1. bookVolume 14 (2014): Issue 1 (March 2014)
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Journal
eISSN
2300-7575
First Published
17 Mar 2011
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4 times per year
Languages
English
Open Access

Phases and interruptions in postglacial development of humic lake margin (Lake Suchar Wielki, NE Poland)

Published Online: 12 Sep 2014
Volume & Issue: Volume 14 (2014) - Issue 1 (March 2014)
Page range: 13 - 20
Journal Details
License
Format
Journal
eISSN
2300-7575
First Published
17 Mar 2011
Publication timeframe
4 times per year
Languages
English

Bloesch J., 2004, Sedimentation and lake sediment formation, [in:] O’Sullivan P.E., Reynolds C.S. (eds), The Lakes Handbook. Limnology and limnetic ecology, Blackwell Publishing, Oxford: 197-229.10.1002/9780470999271.ch8Search in Google Scholar

Błaszkiewicz M., 2007, Geneza i ewolucja mis jeziornych na mlodoglacjalnym obszarze Polski - wybrane problemy (Genesis and evolution of lake basins in the young-glacial territory of Poland - selected aspects), Stud. Lim. Tel. 1: 5-16 (in Polish).Search in Google Scholar

Bremner J.M., Mulvaney C.S., 1982, Nitrogen-total, [in:] Page A.L. (ed), Agronomy No. 9, Methods of Soil Analysis, American Society of Agronomy, Madison: 595-624.10.2134/agronmonogr9.2.2ed.c31Search in Google Scholar

Bronk Ramsey C., 2013, OxCal. Version 4.2.3, Oxford Radiocarbon Accelerator Unit Research Laboratory for Archaeology, Oxford. Retrived from: http://c14.arch.ox.ac. uk Search in Google Scholar

Charman D.J., 2002, Peatland and environmental change, Wiley, Chichester, p. 301.Search in Google Scholar

Damman A.W.H., 1988, Regulation of nitrogen removal and retention in Sphagnum bogs and other peatlands, Oikos 4: 291-305.10.2307/3565310Search in Google Scholar

De Haan H., 1992, Impacts of environmental changes on the biogeochemistry of aquatic humic substances, Hydrobiologia 229: 59-71.10.1007/BF00006991Search in Google Scholar

Dearing J.A., 1997, Sedimentary indicators of lake-level changes in the humid temperate zone: a critical review, J. Paleolimnol. 18: 1-14.Search in Google Scholar

Digerfeldt G., Sandgren P., Olsson S., 2007, Reconstruction of Holocene lake-level changes in Lake Xinias, central Greece, Holocene 17: 361-367.10.1177/0959683607076449Search in Google Scholar

Drzymulska D., Zieliński P., 2013, Developmental changes in the historical and present-day trophic status of brown water lakes. Are humic water bodies a uniform aquatic ecosystem?, Wetlands 33: 909-919.10.1007/s13157-013-0452-7Search in Google Scholar

Drzymulska D., Kłosowski S., Pawlikowski P., Zieliński P., Jabłońska E., 2013, The historical development of vegetation of foreshore mires beside humic lakes; different successional pathways under various environmental conditions, Hydrobiologia 703: 15-31.10.1007/s10750-012-1334-3Search in Google Scholar

Drzymulska D., Fiłoc M., Kupryjanowicz M., 2014, Reconstruction of landscape paleohydrology using the sediment archives of three dystrophic lakes in northeastern Poland, J. Paleolimnol. 51: 45-62.10.1007/s10933-013-9754-2Search in Google Scholar

Górniak A., Krzysztofiak L., 2006, Charakterystyka limnologiczna parku (Limnological charcateristic of the park), [in:] Górniak A. (ed), Jeziora Wigierskiego Parku Narodowego (Lakes of the Wigry National Park), Wyd. Uniwersytetu w Białymstoku, Białystok: 25-34 (in Polish).Search in Google Scholar

Górniak A., Zieliński P., 2000, Influence of catchment characteristics and hydrology on dissolved organic carbon in rivers in north-eastern Poland, Verh. Internat. Verein Limnol. 27: 1142-1145.10.1080/03680770.1998.11901417Search in Google Scholar

Hessen D.O., 1992, Dissolved organic carbon in a humic lake: Effects on bacterial production and respiration, Hydrobiologia 229: 115-123.10.1007/BF00006995Search in Google Scholar

Howard P.J.A., Howard D.M., 1990, Use of organic carbon and loss-on-ignition to estimate soil organic matter in different soil types and horizons, Biol. Fertil. Soils 9: 306-310.10.1007/BF00634106Search in Google Scholar

Ji S., Xingqi L., Sumin W., 2005, Matsumoto R. Palaeoclimatic changes in the Qinghai Lake area during the last 18,000 years, Quat. Int. 136: 131-140.10.1016/j.quaint.2004.11.014Search in Google Scholar

Kloss M., 2005, Identification of subfossil plant communities and palaeohydrological changes in raised mire development, Monogr. Bot. 94: 81-116.Search in Google Scholar

Kloss M., 2007, Roślinność subfosylna na tle historii wysokich torfowisk mszarnych w północno-wschodniej i środkowej Polsce oraz w Sudetach (Subfossil vegetation in the light of history of sphagnum raised mires in the north-eastern and central Poland as well as in the Sudety Mountains), Instytut Badawczy Leśnictwa, Sękocin Stary, p. 141 (in Polish, English summary).Search in Google Scholar

Kondracki J., 1994, Geografia Polski. Mezoregiony fizycznogeograficzne, PWN, Warszawa, p. 340 (in Polish).Search in Google Scholar

Kowalewski G., Barabach J., 2010, Struktura osadów zbiornika jeziorno-torfowiskowego Dury V (Bory Tucholskie) (Sedimentary record in lake-mire basin Dury V (Tuchola Pinewood Forest)), Stud. Lim. Tel. 4: 65-74 (in Polish).Search in Google Scholar

Krishnamurthy R.V., Bhattacharya S.K., Kusumgar S., 1986, Palaeoclimatic changes deduced from 13C/12C and C/N ratios of Karewa lake sediments, India, Nature 323: 150-152.10.1038/323150a0Search in Google Scholar

Kullberg A., Bishop K.H., Hargeby A., Jonson M., Petersen R.C., 1993, The ecological significance at dissolved organic carbon in acidified water, Ambio 22: 331-337.Search in Google Scholar

Kupryjanowicz M., 2007, Postglacial development of vegetation in the vicinity of the Wigry Lake, Geochronometria 27: 53-66.10.2478/v10003-007-0018-xSearch in Google Scholar

Marks L., 2002, Last Glaciation maximum in Poland, Quat. Sci. Rev. 21:103-110.10.1016/S0277-3791(01)00086-5Search in Google Scholar

Meyers P.A., 1994, Preservation of elemental and isotopic source identification of sedimentary organic matter, Chem. Geol. 114: 289-302.10.1016/0009-2541(94)90059-0Search in Google Scholar

Obidowicz A., 1990, Eine Pollenanalytische und Moorkundliche Studie zur Vegetationsgeschichte des Podhale- Gebietes (West-Karpaten) (Palinological and peat- science research of vegetation history of the Podhale region (Western Carpathians)), Acta Palaeobot. 1(2): 147-219 (in German).Search in Google Scholar

Pawlikowski P., Rutkowska E., Kłosowski S., Jabłońska E., Drzymulska D., 2013, Development of bog-like vegetation during terrestrialization of polyhumic lakes in north-eastern Poland is not accompanied by ecosystem ombrotrophication, Hydrobiologia DOI: 10.1007/ s10750-013-1783-3.Search in Google Scholar

Ralska-Jasiewiczowa M., Starkel L., 1988, Record of the hydrological changes during the Holocene in the lake, mire and fluvial deposits of Poland, Folia Quat. 57: 91-126.Search in Google Scholar

Ralska-Jasiewiczowa M., Latałowa M., Wasylikowa K., Tobolski K., Madeyska E., Wright Jr H.E., Turner C.H., 2004, Late Glacial and Holocene history of vegetation in Poland based on isopollen maps, W. Szafer Institute of Botany, Polish Academy of Sciences, Kraków, p. 395.Search in Google Scholar

Rydin H., Jeglum J., 2008, The biology of peatlands, Oxford University Press, Oxford, p. 343.Search in Google Scholar

Tołpa S., Jasnowski M., Pałczyński A., 1967, System der genetischen Klassifizierung der Torfe Mitteleuropas (System of genetic classification of peats from Middle Europe), Zesz. Probl. Post. Nauk Rol. 79: 9-99 (in German).Search in Google Scholar

Walanus A., Nalepka D., 1999, Polpal Program for counting pollen grains, diagrams plotting and numerical analysis, Acta Palaeobot. 2: 659-661.Search in Google Scholar

Żurek S., Bińka K., Drzymulska D., 2009, Torfowisko Sucharu Dembowskich (Suchar Dembowskich mire), Pr. Kom. Paleogeogr. Czwartorzędu PAU 7: 99-106 (in Polish).Search in Google Scholar

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