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Subfossil trunks of pine (Pinus sylvestris L.) from the Late Weichselian were discovered in the site Koźmin in the Koło Basin, central Poland (Dzieduszyńska et al., 2014a). Another part of organic sediments with trunks was excavated in the frame of the research project. Altogether 224 samples from Koźmin were analysed dendrochronologically; they represented generally young trees, 40 to 70 years old. Based on the most convergent sequences, the chronology 2KOL_A1 was produced, 210 years in length. With the wiggle-matching method, it was dated to ca. 13065–12855 cal BP. Dendrochronological dating of trunks buried in organic sediments, most of which occurred in situ, revealed that tree deaths occurred successively, over more than 100 years. That could have been due to unfavourable climatic conditions, as well as extreme events, e.g. strong winds.
Wydawca
Czasopismo
Rocznik
Strony
101--111
Opis fizyczny
Bibliogr. 44 poz., rys., tab.
Twórcy
  • Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Kraków, Poland
  • Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Kraków, Poland
  • Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Kraków, Poland
  • Faculty of Physics, Adam Mickiewicz University, Poznań, Poland
  • Poznań Radiocarbon Laboratory, Foundation of the A. Mickiewicz University, Poznań, Poland
autor
  • Faculty of Geographical Sciences, Department of Geomorphology and Palaeogeography, University of Lodz, Lodz, Poland
  • Institute of Physics - CSE, Silesian University of Technology, Gliwice, Poland
  • Institute of Physics - CSE, Silesian University of Technology, Gliwice, Poland
  • Institute of Physics - CSE, Silesian University of Technology, Gliwice, Poland
  • Institute of Physics - CSE, Silesian University of Technology, Gliwice, Poland
  • Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Kraków, Poland.
Bibliografia
  • 1. Baillie, MGL, and Pilcher, JR. 1973. A simple crossdating program for tree-ring research. Tree-Ring Bulletin 33: 7–14.
  • 2. Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1): 337–360, DOI: 10.1017/S0033822200033865.
  • 3. Bronk Ramsey, C, van der Plicht, J, and Weninger, B. 2001. ‘Wiggle-matching’ radiocarbon dates. Radiocarbon 43(2A): 381–389, DOI: 10.1017/S0033822200038248.
  • 4. Cook, ER, Kairiukstis, LA, eds. 1990. Methods of Dendrochronology Dordrecht: Kluwer Academic Publishers.
  • 5. Cook, ER, and Krusic, PJ, 2005. ARSTAN v. 41d: A tree-ring standardization program based on detrending and autoregressive time series modeling, with interactive graphics. Tree-Ring Laboratory, Lamont-Doherty Earth Observatory of Columbia University, Palisades, New York USA.
  • 6. Corona, E, 1984. Una curva trisecolare per larice del Dryas Antico. Dendrochronologia 2: 83−89.
  • 7. Dzieduszyńska, D, 2017. Przydatność zbioru dat radiowęglowych do rekonstrukcji zmian w środowisku schyłku vistulianu Polski Środkowej Usefulness of aset of radiocarbon dates for the reconstructionof changes inthe environment of the Vistulian declinein Central Poland. Acta Geographica Lodziensia 106: 117−127, DOI: 10.26485/AGL/2017/106/9.
  • 8. Dzieduszyńska, D, Petera-Zganiacz, J, and Krąpiec, M, 2011. The age of the subfossil trunk horizon in deposits of the Warta River valley (central Poland) based on 14C dating. Geochronometria 38(4): 334−340.
  • 9. Dzieduszyńska, D, and Petera-Zganiacz, J, 2012. Geologic position of the Younger Dryas subfossil forest in the Warta River Valley, central Poland. Bulletin of the Geological Society of Finland 84: 69−79, DOI: 10.2478/s13386-011-0019-4.
  • 10. Dzieduszyńska, D, Kitel, P, Petera-Zganiacz, J, and Twardy, J, 2012. Paleogeograficzne elementy rozwoju doliny Warty w Kotlinie Kolskiej w świetle badań w stanowisku “Koźmin Las” (Palaeogeographical elements of the Warta River evolution within the Koło Basin in the light of investigations at the site “Koźmin Las”). Acta Geographica Lodziensia 100: 35−49.
  • 11. Dzieduszyńska, DA, Kitel, P, Petera-Zganiacz, J, Brooks, SJ, Korzeń, K, Krapiec, M, Pawłowski, D, Płaza, DK, Płóciennik, M, Stachowicz-Rybka, R, and Twardy, J, (2014a). Environmental influence on forest development and decline in the Warta River valley (Central Poland) during the Late Weichselian. Quaternary International 324: 99–114, DOI: 10.1016/j.quaint.2013.07.017.
  • 12. Dzieduszyńska, D, Petera-Zganiacz, J, Twardy, J, Kitel, P, Moska, P, and Adamiec, G, (2014b). Optical dating and sedimentary record from the terrace depositional profile of the Warta River (Central Poland). Geochronometria 41(4): 361−368, DOI: 10.2478/s13386-013-0173-y.
  • 13. Eckstein, D, and Bauch, J, 1969. Beitrag zur Rationalisierung eines dendrochronologischen Verfahrens und zur Analyse seiner Aussagesicherheit. Forstwissenschaftliches Centralblatt 88: 230–250.
  • 14. Friedrich, M, Kromer, B, Spurk, H, Hofmann, J, and Kaiser, KF, 1999. Paleo-environment and radiocarbon calibration as derived from Lateglacial/Early Holocene tree-ring chronologies. Quaternary International 61: 27−39.
  • 15. Friedrich, M, Knipping, M, von der Kroft, P, Renno, A, Ullrich, O, and Vollbrecht, J, 2001. Ein Wald am Ende der letzten Eiszeit. Untersuchungen zur Besiedelungs-, Landschafts- und Vegetationsentwicklung an einem verlandeten See im Tagebau Reichwalde, Niederschlesischer Oberlausitzkreis. Arbeits- und Forschungsberichte zur sächsischen Bodendenkmalpflege 43: 21−94.
  • 16. Friedrich, M, Remmele, S, Kromer, B, Hofmann, J, Spurk, M, Kaiser, KF, Orcel, C, and Küppers, M, 2004. The 12,460 year Hohenheim oak and pine tree-ring chronology from Central Europe e a unique annual record for radiocarbon calibration and paleo-environment reconstructions. Radiocarbon 46(3): 1111–1122, DOI: 10.2458/azu_js_rc.46.4172.
  • 17. Godet, JD, 2008. Atlas drewna Wyd. MULTICO.
  • 18. Goslar, T, Czernik, J, and Goslar, E, 2004. Low-energy 14C AMS in Poznan Radiocarbon Laboratory, Poland. Nuclear Instruments and Methods in Physics Research B 223−224: 5–11, DOI: 10.1016/j.nimb.2004.04.005.
  • 19. Griggs, C, Peteet, D, Kromer, B, Grote, T, and Southon, J, 2017. A tree-ring chronology and paleoclimate record for the Younger Dryas-Early Holocene transition from northeastern North America. Journal of Quaternary Sciences 32(3): 341−346, DOI: 10.1002/jqs.2940.
  • 20. Green, JW, 1963. Methods of carbohydrate chemistry. In: Whistler RL, ed. Methods in carbohydrate chemistry New York, Academic Press: 9–21.
  • 21. Hogg, A, Turney, C, Palmer, J, Southon, J, Kromer, B, Bronk Ramsey, C, Boswijk, G, Fenwick, P, Noronha, A, Staff, R, and Friedrich, M, 2013. The New Zealand kauri (Agathis australis) research project: a radiocarbon dating intercomparison of Younger Dryas wood and implications for IntCal13. Radiocarbon 55(4): 2035–2048.
  • 22. Holmes, R.L. 1983. Computer-Assisted Quality Control in Tree-Ring Dating and Measurement. Tree-Ring Bulletin 44: 69-75.
  • 23. Hua, Q, Barbetti, M, Fink, D, Kaiser, FK, Friedrich, M, Kromer, B, Levchenko, VA, Zoppi, U, Smith, AM, and Bertuch, F, 2009. Atmospheric 14C variations derived from tree rings during the early Younger Dryas. Quaternary Science Reviews 28: 2982−2990.
  • 24. Kaiser, KF, Friedrich, M, Miramont, C, Kromer, B, Sgier, M, Schaub, M, Boeren, I, Talamo, S, Guibal, F, and Sivan, O, 2012. Challenging process to make the Lateglacial tree-ring chronologies from Europe absolute—an inventory. Quaternary Science Reviews 36: 78–90.
  • 25. Kittel, P, 2015. The alternative interpretation of chronology of flood events in the mid-Warta River valley: Record of Early Holocene alluviation in the Koło Basin (central Poland). Quaternary International 386: 116−121.
  • 26. Kittel, P, Petera-Zganiacz, J, Dzieduszyńska, D, Twardy, J, Krąpiec, M, Bijak, S, Bronisz, K, Zasada, M, and Płaza, D, 2012. Badania “kopalnego lasu” ze schyłku vistulianu w dolinie Warty (Kotlina Kolska, środkowa Polska) (Research of subfossil forest from the Weichselian decline in the Warta River Valley, Koło Basin, central Poland). Studia i Materiały Centrum Edukacji Przyrodniczo-Leśnej 1 (30): 238−245.
  • 27. Krawczyk, A, and Krąpiec, M, 1995. Dendrochronologiczna baza danych. Materiały II Krajowej Konferencji: Komputerowe wspomaganie badań naukowych (Dendrochronological database. Proceedings of the Second Polish Conference on Computer Assistance to Scientific Research). Wrocław: 247–252. In Polish.
  • 28. Krąpiec, M, Michczyńska, DJ, Michczyński, A, Piotrowska, N, Goslar, T, and Szychowska-Krąpiec, E, 2018. Late glacial atmospheric radiocarbon variations recorded in scots pine (Pinus sylvestris L.) wood from Kwiatków, Central Poland. Radiocarbon 60(4): 1029−1040, DOI: 10.1017/RDC.2018.71.
  • 29. Michczyńska, DJ, Krąpiec, M, Michczyński, A, Pawlyta, J, Barniak, J, Goslar, T, Nawrocka, N, Piotrowska, N, Szychowska-Krąpiec, E, Waliszewska, B, and Zborowska, M, 2018. Different pretreatment method for 14C dating of Younger Dryas and Allerød pine wood (Pinus sylvestris L.). Quaternary Geochronology 48: 38−44, DOI: 10.1016/j.quageo.2018.07.013.
  • 30. Miramont, C, Sivan, O, Rosique, T, Edouard, J, and Jorda, M, 2000. Subfossil Tree Deposits in the Middle Durance (Southern Alps, France): Environmental Changes from Allerød to Atlantic. Radiocarbon 42(3): 423−435, DOI: 10.1017/S0033822200030356.
  • 31. Nadeau, M-J, Grootes, PM, Schleicher, M, Hasselberg, P, Rieck, A, and Bitterling, M, 1998. Sample throughput and data quality at the Leibniz-Labor AMS facility. Radiocarbon 40(1): 239–245.
  • 32. Pazdur, A, Korput, S, Fogtman, M, Szczepanek, M, Hałas, S, Krąpiec, E, and Szychowska-Krąpiec, E, 2005. Carbon-13 in α-cellulose of oak latewood (Jędrzejów, southern Poland) during the Maunder minimum. Geological Quarterly 49(2): 165–172.
  • 33. Pearson, GW, 1986. Precise calendrical dating of known growth-period samples using a ‘curve fitting’ technique. Radiocarbon 28(2A): 292–299.
  • 34. Petera-Zganiacz, J, 2007. Osady rzeki plenivistuliańskiej w Koźminie. Acta Geographica Lodziensia 93: 43−56.
  • 35. Petera, J, 2002. Vistuliańskie osady dolinne w basenie uniejowskim i ich wymowa paleogeograficzna (Vistulian valley deposits in the Uniejów Basin and their palaeogeographical significance). Acta Geographica Lodziensia 83: 1-164.
  • 36. Petera-Zganiacz, J, Dzieduszyńska, DA, Twardy, J, Pawłowski, D, Płóciennik, M, Lutyńska, M, and Kittel, P, 2015. Younger Dryas flood events: A case study from the middle Warta River valley (Central Poland). Quaternary International 386: 55−69, DOI: 10.1016/j.quaint.2014.09.074.
  • 37. Reimer, PJ, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Grootes, PM, Guilderson, TP, Haflidason, H, Hajdas, I, Hatté, C, Heaton, TJ, Hoffmann, DL, Hogg, AG, Hughen, KA, Kaiser, KF, Kromer, B, Manning, SW, Niu, M, Reimer, RW, Richards, DA, Scott, EM, Southon, JR, Staff, RA, Turney, CSM, and van der Plicht, J, 2013. IntCal13 and Marine13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55(4): 1869–1887, DOI: 10.2458/azu_js_rc.55.16947.
  • 38. Reinig, F, Nievergelt, D, Esper, J, Friedrich, M, Helle, G, Hell-mann, L, Kromer, B, Morganti, S, Pauly, M, and Sookdeo, A, 2018. New tree-ring evidence for the Late Glacial period from the northern pre-Alps in eastern Switzerland. Quaternary Science Reviews 186: 215−224, DOI: 10.1016/j.quascirev.2018.02.019.
  • 39. Rinn, F, 2005. TSAP-Win. Time series analysis and presentation for dendrochronology and related applications User Reference. Heidelberg.
  • 40. Schweingruber, FH, 1990. Anatomy of European woods Stuttgart, Birmensdorf, Bern: WSL/FNP. Haupt Pub.
  • 41. Schweingruber, FH, 1996. Tree Rings and Environment-Dendrochronology Bern, Haupt Pub.
  • 42.Spurk, M, Friedrich, M, Hofmann, J, Remmele, S, Frenzel, B, Leuschner, HH, and Kromer, B, 1998. Revisions and extension of the Hohenheim oak and pine chronologies: New evidence about the timing of the Younger Dryas/Preboreal transition. Radiocarbon 40(3): 1107–1116, DOI: 10.1017/S0033822200019159.
  • 43. Vescovi, E, Ravazzi, C, Arpenti, E, Finsinger, W, Pini, P, Valsecchi, V, Wick, L, Ammannn, B, and Tinner, W, 2007. Interactions between climate and vegetation during the Lateglacial period as recorded by lake and mire sediment archives in Northern Italy and Southern Switzerland. Quaternary Science Reviews 26: 1650−1669, DOI: 10.1016/j.quascirev.2007.03.005.
  • 44. Zielski, A, and Krąpiec, M, 2004. Dendrochronologia Warsaw, PWN. In Polish.
Uwagi
„Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).”
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a28a410e-fc11-4d8c-b65e-b19019306905
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