Gomes N.C.M., Dias J.M., Cunha A., Almeida A., 2013. Heterotrophic activities of neustonic and planktonic bacterial communities in an estuarine environment (Ria de Aveiro). J. Plankton Res., 36, 230-242.
  • Szefer P., Szefer K., 1986. Some metals and their possible sources in rain water of the southern Baltic coast, 1976 and 1978-1980. Sci. Total Env., 57, 79-89.
  • The Sea Surface and Global Change, 1997. (Eds) P.S. Liss, R.A. Duce, Cambridge (UK), Cambridge Univ. Press.
  • Trojanowski J., Trojanowska C., Antonowicz J., 2001. Nitrogen and phosphorus in surface microlayers of estuarine, shallow lake (north Poland). Ecohydrobiol. and hydrobiol., 1(4), 457-463.
  • Trojanowski J., Trojanowska C., Korzeniewski K., 1990. Warunki hydrochemiczne w jeziorach przymorskich. (Hydrochemical conditions in the coastal lakes). Słupskie Pr. Mat.-Przyr., 8b, 123-160, (in Polish).
  • USEPA, 1998. Method 3015A. Microwave assisted acid digestion of aqueous samples and extracts. In: SW-846 Manual. Methods for Evaluating Solid Waste, Physical/Chemical Methods. Environmental Protection Agency, US.
  • Weihs S., Pełechaty M., Pukacz A., 2013. Charophyte occurrence in phytocoenoses of Typhetum angustifoliae association in lakes of Ziemia Lubuska (Mid-Western Poland). Stud. Limnol. et Telmatol., 7, 3-12.
  • Wurl O., Miller L., Röttgers R., Vagle S., 2009. The distribution and fate of surface-active substances in the sea-surface microlayer and water column. Marine. Chem., 115, 1-9.
  • Wurl O., Obbard J.P., 2004. A review of pollutants in the sea-surface microlayer (SML): a unique habitat for marine organisms. Mar. Poll. Bull., 48, 1016-1030.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-a2876999-5a6e-4cf4-aa25-4b46f4b3b81e
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.