Danuta J. Michczyńska, Marek Krąpiec, Adam Michczyński, Jacek Pawlyta, Tomasz Goslar, Natalia Nawrocka, Natalia Piotrowska, Elżbieta Szychowska-Krąpiec, Bogusława Waliszewska, Magdalena Zborowska, 2018. Different pretreatment methods for 14C dating of Younger Dryas and Allerød pine wood (Pinus sylvestris L.). Quaternary Geochronology48: 38–44. https://doi.org/10.1016/j.quageo.2018.07.013[Crossref]
Marek Krąpiec, Danuta J Michczyńska, Adam Michczyński, Natalia Piotrowska, Tomasz Goslar, Elżbieta Szychowska-Krąpiec, 2018. Late Glacial Atmospheric Radiocarbon Variations Recorded in Scots Pine (Pinus sylvestris L.) Wood from KwiatkÓw, Central Poland. Radiocarbon60(4): 1029–1040. https://doi.org/10.1017/RDC.2018.71[Crossref]
Słowiński M., Zawiska I., Ott F., Noryśkiewicz A.M., Plessen B., Apolinarska K., Rzodkiewicz M., Michczyńska D.J., Wulf S., Skubała P., Kordowski J., Błaszkiewicz M., Brauer A., 2017. Differential proxy responses to late Allerød and early Younger Dryas climatic change recorded in varved sediments of the Trzechowskie palaeolake in Northern Poland. Quaternary Science Reviews158: 94–106. https://doi.org/10.1016/j.quascirev.2017.01.005[Scopus - Elsevier]
Słowiński M., Marcisz K., Płóciennik M., Obremska M., Pawłowski D., Okupny D., Słowińska S., Borówka R., Kittel P., Forysiak J., Michczyńska D.J., Lamentowicz M., 2016. Drought as a stress driver of ecological changes in peatland - A palaeoecological study of peatland development between 3500 BCE and 200 BCE in central Poland. Palaeogeography, Palaeoclimatology, Palaeoecology461: 272–291. https://doi.org/10.1016/j.palaeo.2016.08.038[Scopus - Elsevier]
Starkel L., Michczyńska D.J., Gebica P., Kiss T., Panin A., Perşoiu I., 2015. Climatic fluctuations reflected in the evolution of fluvial systems of Central-Eastern Europe (60-8ka cal BP). Quaternary International. https://doi.org/10.1016/j.quaint.2015.04.017[Scopus - Elsevier]
Płóciennik M., Kruk A., Michczyńska D.J., Birks J.B., 2015. Kohonen artificial neural networks and the indval index as supplementary tools for the quantitative analysis of palaeoecological data. Geochronometria42(1): 189–201. https://doi.org/10.1515/geochr-2015-0021[Scopus - Elsevier]
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Michczyńska D.J., Starkel L., Nalepka D., Pazdur A., 2013. Hydrological changes after the last ice retreat in northern Poland using radiocarbon dating. Radiocarbon55(2-3): 1712–1723. https://doi.org/10.2458/azu_js_rc.55.16343[Scopus - Elsevier]
Michczyński A., Kołaczek P., Margielewski W., Michczyńska D.J., Obidowicz A., 2013. Radiocarbon age-depth modeling prevents misinterpretation of past vegetation dynamics: Case study of Wierchomla mire (Polish Outer Carpathians). Radiocarbon55(2-3): 1724–1734. https://doi.org/10.2458/azu_js_rc.55.16308[Scopus - Elsevier]
Starkel L., Michczyńska D.J., Kra̧piec M., Margielewski Wł., Nalepka D., Pazdur A., 2012. Progress in the holocene chrono-climatostratigraphy of Polish territory. Geochronometria40(1): 1–21. https://doi.org/10.2478/s13386-012-0024-2[Scopus - Elsevier]
Michczyńska D.J., Hajdas I., 2010. Frequency distribution of 14C ages for chronostratigraphic reconstructions: Alaska region study case. Radiocarbon52(3): 1041–1055. [Scopus - Elsevier]
Mazurowski R.F., Michczyńska D.J., Pazdur A., Piotrowska N., 2009. Chronology of the early pre-pottery neolithic settlement tell Qaramel, Northern Syria, in the light of radiocarbon dating. Radiocarbon51(2): 771–781. https://doi.org/10.1017/S0033822200056083[Scopus - Elsevier]
Michczyńska D.J., Michczyński A., Pazdur A., 2007. Frequency distribution of radiocarbon dates as a tool for reconstructing environmental changes. Radiocarbon49(2): 799–806. https://doi.org/10.1017/S0033822200042673[Scopus - Elsevier]
Nawrocka D.M., Michczyńska D.J., Pazdur A., Czernik J., 2007. Radiocarbon chronology of the ancient settlement in the Golan heights area, Israel. Radiocarbon49(2): 625–637. https://doi.org/10.1017/S0033822200042521[Scopus - Elsevier]
Macklin M.G., Benito G., Gregory K.J., Johnstone E., Lewin J., Michczyńska D.J., Soja R., Starkel L., Thorndycraft V.R., 2006. Past hydrological events reflected in the Holocene fluvial record of Europe. Catena66(1-2): 145–154. https://doi.org/10.1016/j.catena.2005.07.015[Scopus - Elsevier]
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Michczyńska D.J., Pazdur A., 2004. Shape analysis of cumulative probability density function of radiocarbon dates set in the study of climate change in the Late Glacial and Holocene. Radiocarbon46(2): 733–744. https://doi.org/10.1017/S0033822200035773[Scopus - Elsevier]
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Aitchison T.C., Leese M., Michczynska D.J., Mook W.G., Otlet R.L., Ottaway B.S., Pazdur M.F., Van Der Plichd J., Reimer P.J., Robinson S.W., Scott E.M., Stuivew M., Wenninger B., 1990. A comparison of methods used for the calibration of radiocarbon dates. Radiocarbon31(3): 846–862. [Scopus - Elsevier]
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