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Warianty tytułu
Języki publikacji
Abstrakty
A sediment core from Lake Veetka, southeast Estonia, 1077 cm in length and covering 10,500 calibrated years, was examined using loss-on-ignition, grain-size distribution and AMS 14C dating to reconstruct depositional dynamics. The studied core, recovered from the northern part of the lake, shows a cyclic pattern of organic and mineral matter concentration with cycle durations of 100-400 years. Cyclicity is displayed better in sediments laid down between 9,200 and 5,600 cal BP. Within two time windows (5,600–5,100 cal BP and from 1,200 cal BP to the present), sediment composition changed drastically on account of a high and fluctuating mineral matter content, obviously driven by different factors. Little Ice Age cooling is characterised by the highest proportion of mineral matter, and the Medieval Warm Period is typified by high organic matter content. The cyclic change of organic and mineral matter has been related to climate dynamics, most likely an alternation of wet and dry conditions, changes in the water level of the lake and differences in bioproduction.
Czasopismo
Rocznik
Tom
Strony
59--69
Opis fizyczny
Bibliogr. 55 poz.
Twórcy
autor
- Institute of Geology at Tallinn University of Technology, Ehitajate tee 5, 19086 Tallinn, Estonia
Bibliografia
- Alley, R.B., Mayewski, P.A., Sowers, T., Taylor, K.C. & Clark, P.U., 1997. Holocene climate instability: a prominent widespread event 8200 yr ago. Geology 25, 483–486.
- Battarbee, R.W., Cameron, N.G., Golding, P., Brooks, S.J., Switsur, R., Harkness, D., Appleby, P., Oldfield, F., Thompson, R., Monteith, D.T. & McGovern, A., 2001. Evidence for Holocene climate variability from the sediments of a Scottish remote mountain lake. Journal of Quaternary Science 16, 4, 339–346.
- Bond, G., Kromer, B., Beer, J., Muscheler, R., Evans, M.N., Showers, W., Hoffmann, S., Lotti-Bond, R., Hajdas, I. & Bonani, G., 2001. Persistent solar influence on North Atlantic climate during the Holocene. Science 278, 1257–1266.
- Chambers, F.M. & Blackford, J.J., 2001. Mid- and Late-Holocene climate changes: a test of periodicity and solar forcing in proxy-climate data from blanket peat bogs. Journal of Quaternary Science 16, 4, 329–389.
- Charman, D.J., Barber, K.E., Blaauw, M., Langdon, P.G., Mauquoy, D., Daley, T.J., Hughes, P.D.M. & Karofeld, E., 2009. Climate drivers for peatland palaeoclimate records. Quaternary Science Reviews 28, 1811–1819.
- Denton, G.H. & Karlén, W., 1973. Holocene climate variations – their pattern and possible cause. Quaternary Research 3, 155–205.
- Digerfeldt, G., 1988. Reconstruction and regional correlation of Holocene lake-level fluctuations in Lake Bysjön, South Sweden. Boreas 17, 165–182.
- Gałka, M. & Apolinarska, K., 2014. Climate change, vegetation development, and lake level fluctuations in Lake Purwin (NE Poland) during the last 8600 cal. BP based on a high-resolution plant macrofossil record and stable isotope data (δ13C and δ18O). Quaternary International 328–329, 213–225.
- Grimm, E., 2011. Tilia software v. 1.7.16. Illinois State Museum. Research and Collection Center, Springfield.
- Hammarlund, D., Björck, S., Buchardt, B., Israelson, C. & Thomsen C.T., 2003. Rapid hydrological changes during the Holocene revealed by stable isotope records of lacustrine carbonates from Lake Igelsjön, southern Sweden. Quaternary Science Reviews 22, 353–370
- Heikkilä, M. & Seppä, H., 2003. A 11,000 yr palaeotemperature reconstruction from the southern boreal zone in Finland. Quaternary Science Reviews 22, 541–554.
- Heikkilä, M. & Seppä, H., 2010. Holocene climate dynamics in Latvia, eastern Baltic region: a pollen-based summer temperature reconstruction and regional comparison. Boreas 39, 705–719.
- Jessen, C.A., Rundgren, M., Björck, S. & Hammarlund, D., 2005. Abrupt climatic changes and an unstable transition into a late Holocene Thermal Decline: a multiproxy lacustrine record from southern Sweden. Journal of Quaternary Science 20, 349–362.
- Jääts, L., Kihno, K., Tomson, P. & Konsa, M., 2010. Tracing fire cultivation in Estonia. Forestry Studies 53, 53–63.
- Last, W.M., 2001. Textural analysis of lake sediments. [In:] W.M. Last & J.P. Smol (Eds.): Tracking Environmental Change Using Lake Sediments. Volume 2: Physical and Geochemical Methods. Kluwer Academic Publishers, Dordrecht, 41–81.
- Laumets, L., Kalm, V., Poska, A., Kele, S., Lasberg, K. & Amon, L., 2014. Palaeoclimate inferred from δ18O and palaeobotanical indicators in freshwater tufa of Lake Äntu Sinijärv, Estonia. Journal of Paleolimnology 51, 99–111.
- Luoto, T., Nevalainen, L., Kauppila, T., Tammelin, M. & Sarmaja-Korjonen, K., 2012. Diatom-inferred total phosphorus from dystrophic Lake Arapisto, Finland, in relation to Holocene paleoclimate. Quaternary Research 78, 248–255.
- Luoto, T., Nevalainen, L. & Sarmaja-Korjonen, K., 2008. Multiproxy evidence for the ”Little Ice Age” from Lake Hampträsk, Southern Finland. Journal Paleolimnology 40, 1097–1113.
- Magny, M. & Haas, J.-N., 2004. A major widespread climatic change around 5300 cal. yr BP at the time of the Alpine Iceman. Journal of Quaternary Science 19, 423–430.
- Martin-Puertas, C., Matthes, K., Brauer, A., Muscheler, R., Hansen, F., Petrick, C., Aldahan, A., Possnert, G. & van Geel, B., 2012. Regional atmospheric circulation shifts induced by grand solar minimum. Nature Geoscience 5. Letters. DOI: 10.1038/NGEO1460.
- Mayewski, P.A., Rohlin, E.E., Stager, J.C., Karlén, W., Maasch, K.A., Meeker, L.D., Meyerson, E.A., Gasse, F., van Kreveld, S., Holmgren, K., Lee-Thorp, J., Rosqvist, G., Rack, F., Staubwasser, M., Schneider, R.R. & Steig, E.J., 2004. Holocene climate variability. Quaternary Research 62, 243–255.
- Mäemets, A., 1977. Eesti NSV järved ja nende kaitse [Lakes of the Estonian S.S.R. and their protection]. Valgus, Tallinn, 263 pp. [in Estonian with English summary].
- Nesje, A., 2009. Latest Pleistocene and Holocene alpine glacier fluctuations in Scandinavia. Quaternary Science Reviews 28, 2119–2136.
- Niinemets, E. & Saarse, L., 2006. Holocene forest dynamics and human impact in southeastern Estonia. Vegetation History and Archaeobotany 16, 1–13.
- Niinemets, E. & Saarse, L., 2007a. Fine-resolution pollen-based evidence of farming and forest development, south-eastern Estonia. Polish Journal of Ecology 55, 283–296.
- Niinemets, E. & Saarse, L., 2007b. Mid- and late-Holocene land-use changes inferred from pollen records, in a south-eastern Estonian upland areas. Review of Palaeobotany & Palynology 146, 51–73.
- Niinemets, E., & Saarse, L., 2009. Holocene vegetation and land-use dynamics of south-eastern Estonia. Quaternary International 207, 104–116.
- Reitalu, T., Seppä, H., Sugita, S., Kangur, M., Koff, T., Avel, E., Kihno, K., Vassiljev, J., Renssen, H., Hammarlund, D., Heikkila, M., Saarse, L., Poska, A., & Veski, S., 2013. Long-term drivers of forest composition in a boreonemoral region: the relative importance of climate and human impact. Journal of Biogeography 40, 1524–1534.
- Reimer, P.J., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P.G., Bronk Ramsey, C., Buck, C.E., Cheng, H., Edwards, R.L., Friedrich, M., Groots, P.M., Guilderson, T.P., Haflidason, H., Hajdas, I., Hatte, C., Heaton, T.J., Hoffmann, D.L., Hogg, A.G., Hughen, K.A., Kaiser, K.F., Kromer, B., Manning, S.W., Niu, M., Reimer, R.W., Richards, D.A., Scott, E.M., Southon, J.R., Turney, C.S.M. & van der Plicht, J., 2013. IntCal13 and Marine13 radiocarbon age calibration curves, 0-50,000 years cal BP. Radiocarbon 55, 4, 1869–1887.
- Saarse, L., 1994. Bottom deposits of small Estonian lakes. Estonian Academy of Sciences, Institute of Geology, Tallinn, 230 pp. [in Russian with English summary].
- Saarse, L. 2014. Cyclic sedimentation pattern in Lake Veetka, SE Estonia. [In:] V. Zelčs & M. Nartišs (Eds): Late Quaternary terrestrial processes, sediments and history: from glacial to postglacial environments. University of Latvia, Riga, 133–135.
- Saarse, L., Heinsalu, A. & Veski, S., 1995. Palaeoclimatic interpretation of the Holocene litho- and biostratigraphic proxy data from Estonia. [In:] Proceedings of the SILMU Conference. Publications of the Academy of Finland, Helsinki, 102–105.
- Saarse, L. & Niinemets, E., 2007. Environmental changes in SE Estonia during the last 700 years. Boreal Environmental Research 12, 611–621.
- Seppä, H., Bjune, A.E., Telford, R.J., Birks, H.J.B. & Veski, S., 2009. Last nine-thousand years of temperature variability in Northern Europe. Climate of the Past 5, 523–535.
- Seppä, H. & Poska, A., 2004. Holocene annual mean temperature changes in Estonia and their relationship to solar insolation and atmospheric circulation patterns. Quaternary Research 61, 22–31.
- Sillasoo, Ü., Mauquoy, D., Blundell, A., Charman, D., Blaauw, M., Daniell, J.R.G., Toms, P., Newberry, J., Chambers, F.M. & Karofeld, E., 2007. Peat multi-proxy data from Männikjärve bog as indicators of Late Holocene climate changes in Estonia. Boreas 36, 20–37.
- Sillasoo, Ü., Poska, A., Seppä, H., Blaauw, M. & Chambers, F.M., 2009. Linking past cultural developments to palaeoenvironmental changes in Estonia. Vegetation History and Archaeobotany 18, 315–327.
- Simonneau, A., Chapron, E., Garçon, M. Winiarski, T., Graz, Y., Chauvel, C., Debret, M., Motelica-Heino, M., Desmet, M. & Di Giovanni, C., 2014. Tracking Holocene glacial and high-altitude alpine environments fluctuations from minerogenic and organic markers in proglacial lake sediments (Lake Blanc Huez, Western French Alps). Quaternary Science Reviews 89, 27–43.
- Skilbeck, C.G., Rolph, T.C., Hill, N., Woods, J. & Wilkens, R.H., 2005. Holocene millennial/centennial-scale multiproxy cyclicity in temperate eastern Australian estuary sediments. Journal of Quaternary Science 20, 327–347.
- Sohar, K. & Kalm, V., 2008. A 12.8-ka-long palaeoenvironmental record revealed by subfossil ostracod data from lacustrine freshwater tufa in Lake Sinijärv, northern Estonia. Journal of Paleolimnology 40, 809–821.
- Stuiver, M. & Braziunas, T.F., 1989. Atmospheric 14C and century-scale solar oscillation. Nature 338, 405–408.
- Tarand, A., Jaagus, J. & Kallis, A., 2013. Eesti kliima minevikus ja tänapäeval [Estonian climate: Past and Present]. Tartu Ülikooli kirjastus, Tartu, 631 pp. [in Estonian with English summary].
- Tarand, A. & Nordli, P.Ø., 2001. The Tallinn temperature series reconstructed back half a millennium by use of proxy data. Climatic Change 48, 189–199.
- Vaasma, T., 2008. Grain-size analysis of lacustrine sediments: a comparison of pre-treatment methods. Estonian Journal of Ecology 57, 231–243.
- Veski, S., Seppä, H. & Ojala, A.E.K., 2004. Cold event at 8200 yr B.P. recorded in annually laminated lake sediments in eastern Europe. Geology 32, 8, 681–684.
- Veski, S., Seppä, H., Stančikaitė, M., Zernitskaya, V., Reitalu, T., Gryguc, G., Heinsalu, A., Stivrins, N., Amon, L., Vassiljev, J. & Heiri, O., 2014. Quantitative summer and winter temperature reconstructions from pollen and chironomid data between 15–8 ka BP in the Baltic–Belarus area. Quaternary International. (http://dx.doi.org/10.1016/j.quaint.2014.10.059).
- Väli, V., Poska, A., Kihno, K., Alliksaar, T., Saarse, L., Tomson, P & Vassiljev, J., 2014. Reconstructing past vegetation changes in Karula heights, South-Estonia over the last millennia. [In:] 9th European Palaeobotany-Palynology Conference. Padova, Italy, p. 289.
- Väliranta, M., Blundell, A., Charman, D.J., Karofeld, E., Korhola, A., Sillasoo, Ü. & Tuittila, E.-S., 2012. Reconstructing peatland water tables using transfer functions for plant macrofossils and testate amoebae: A methodological comparison. Quaternary International 268, 34–43.
- Väliranta, M., Korhola, A., Seppä, H., Tuittila, E.-S., Sarmaja-Korjonen, K., Laine, J. & Alm, J., 2007. High-resolution reconstruction of wetness dynamics in a southern boreal raised bog, Finland, during the late Holocene: a quantitative approach. The Holocene 17, 1093–1107.
- Walker, M.J..C., Berkelhammer, M, Björck, S., Cwynar, L.C., Fisher, D.A., Long, A.J., Lowe, J.J., Newnham, R.M., Rasmussen, S. & Weiss, H., 2012. Formal subdivision of the Holocene Series/Epoch: a Discussion Paper by a Working Group of INTIMATE (Integration of ice-core, marine and terrestrial records) and the Subcommission on Quaternary Stratigraphy (International Commission on Stratigraphy). Journal of Quaternary Science 27, 649–659.
- Wanner, H., Beer, J., Bütikofer, J., Crowley, T.J., Cubasch, U., Flückiger, J., Goosse, H., Grosjean, M., Joos, F., Kaplan, J.O., Küttel, M., Müller, S.A., Prentice, I.C., Solomina, O., Stocker, T.F., Tarasov, P., Wagner, M. & Widmann, M., 2008. Mid- to Late Holocene climate change: an overview. Quaternary Science Reviews 27, 1791–1828.
- Webb, R.S. & Webb, III, T., 1988. Rates of sediment accumulation in pollen cores from small lakes and mires of eastern North America. Quaternary Research 30, 284–297.
- Wu, J., Yu, Z., Zeng, H.A. & Wang, N., 2009. Possible solar forcing of 400-year wet-dry climate cycles in northwestern China. Climate Change 96, 473–482.
- Yu, Z. & Ito, E., 1999. Possible solar forcing of century-scale drought frequency in the northern Great Plains. Geology 27, 263–266.
- Yu, Z. & Ito, E., 2003. The 400-year wet-dry climate cycle in interior North America and its solar connection. [In:] G.I. West & N.L. Blomquist (Eds.): Proceedings of the 19th Annual Pacific Climate Workshop. Sacramento, California, 159–163.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-49da46a9-a004-4dd9-b1af-b9497461aa88