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Division of Geochronology and Environmental Isotopes

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specjalista inż.-tech.
ul. Konarskiego 22B/215
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+48 32 237 2488
Miscellaneous Information:

Research groups


  • Szymon Uścinowicz, Małgorzata Witak, Grażyna Miotk-Szpiganowicz, Dorota Burska, Witold Cieślikiewicz, Wojciech Jegliński, Leszek Jurys, Paweł Sydor, Jacek Pawlyta, Natalia Piotrowska, 2020. Climate and sea level variability on a centennial time scale over the last 1500 years as inferred from the Coastal Peatland of Puck Lagoon (southern Baltic Sea). The Holocene 30(12): 1801–1816. https://doi.org/10.1177/0959683620950451 [Crossref]
  • Marek Krąpiec, Andrzej Rakowski, Jacek Pawlyta, Damian Wiktorowski, Monika Bolka, 2020. ABSOLUTE DENDROCHRONOLOGICAL SCALE FOR PINE (PINUS SYLVESTRIS L.) FROM UJŚCIE (NW POLAND), DATED USING RAPID ATMOSPHERIC 14C CHANGES. Radiocarbon 0(0): 0. https://doi.org/10.1017/RDC.2020.116 [Crossref]
  • Mariusz Ziółkowski, Jose Bastante Abuhadba, Alan Hogg, Dominika Sieczkowska, Andrzej Rakowski, Jacek Pawlyta, Sturt W Manning, 2020. WHEN DID THE INCAS BUILD MACHU PICCHU AND ITS SATELLITE SITES? NEW APPROCHES BASED ON RADIOCARBON DATING. Radiocarbon 0(0): 0. https://doi.org/10.1017/RDC.2020.79 [Crossref]
  • Andrzej Rakowski, Marek Krąpiec, Matthias Huels, Jacek Pawlyta, Christian Hamann, Damian Wiktorowski, 2019. Abrupt Increase of Radiocarbon Concentration in 660 BC in Tree Rings from Grabie Near Kraków (SE Poland). Radiocarbon: 1–9. https://doi.org/10.1017/RDC.2019.40 [Crossref]
  • Danuta Michalska, Jacek Pawlyta, 2019. Modeled and Measured Carbon Isotopic Composition and Petrographically Estimated Binder-Aggregate Ratio—Recipe for Binding Material Dating?. Radiocarbon 0(0): 0. https://doi.org/10.1017/RDC.2019.29 [Crossref]
  • Marzena Kłusek, Michael Grabner, Sławomira Pawełczyk, Jacek Pawlyta, 2019. An 1800-year stable carbon isotope chronology based on sub-fossil wood from Lake Schwarzensee, Austria. Palaeogeography, Palaeoclimatology, Palaeoecology 514: 65–76. https://doi.org/10.1016/j.palaeo.2018.10.003 [Crossref]
  • 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 Geochronology 48: 38–44. https://doi.org/10.1016/j.quageo.2018.07.013 [Crossref]
  • Rakowski A.Z., Kraȩpiec M., Huels M., Pawlyta J., Boudin M., 2018. Increase in radiocarbon concentration in tree rings from kujawy village (Se Poland) Around Ad 993-994. Radiocarbon 60(4): 1249–1258. https://doi.org/10.1017/RDC.2018.74 [Scopus - Elsevier]
  • Lisowska-Gaczorek A., Kozieł S., Cienkosz-Stepańczak B., Mądrzyk K., Pawlyta J., Gronkiewicz S., Wołoszyn M., Szostek K., 2016. An analysis of the origin of an early medieval group of individuals from Gródek based on the analysis of stable oxygen isotopes. HOMO- Journal of Comparative Human Biology 67(4): 313–327. https://doi.org/10.1016/j.jchb.2016.05.001 [Scopus - Elsevier]
  • Tudyka Konrad, Bluszcz Andrzej, Kozlowska Beata, Pawlyta Jacek, Michczynski Adam, 2015. Low level C-14 measurements in freshly prepared benzene samples with simultaneous Bi-214/Po-214 pairs counting for routine Rn-222 contamination correction. Radiation Measurements 74: 6–11. https://doi.org/10.1016/j.radmeas.2015.01.010 [ResearcherID]
  • Rakowski A.Z., Krąpiec M., Huels M., Pawlyta J., Dreves A., Meadows J., 2015. Increase of radiocarbon concentration in tree rings from Kujawy (SE Poland) around AD 774-775. Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms 361: 564–568. https://doi.org/10.1016/j.nimb.2015.03.035 [Scopus - Elsevier]
  • Tudyka K., Pawlyta J., 2014. Biocomponent determination in vinegars with the help of 14C measured by liquid scintillation counting. Food Chemistry 145: 614–616. https://doi.org/10.1016/j.foodchem.2013.08.109 [Scopus - Elsevier]
  • Szostek K., Haduch E., Stepańczak B., Kruk J., Szczepanek A., Pawlyta J., Gła;b H., Milisauskas S., 2014. Isotopic composition and identification of the origins of individuals buried in a Neolithic collective grave at Bronocice (southern Poland). HOMO- Journal of Comparative Human Biology 65(2): 115–130. https://doi.org/10.1016/j.jchb.2013.11.001 [Scopus - Elsevier]
  • Kozłowski T., Stepańczak B., Reitsema L.J., Osipowicz G., Szostek K., Płoszaj T., Jȩdrychowska-Dańska K., Pawlyta J., Paluszkiewicz C., Witas H.W., 2014. Osteological, chemical and genetic analyses of the human skeleton from a neolithic site representing the Globular Amphora Culture (Kowal, Kuyavia Region, Poland). Anthropologie (Czech Republic) 52(1): 91–111. [Scopus - Elsevier]
  • Stepańczak B., Szostek K., Pawlyta J., 2014. The human bone oxygen isotope ratio changes with aging. Geochronometria 41(2): 147–159. https://doi.org/10.2478/s13386-013-0146-1 [Scopus - Elsevier]
  • De Vleeschouwer F., Pazdur A., Luthers C., Streel M., Mauquoy D., Wastiaux C., Le Roux G., Moschen R., Blaauw M., Pawlyta J., Sikorski J., Piotrowska N., 2012. A millennial record of environmental change in peat deposits from the Misten bog (East Belgium). Quaternary International 268: 44–57. https://doi.org/10.1016/j.quaint.2011.12.010 [Scopus - Elsevier]
  • Gaigalas A., Pazdur A., Michczynski A., Pawlyta J., Kleišmantas A., Melešyte M., Rudnickaite E., Kazakauskas V., Vainorius J., 2012. Peculiarities of sedimentation conditions in the oxbow lakes of Dubysa River (Lithuania). Geochronometria 40(1): 22–32. https://doi.org/10.2478/s13386-012-0025-1 [Scopus - Elsevier]
  • Major M., Pawlyta J., 2012. The age and sedimentation rate of deposits filling closed evapotranspiration basins in the Parseta catchment (north-western Poland). Quaternary Geochronology 11: 79–86. https://doi.org/10.1016/j.quageo.2012.03.001 [Scopus - Elsevier]
  • Tudyka K., Pawlyta J., Pazdur A., 2011. Fixed energy balance window quench correction for high precision LSC 14C dating. Radiation Measurements 46(10): 1176–1180. https://doi.org/10.1016/j.radmeas.2011.07.030 [Scopus - Elsevier]
  • Lamentowicz M., Gałka M., Pawlyta J., Lamentowicz Ł., Goslar T., Miotk-Szpiganowicz G., 2011. Climate change and human impact in the southern Baltic during the last millennium reconstructed from an ombrotrophic bog archive. Studia Quaternaria 28: 3–16. [Scopus - Elsevier]
  • Szostek K., Stepańczak B., Szczepanek A., Kȩpa M., Gła̧b H., Jarosz P., Włodarczak P., Tunia K., Pawlyta J., Paluszkiewicz C., Tylko G., 2011. Diagenetic signals from ancient human remains-bioarchaeological applications. Mineralogia 42(2-3): 93–112. https://doi.org/10.2478/v10002-011-0009-4 [Scopus - Elsevier]
  • Piotrowska N., Vleeschouwer F.D., Sikorski J., Pawlyta J., Fagel N., Roux G.L., Pazdur A., 2010. Intercomparison of radiocarbon bomb pulse and 210Pb age models. A study in a peat bog core from North Poland. Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms 268(7-8): 1163–1166. https://doi.org/10.1016/j.nimb.2009.10.124 [Scopus - Elsevier]
  • Tudyka K., Pazdur A., Theodórsson P., Michczyński A., Pawlyta J., 2010. The application of ICELS systems for radiocarbon dating. Radiocarbon 52(4): 1661–1666. https://doi.org/10.1017/S0033822200056393 [Scopus - Elsevier]
  • Gabelmann O.U., Michczyński A., Pazdur A., Pawlyta J., 2009. Absolute radiocarbon chronology in the formative pottery production center of Santa Lucía, Cochabamba, Bolivia. Radiocarbon 51(2): 501–513. https://doi.org/10.1017/S0033822200055880 [Scopus - Elsevier]
  • Lamentowicz M., Milecka K., Gałka M., Cedro A., Pawlyta J., Piotrowska N., Lamentowicz Ł., van der Knaap W.O., 2009. Climate and human induced hydrological change since AD 800 in an ombrotrophic mire in Pomerania (N Poland) tracked by testate amoebae, macro-fossils, pollen and tree rings of pine. Boreas 38(2): 214–229. https://doi.org/10.1111/j.1502-3885.2008.00047.x [Scopus - Elsevier]
  • De Vleeschouwer F., Piotrowska N., Sikorski J., Pawlyta J., Cheburkin A., Le Roux G., Lamentowicz M., Fagel N., Mauquoy D., 2009. Multiproxy evidence of 'Little Ice Age' palaeoenvironmental changes in a peat bog from northern Poland. Holocene 19(4): 625–637. https://doi.org/10.1177/0959683609104027 [Scopus - Elsevier]
  • Lamentowicz M., Balwierz Z., Forysiak J., Płóciennik M., Kittel P., Kloss M., Twardy J., Zurek S., Pawlyta J., 2009. Multiproxy study of anthropogenic and climatic changes in the last two millennia from a small mire in central Poland. Hydrobiologia 631(1): 213–230. https://doi.org/10.1007/s10750-009-9812-y [Scopus - Elsevier]
  • Lamentowicz M., Cedro A., Gałka M., Goslar T., Miotk-Szpiganowicz G., Mitchell E.A.D., Pawlyta J., 2008. Last millennium palaeoenvironmental changes from a Baltic bog (Poland) inferred from stable isotopes, pollen, plant macrofossils and testate amoebae. Palaeogeography, Palaeoclimatology, Palaeoecology 265(1-2): 93–106. https://doi.org/10.1016/j.palaeo.2008.04.023 [Scopus - Elsevier]
  • Pazdur A., Nakamura T., Pawełczyk S., Pawlyta J., Piotrowska N., Rakowski A., Sensuła B., Szczepanek M., 2007. Carbon isotopes in tree rings: Climate and the suess effect interferences in the last 400 years. Radiocarbon 49(2): 775–788. https://doi.org/10.1017/S003382220004265X [Scopus - Elsevier]
  • Michczyński A., Eeckhout P., Pazdur A., Pawlyta J., 2007. Radiocarbon dating of the temple of the monkey - The next step towards a comprehensive absolute chronology of Pachacamac, Peru. Radiocarbon 49(2): 565–578. [Scopus - Elsevier]
  • Pawlyta J., Gaigalas A., MichczyÒski A., Pazdur A., Sanko A., 2007. Timescale for climatic events of subboreal/subatlantic transition recorded at the Valakupiai site, Lithuania. Radiocarbon 49(2): 889–897. https://doi.org/10.1017/S0033822200042752 [Scopus - Elsevier]
  • Pazdur A., Fogtman M., Michczyński A., Pawlyta J., Zaja̧c M., 2004. 14C chronology of mesolithic sites from Poland and the background of environmental changes. Radiocarbon 46(2): 809–826. https://doi.org/10.1017/S0033822200035840 [Scopus - Elsevier]
  • Pawlyta J., Pazdur A., Goslar T., Hałas S., 2001. Influence of the bomb-produced14C on the radiocarbon concentration in the youngest sediments of Lake GośCia̧ż, Central Poland. Radiocarbon 43(2 PART II): 831–841. [Scopus - Elsevier]
  • Pawlyta J., Pazdur A., Rakowski A.Z., Miller B.F., Harkness D.D., 1998. Commissioning of a Quantulus 1220™ liquid scintillation beta spectrometer for measuring 14C and 3H at natural abundance levels. Radiocarbon 40(1): 201–209. [Scopus - Elsevier]
  • Pawlyta J., Pazdur A., Pawlyta M., 1996. First comparison of the gas proportional counters and liquid scintillation spectrometry used in the Gliwice radiocarbon laboratory. Acta Geologica Hungarica 39(SUPPL.): 154–156. [Scopus - Elsevier]
  • Pazdur A., Goslar T., Michczyńska D.J., Michczyński A., Pawlyta J., 1996. Radiocarbon chronometry in quaternary research in Poland,chronometria radiowȩglowa w badaniach czwartorzȩdu w Polsce. Biuletyn - Panstwowego Instytutu Geologicznego 373: 134–145. [Scopus - Elsevier]
  • Pazdur A., Pazdur M.F., Pawlyta J., Gorny A., Olszewski M., 1995. Paleoclimatic implications of radiocarbon dating of speleothems from the Krakow-Wielun Upland, southern Poland. Radiocarbon 37(2): 103–110. [Scopus - Elsevier]
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