PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Geochemistry of surface sediments of a coastal Lake Sarbsko (northern Poland)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The main goal of the presented research was to investigate spatial distribution of surface sediments and to recognize relationships between chemical composition of water and sediments in a coastal Lake Sarbsko (northern Poland). The Lake Sarbsko is a freshwater basin. The water column is well oxygenated and waters exhibit only minor spatial variability of chemical composition indicating rapid and good mixing. Surface sediments of Lake Sarbsko are strongly diversified with respect to chemical composition. The sediments of Lake Sarbsko are characterized by elevated content of terrigenous silica indicating enhanced input of clastic material from the watershed and/or increased dynamics of the lake waters. Moreover, SiO2ter is strongly negatively correlated with SiO2biog, organic matter and element contents, which argues for diluting effect of the former towards authigenic components of sediments. Basically, terrigenous silica (quartz) content is highest in the lake shores and declines towards the lake center. Biogenic silica, organic matter and most of elements display reversed tendency. CaCO3 was encountered in three isolated areas, where it co-occurs with FeS. It is anticipated that precipitation of calcite in Lake Sarbsko resulted from postdepositional processes. Spatial distribution of Fe, Mn, Ca, Mg, Na and K in Lake Sarbsko is also governed by their geochemical affinities to organic matter (Fe), Fe/Mn oxides (Fe, Mn), sulphides (Fe), clay minerals (Na, K, Mg, Mn) and carbonates (Ca, Mn).
Czasopismo
Rocznik
Tom
Strony
41--53
Opis fizyczny
Bibliogr. 65 poz.
Twórcy
autor
  • Department of Quaternary Geology & Palaeogeography, Adam Mickiewicz University, Dzięgielowa 27, 61-680 Poznań, woszczyk@amu.edu.pl
Bibliografia
  • Aller R.C., Rude P.D. 1988. Complete oxtdation of solid phase sulphides by manganese and bacteria in anoxic marine sediments. Geochimica et Cosmochimica Acta 52, 751-765.
  • Andrade C., Freitas M.C., Moreno J., Craveiro S.C. 2004. Strati-graphical evidence of Late Holocene barrier breaching and extreme storms in lagoonal sediments of Ria Formosa, Algarve, Portugal. Marine Geology 210, 339-362.
  • Baltzer F., Riviere A. 1972. Lagoon geochemt stry. In Fairbridge R.W. (ed.), The Encyclopedia of Geochemistry and Environmental Sciences vol. IV A, 626-634. Dowden, Hutchinson & Ross, Inc., Stroudsburg.
  • Barjaktarovic L., Bendell-Young L.I. 2002. Factors contributing to the salinity of lakes, Riske Creek region, south-central British Columbia, Canada. Applied Geochemistry 17, 605-619.
  • Baumgartner L.K., Reid R.P, Dupraz C., Decho A.W., Buckley D.H., Spear J.R., Przekop K.M., Visscher P.T. 2006. Sulfate reducing bacteria in microbial mats: changing paradigms, new discoveries. Sedimentary Geology 185, 131-145.
  • Bechtel A., Woszczyk M., Reisenbacher D., Sachsenhoffer R.F., Gratzer R., Piittmann W., Spychalski W. 2007. Biomarkers and geochemical indicators of Holocene environmental changes in a coastal Lake Sarbsko (Potand). Organic Geochemistry 38, 1112-1131.
  • Berner R.A. 1971. Principles of chemical sedimentology. McGraw-Hill Book Company, New York.
  • Berner R. 1980. Early diagenesis A Theoretical Approach. Princeton University Press.
  • Berner R.A., Baldwin T., Holdren G.R. 1979. Authigenic iron sulfides as paleosalinity indicators. Journal of Sedimentary Petrology 49,1345-1350.
  • Borówka R.K., Osadczuk A., Witkowski A., Wawrzyniak-Wydro-wska B., Duda T. 2005. Late Glacial and Holocene depositio-nal history in the eastern part of the Szczecin Lagoon (Great Lagoon) basin - NW Poland. Quaternary International 130, 87-96.
  • Boyle J.F. 2001. Inorganic geochemical methods in palaeolimnology. In Last W.M., Smol J.P. (eds), Tracking environmental change using lake sediments Vol. 2: Physical and geochemical methods, 83-141. Kluwer Academic Publishers, Dordrecht, Boston, London.
  • Carrigy M.A. 1956. Organic sedimentation in Warnbro Sound, Western Australia. Journal of Sedimentary Petrology 26,228239.
  • Calvert S.E., Pedersen T.F. 1993. Geochemistry of recent oxic and anoxic marine sediments. Implications for the geological record. Marine Geology 113, 67-88.
  • Cieśliński R. 2004. Chemical classifications of walers of chosen lakes of the central coast of the Polish coastline zone of the Southern Baltic. LimnologicalReview 4, 57-66.
  • Cieśliński R. 2007. Determination of changes of hydrochemical indicators in lake waters of the southern Balic coast. Limnologi-cal Review 7, 19-26.
  • Clark M.W., McConchie D., Lewis D.W., Saenger P. 1998. Redox stratification and heavy metal partitioning in Avicennia-domi-nated mangrove sediments: a geochemical model. Chemical Geology 149, 147-171.
  • Cundy A.B., Croudace I.W. 1995. Sedimentary and geochemical variations in a salt marsh/mud flat environment from the mesotidal Hamble estuary, southern England. Marine Chemistry 51, 115-132.
  • Cundy A.B., Sprague D., Hopkison L., Maroukian H., Gaki-Papanastassiou K., Papanastassiou, D., Frogley M.R. 2006. Geochemical and stratigraphic indicators of late Holocene coastal evolution in the Gythio area, southern Peloponnese, Grece. Marine Geology 230, 161-177.
  • DeanW.E. 1993. Physical properties, mineralogy, and geochemistry of Holocene varved sediments from Elk Lake, Minnesota. Geological Society of America Special Papers 276,135-157.
  • de Groot A.J., Salomons W., Allersma E. 1976. Processes affecting heavy metals in estuarine sediments. In Burton J.D., Liss P.S. (eds), Estuarine Chemistry, 131-157. Academic Press, London, New York, San Francisco.
  • Engstrom D.R., Wright Jr. H.E. 1984. Chemical stratigraphy of lake sediments as a record of environmental change. In Haworth E.Y., Lund J.W.G. (eds), Lake sediments and environmental history, 11-67. LeicesterUniversity Press.
  • Eusterhues K., Heinrichs H., Schneider J. 2005. Geochemical response on redox fluctuations in Holocene lake sediments, Lake Steisslingen, southern Germany. Chemical Geology 222, 1-22.
  • Freitas M.C., Andrade C., Cruces A. 2002. The geological record of environmental changes in southwestern Portugese coastal lagoons since the Lateglacial. Quaternary International 93-94, 161-170.
  • Garcia-Rodriguez F., Metzeltin D., Sprechmann P., Trettin R., Stams G., Beltran-Morales L.F. 2004. Upper Pleistocene and Holocene paleosalinity and trophic state cganges in relation to sea level variation in Rocha Lagoon, southern Uruguay. Journal of Paleolimnology 32, 117-135.
  • Gornitz V. 1972. Sodium: element and geochemistry. In Fairbridge R.W. (ed.), The Encyclopedia of Geochemistry and Environmental Sciences, vol. IVA, 1096-1099. Dowden, Hutchinson & Ross, Inc., Stroudsburg.
  • Heiri O., Lotter A.F., Lemcke G. 2001. Loss on ignition as a method for estimating organic and carbonate content in sediments: reproducibility and comparability of results. Journal ofPaleo-limnology 25, 101-110.
  • Jarnuszkiewicz T. 1979. Chemical characteristics of recent bottom sediments of Wierzysko Lake. Polskie Archiwum Hydrobiologii 26, 475-493.
  • Jańczak J. (ed.) 1997. Atlas of Polish lakes vol. 2 (original: Atlas jezior Polski T.2). Bogucki Wydawnictwo Naukowe, Poznań (in Polish).
  • Jones B.F., Bowser C.J. 1978. The Mineralogy and Related Chemistry of Lake sediments. In Lerman A. (ed.), Lakes Chemistry Geology Physics, 179-294. Springer-Verlag, NewYork, Heidelberg, Berlin.
  • Kaufhold S. 2007. Iron and manganese oxides. In Knödel K., Lange G., Voight H.-J. (eds), Environmental geology Handbook of fields methods and case studi es, 867-870. Springer, Berlin, Heidelberg, New York.
  • Kelts K., Hsü K.J. 1978. Freshwater carbonate sedimentation. In Lerman A. (ed.), Lakes Chemistry Geology Physics, 295-324. Springer-Verlag, New York, Heidelberg, Berlin.
  • Konotopulos N., Avramidis P. 2003. A late Holocene record of environmental changes from the Aliki lagoon, Egion, North Peloponnesus, Grece. Quaternary International 111, 75-90.
  • Kretz R. 1972. Potassium: element and geochemistry. In Fairbridge R.W. (ed.), The Encyclopedia of Geochemistry and Environ-men tal Sci ences, vol. IV A, 970-971. Dowden, Hutchinson & Ross, Inc., Stroudsburg.
  • Last W.M. 2001. Mineralogical analysis of lake sediments. In Last W.M., Smol J.P. (eds), Tracking environmental change using lake sediments Vol. 2: Physical and geochemical methods, 143-187. Kluwer Academic Publ ishers, Dordrecht, Boston, Lon don.
  • Levy Y. 1974. Sedimentary reflection of depositional environment in the Bardawil Lagoon, northern Sinai. Journal of Sedimentary Petrology 44, 219-227.
  • Liss P.S. 1976. Conservative and non-conservative behaviour of dissolved constituents during estuarine mixing. In Burton J.D., Liss P.S. (eds), Estuarine Chemistry, 93-130. Academic Press, London, New York, San Francisco.
  • Lopez-Buendia A.M., Bastida J., Querol X., Whateley M.K.G. 1999. Geochermtal data as indit ators of palaeosalinity in coastal organic - rich sedtments. Chemical Geology 157, 235-254.
  • Lucchi M.R., Fiorini F., Colalongo M.L., Curzi P.V. 2006. Late-Quaternary paleoenvironmental evotution of Lesina lagoon (southern Italy) from subsurface data. Sedimentary Geology 183, 1-13.
  • Łukasiewicz M. 1995. Determinants and the rates of water ex t change of Polish lakes (surface area of400 and more ha) (original: Uwarunkowania oraz tempo wymiany wód jezior Polski (o powierzchni 400 i więcej hektarów)). Unpublished Master thesis. Adam Mickiewicz University, Poznań (in Polish).
  • Majewski A. 1972. Hydrological characteristics of estuaries of the Polish Coast (original: Charakterystyka hydrologiczna estua-riowych wód u polskiego wybrzeża). Prace PIHM 105, 3-37 (in Polish).
  • Manning P.G., Williams J.D.H., Charlton M.N., Ash L.A., Birchall T. 1979. Mössbauer spectral studies of the diagenesis of iron in a sulphide-rich sediment core. Nature 280, 134-136.
  • Neumann T., Rausch N., Leipe T., Dellwig O., Berner Z., Böttcher M.E. 2005. Intense pyrite formation under low-sulfate conditions in the Achterwasser lagoon, SW Baltic Sea. Geochimica et Cosmochimica Acta 69, 3619-3630.
  • Nichols M., Allen G. 1981. Sedmientary processes in coastal lagoons. Coastal lagoon research, present and future. UNESCO echnical Papers in Marine Sciences, Proceedings of an UNESCO/IABO Seminar 33, 27-80.
  • Ohtake H., Kondo K., Seike Y., Date Y. 1982. Seasonal and areal features of the lagoonal environment in Lake Nakanoumi, a shallow coastal lagoon in Japan. Hydrobiologia 97, 15-26.
  • Osadczuk A. 2004. Szczecin Lagoon - environmental conditions of recent lagoonal sedimentation (original: Zalew Szczeciński -środowiskowe warunki współczesnej sedymentacji lagunowej). Rozprawy i Studia 549. Uniwersytet Szczeciński, Szczecin (in Polish with English summary).
  • Ouddane B., Boust D., Martin E., Fischer J.C., Wartel M. 2001. The post-depositional reactivity of iron and manganese in the sediments of a macrotidal estuarine system. Estuaries 24, 1015-1028.
  • Overnell J. 2002. Manganese and iron profiles during early diagenesis in Loch Etive, Scotland. Application of two diagenetic models. Estuarine, Coastal and ShelfScience 54, 33-44.
  • Peinerud E.K. 2000. Interpretation of Si concentrations in lake sediments: three case studies. Environmental Geology 40, 64-72.
  • Pustelnikovas O. 1998. Geochemistry of sediments of the Curonian Lagoon. Institute of Geography, Vilnius University, Vilnius.
  • Robinson Ch. 1994. Lago Grande di Monticchio, southern Italy: a long record of environmental change illustrated by sediment geochemistry. Chemical Geology 118, 235-254.
  • Sly P.G. 1978. Sedimentary processes in lakes. In Lerman A. (ed.), Lakes Chemistry Geology Physics, 65-89. Springer-Verlag, New York, Heidelberg, Berlin.
  • StatSoft, Inc. 2007. Statistica (data analysis software system), version 8.0. www.statsoft.com.
  • Sternbeck J., Sohlenius G. 1997. Authigenic sulfide and carbonate mineral formation in Holocene sediments of the Baltic Sea. Chemical Geology 135, 55-73.
  • Szopowski Z. 1962. Hydrological characteristics of Lake Łebsko region (original: Hydrologiczna charakterystyka rejonu jeziora Łebsko). In Szopowski Z. (ed.), Materiały do monografii polskiego brzegu morskiego 3, 137-156. Polska Akademia Nauk, Instytut Budownictwa Wodnego, Gdańsk (in Polish).
  • Thorbjarnarson K.W., Nittrouer C.A., DeMaster D.J., McKinney R.B. 1985. Sediment accumulation in a back-barrier lagoon Great Sound, New Yersey. Journal of Sedimentary Petrology 55, 856-863.
  • Uścinowicz S., Zachowicz J. 1996. Geochemical atlas of the Vistula Lagoon (original: Attas geochemiczny Zalewu Wiślanego). Państwowy Instytut Geologiczny, Warszawa (in Polish with English summary).
  • Vaalgamaa S., Korhola A. 2007. Geochemical signatures of two different coastal depositional environments within the same catchment. Journal ofPaleolimnology 38, 241-260.
  • Virkanen J. 2000. The effects of natural environmental changes on sedimentation in Lake Kuttanen, a small closed lake in Finnish Lapland. The Holocene 10, 377-386.
  • Vu Ngoc-Ky, Szczepańska J., Szczepański A. 1981. Reconstruction of paleohydrochemical conditions based on exchangeable cations composition in clay sediments (original: Rekonstrukcja warunków paleohydrochemicznych na podstawie składu kationów wymiennych w osadach ilastych). Kwartalnik Geologiczny 25, 199-213 (in Polish).
  • Walna B., Spychalski W., Siepak J. 2005. Assessment of pot en-tially reactive pools of aluminium in poor forest soils using two methods of fractionation analysis. Journal of Inorganic Biochemistry 99, 1807-1816.
  • Wojciechowski A. 1995. Holocene deposits and molluscan assemblages in Lake Łebsko, Gardno-Łeba coastal Plan. In Rotnicki K. (ed.), Polish Coast: Past, Present and Future. Journal of Coastal Research Spec. issue no. 22, 237-243.
  • Wojciechowski A. 2000. Palaeohydrological changes in the central
  • Wielkopolska Lowland during the last 12 000 years on the basis of deposits of the Kórnik-Zaniemyśl lakes (original: Zmiany paleohydrologiczne w środkowej Wielkopolsce w ciągu ostatnich 12000 lat w świetle badań osadów jeziornych rynny kórnicko-zaniemyskiej). Wydawnictwo Naukowe UAM, Poznań (in Polish with English summary).
  • Woszczyk M., Lutyńska M., Spychalski W. 2008. Environmental changes in Lake Sarbsko reflected in sediment geochemistry and diatoms in the Sa1/2 profile (original: Zmiany środowiskowe w jeziorze Sarbsko na podstawie badań geochemicznych I diatomologicznych profilu Sa1/2). In Rotnicki K., Jasiewicz J., Woszczyk M. (eds), Holoceńskieprzemiany wybrzeży i wód południowego Bałtyku - przyczyny, uwarunkowania i skutki, 145-154. Wydawnictwo Tekst, Poznań-Bydgoszcz (in Polish with English summary).
  • Yum J.-G., Yu K.-M., Takemura K., Narusz T., Kitamura A., Kitagawa H., Kim J.-C. 2004. Holocene evolution of the outer lake of Hwajinpo lagoon on the estern coast of Korea: environmental changes with holocene sea-level fluctuation of the East Sea (Sea of Japan). Radiocarbon 46, 797-808.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW9-0008-0014
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.