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Mieczysław F. Pazdur, 1946–1995

Published online by Cambridge University Press:  18 July 2016

Anna Pazdur
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Radiocarbon , Volume 37 , Issue 2 , 1995 , pp. v - xii
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Copyright © the Department of Geosciences, The University of Arizona 

References

Selected Bibliography1

Kostkiewicz, E., Mościcki, W., Pazdur, A., Pazdur, M. F., Zastawny, A. and Pomykała, W. 1974 Chemical equipment and methods of sample pretreatment for radiocarbon measurements. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 23: 1523 (in Polish).Google Scholar
Pazdur, A., Kostkiewicz, E., Mościcki, W., Pazdur, M. F., Pomykała, W. and Zastawny, A. 1974 Accommodation and equipment in the Gliwice Radiocarbon Laboratory. Shields and gas proportional counter. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 23: 314 (in Polish).Google Scholar
Pazdur, A. and Pazdur, M. F. 1974 Separation of 222Rn and CO2 in thermal diffusion columns. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 23: 7187 (in Polish).Google Scholar
Pazdur, M. F. 1974 Gliwice Radiocarbon Laboratory measurements. Materialy Konferencji Naukowo-Technicznej “Zastosowanie Naturalnych Izotopow Promieniotworczych w Hydrogeologii”. Katowice, Główny Instytut Górnictwa: 259269.Google Scholar
Pazdur, M. F. 1975 A probability density function of the ratio of two counting rate variance estimators in radioactivity measurements. Acta Physica Polonica A48: 175178.Google Scholar
Pazdur, M. F. 1976 Counting statistics in low level radioactivity measurements with fluctuating counting efficiency. International Journal of Applied Radiation and Isotopes 27: 179184.Google Scholar
Mościcki, W., Pazdur, A., Pazdur, M. F. and Zastawny, A. 1978 Gliwice radiocarbon dates IV. Radiocarbon 20(3): 405415.Google Scholar
Pazdur, M. F., Walanus, A. and Mościcki, W. 1978 A method of continuous examination of counting efficiency during measurements of natural radiocarbon by a CO2 filled proportional counter. Nuclear Instruments and Methods in Physics Research 151: 541547.Google Scholar
Pazdur, A., Pazdur, M. F. and Zastawny, A. 1979 Gliwice radiocarbon dates V. Radiocarbon 21(2): 165170.Google Scholar
Pazdur, M. F. 1979 Probability distribution function of the estimator's ratio of the standard deviation counting rate. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 32: 147158 (in Polish).Google Scholar
Pazdur, M. F., Awsiuk, R., Bluszcz, A., Pazdur, A. and Walanus, A. 1979 The possible use of “black oaks” from Poland in investigations of changes of C14 isotope concentration. XXVI Zjazd Fizykow Polskich, Materialy Zjazdowe. Toruń, Uniwersytet Mikołaja Kopernika 2: 111112 (in Polish).Google Scholar
Pazdur, M. F., Bluszcz, A. 1979 Application of accelerators in geochronology. Postępy Fizyki 30: 293295 (in Polish).Google Scholar
Pazdur, M. F., Mościcki, W., Pazdur, A. and Zastawny, A. 1979 Measurements of C14 concentration in modern stalagmites and stalactites. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 33: 119130 (in Polish).Google Scholar
Pazdur, M. F., Pazdur, A., Awsiuk, R. and Walanus, A. 1979 Dates of the “copper shipwreck” launch and sinking on the basis of C14 analysis. Kwartalnik Historii Kultury Materialnej 27: 315330 (in Polish).Google Scholar
Pazdur, M. F. and Walanus, A. 1979 Statistical analysis of data and age calculation in Gliwice Radiocarbon Laboratory. Prace i Materialy Muzeum Archeologicznego i Etnograficznego 26: 283289.Google Scholar
Pazdur, M. F. and Walanus, A. 1979 The Konin-Maliniec site: Age assessment by radiocarbon method. In Mojski, J. E., ed., International Symposium on Vistulian Stratigraphy, Poland 1979. Guide-Book of Excursions. Wydawnictwa Geologiczne. Warsaw: 4546.Google Scholar
Awsiuk, R., Niedziałkowska, E., Pazdur, A., Pazdur, M. F., Starkel, L. and Walanus, A. 1980 Preliminary results of a study on the age of the Holocene alluvia at the left bank of the Wisłoka river near Dębica. Studia Geomorphologica Carpatho-Balcanica 14: 3342.Google Scholar
Baraniekca, M. D. and Pazdur, M. F. 1980 Radiocarbon dating of peat-bog sediments from exposure in the Bełchatów mine. Przegląd Geologiczny 28: 416 (in Polish).Google Scholar
Pazdur, M. F., Awsiuk, R., Pazdur, A. and Walanus, A. 1980 Interlaboratory cross-check dating at Gliwice Radiocarbon Laboratory. Quaestiones Geographicae 6: 7981.Google Scholar
Pazdur, M. F. and Pazdur, A. 1980 Radiocarbon dating of calcareous gyttja sediments of North Polish lakes. Polskie Archiwum Hydrobiologii 27: 2536.Google Scholar
Pazdur, M. F., Pazdur, A. and Zastawny, A. 1980 Gliwice radiocarbon dates VI. Radiocarbon 22(1): 6167.Google Scholar
Tobolski, K., Pazdur, M. F., Pazdur, A., Awsiuk, R., Bluszcz, A. and Walanus, A. 1980 Radiocarbon dating of subfossil woods from sandbars of the Gardzieńsko-Łebska Lowland. Badania Fizjograficzne nad Polska Zachodnia 33A: 133148 (in Polish).Google Scholar
Walanus, A. and Pazdur, M. F. 1980 Age reporting of very old samples. Radiocarbon 22(4): 10211027.CrossRefGoogle Scholar
Alexandrowicz, S. W., Geyh, M. A., Klimek, K., Kowal-kowski, A., Mamakowa, K., Niedziałkowska, E., Pazdur, M. F. and Starkel, L. 1981 Evolution of the Wisłoka valley near Dębica in the Late Glacial and Holocene. In Kozarski, S. and Tobolski, K., eds, Symposium “Paleohydrology of the Temperate Zone”, Poznań, Poland 81, September 22–28. Abstracts of Papers. Poznań, Adam Mickiewicz University: 7677.Google Scholar
Pazdur, A., Pazdur, M. F. and Zastawny, A. 1981 Ancient metallurgy of iron on the Polish area in light of radiocarbon dating (the first series of data). Materialy Archeologiczne 21: 8794 (in Polish).Google Scholar
Pazdur, A., Awsiuk, R., Bluszcz, A., Pazdur, M. F. and Walanus, A. 1982 Radiocarbon dating of Gdansk shipwreck by short- and long-lived organic materials. Low-Level Counting, Proceedings of 2nd International Conference “Low Radioactivities 80”. Bratislava: University Komenskego: 5356.Google Scholar
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Pazdur, A. and Pazdur, M. F. 1982 Radiocarbon chronometry as an investigation method in archaeology. Przegląd Archeologiczny 30: 545 (in Polish).Google Scholar
Pazdur, A. and Pazdur, M. F. 1982 Isotopic composition of carbon in modern stalactites and stalagmites. Kwartalnik Geologiczny 26: 675684 (in Polish).Google Scholar
Pazdur, M. F. 1982 C14 and archeology. The first international symposium in Groningen, 24–28 sierpnia 1981. Kwartalnik Historii Kultury Materialnej 30: 160162.Google Scholar
Pazdur, M. F. 1982 The investigation of dating precision by the 14C method of Late Pleistocene and Holocene organogenic sediments. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 41: 181 (in Polish).Google Scholar
Pazdur, M. F., Awsiuk, R., Bluszcz, A., Pazdur, A., and Walanus, A. 1982 Radiocarbon dating of soil organic matter fractions. Low-Level Counting, Proceedings of 2nd International Conference “Low Radioactivities '80”. Bratislava, University Komenskego: 5760.Google Scholar
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Pazdur, M. F., Awsiuk, R., Bluszcz, A., Pazdur, A., Walanus, A. and Zastawny, A. 1983 Gliwice radiocarbon dates IX. Radiocarbon 25(3): 843866.Google Scholar
Mamzer, H. and Pazdur, M. F. 1984 A chronology of the metallurgic site in Psary, Leszno voivodship, in the light of C-14 dating. Archaeologia Polona 23:6785.Google Scholar
Bluszcz, A. and Pazdur, M. F. 1985 A proposal for the uniform description and citation of dating results by the TL method. Przegląd Geologiczny 33: 277281 (in Polish).Google Scholar
Bluszcz, A. and Pazdur, M. F. 1985 The age of sands from the Frombork site. A contribution to discussion on applications of the TL dating method in Quaternary stratigraphy. Przegląd Geologiczny 33: 435439 (in Polish).Google Scholar
Bluszcz, A. and Pazdur, M. F. 1985 Comparison of TL and 14C dates of young aeolian sediments—a check of zeroing assumption. Nuclear Tracks 10: 703710.Google Scholar
Bluszcz, A. and Pazdur, M. F. 1985 Remarks on the applicability of TL techniques to dating sediments. In Maruszczak, H., ed., International Symposium “Problems of Stratigraphy and Paleogeography of Loesses”, September 1985. Abstracts. Lublin, Uniwersytet Marii Curie–Skłodowskiej: 10.Google Scholar
Goslar, T. and Pazdur, M. F. 1985 Contamination studies on mollusk shell samples. Radiocarbon 27(1): 3342.Google Scholar
Nowaczyk, B., Pazdur, A., Pazdur, M. F. and Awsiuk, R. 1985 Stratigraphy and the evolution conditions of dunes in Pomorsk near Sulechów in the light of new investigations. Badania Fizjograficzne nad Polska Zachodnia 35A: 103127 (in Polish).Google Scholar
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Awsiuk, R., Filipowiak, W., Goslar, T., Pazdur, A. and Pazdur, M. F. 1986 Early Slavonic settlements and navigation at the mouth of the Odra River. Radiocarbon 28(2A): 726731.Google Scholar
Awsiuk, R. and Pazdur, M. F. 1986 Regional Suess effect in the Upper Silesia urban area. Radiocarbon 28(2A): 655660.CrossRefGoogle Scholar
Bluszcz, A. and Pazdur, M. F. 1986 TL and 14C dating of the Upper Palaeolithic site at Wadi Kubbaniya, Egypt. Acta Interdisciplinaria Archaeologica 4: 97105.Google Scholar
Goslar, T. and Pazdur, M. F. 1986 10Be: Its recognition and applications. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 47, Geochronometria Nr 2: 163174 (in Polish).Google Scholar
Pazdur, A. and Pazdur, M. F. 1986 14C dating of calcareous tufa sediments from different environments. Radiocarbon 28(2A): 534538.Google Scholar
Pazdur, A. and Pazdur, M. F. 1986 Radiocarbon chronology of the Late Glacial period in Poland. Acta Interdisciplinaria Archaeologica 4: 6171.Google Scholar
Pazdur, M. F. 1986 The precision of radiocarbon dating of soils, peats and gyttja. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 46, Geochronometria Nr 1: 8396 (in Polish).Google Scholar
Pazdur, M. F. 1986 Radiocarbon dating of prehistory in Poland: A summary of results and recommendations for future work. Acta Interdisciplinaria Archaeologica 4: 7379.Google Scholar
Pazdur, M. F., Awsiuk, R., Goslar, T. and Pazdur, A. 1986 Radiocarbon chronology of the early Slavonic settlements and navigation at the mouth of Odra river. Acta Interdisciplinaria Archaeologica 4: 8195.Google Scholar
Bluszcz, A. and Pazdur, M. F. 1987 Thermoluminescence dating of the Middle Paleolithic at Wadi Kubbaniya. In Wendorf, F., Schild, R. and Close, A., eds., The Prehistory of Wadi Kubbaniya 2. Stratigraphy, Paleo-economy, and Environment. Dallas, SMU University Press: 270273.Google Scholar
Hercman, H., Pazdur, M. F. and Wysoczański-Minkowicz, T. 1987 Reconstruction of climatic changes in the Tatra Mts. (S. Poland) based on the dating of deposits from selected caves. Studia Geomorphologica Carpatho-Balcanica 21: 5975.Google Scholar
Pazdur, A., Pazdur, M. F., Wicik, B. and Więckowski, K. 1987 Radiocarbon chronology of annually laminated sediments from the Gościąż Lake. Bulletin of the Polish Academy of Sciences, Earth Sciences 35:139145.Google Scholar
Pazdur, M. F., Awsiuk, R., Goslar, T., Pazdur, A., Walanus, A., Wicik, B. and Więckowski, K. 1987 Calibrated radiocarbon chronology of annually laminated sediments from the Gościąż Lake. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 56, Geochronometria 4: 6983.Google Scholar
Pazdur, M. F. and Bluszcz, A. 1987 The application of thermoluminescence chronometry in Quaternary stratigraphy. Part I. Przegląd Geologiczny 35: 566570.Google Scholar
Pazdur, M. F. and Bluszcz, A. 1987 The application of thermoluminescence chronometry in Quaternary stratigraphy. Part II. Przegląd Geologiczny 35: 624628.Google Scholar
Pazdur, M. F. and Zastawny, A. 1987 Drastic increase of background in the Gliwice Radiocarbon Laboratory during late April, 1986, and its time changes. Radiocarbon 29(1): 156158.Google Scholar
Bluszcz, A., Goslar, T., Hercman, H., Pazdur, M. F. and Walanus, A. 1988 Comparison of TL, ESR and 14C dates of speleothems. Quaternary Science Reviews 7: 417421.Google Scholar
Goslar, T., Pazdur, M. F., Ralska-Jasiewiczowa, M., Różański, K., Walanus, A., Wicik, B. and Więckowski, K. 1988 Annually laminated sediments of Lake Gościąż. In Starkel, L. and Rutkowski, J., eds, Lateglacial and Holocene Environmental Changes. Vistula Basin 1988. Excursion Guide Book – Symposium. Cracow, Wydawnictwa Akademii Górniczo-Hutniczej: 136143.Google Scholar
Pazdur, A. and Pazdur, M. F. 1988 14C, 13C and 18O measurements in calcareous tufa and varved lake sediments and reconstruction of depositional conditions. In Chrapan, J., ed., Zbornik “Mikulasske Rozhovory MIRO 88”, 11–15 October 1988, Liptovski Mikulas. Liptovski Mikulas, VVTS: 129144.Google Scholar
Pazdur, A., Pazdur, M. F., Starkel, L. and Szulc, J. 1988 Stable isotopes of the Holocene calcareous tufa in southern Poland as paleoclimatic indicators. Quaternary Research 30: 177189.Google Scholar
Pazdur, A., Pazdur, M. F. and Szulc, J. 1988 Radiocarbon dating of Holocene calcareous tufa in southern Poland. Radiocarbon 30(2): 133152.Google Scholar
Pazdur, M. F. and Starkel, L. 1988 Hydrological and climatic changes as a base of chronostratigraphy. In Starkel, L. and Rutkowski, J., eds, Lateglacial and Holocene Environmental Changes. Vistula Basin 1988. Excursion Guide Book – Symposium. Cracow, Wydawnictwa Akademii Górniczo-Hutniczej: 3740.Google Scholar
Aitchison, T. C., Leese, M., Michczynska, D. J., Mook, W. G., Otlet, R. L., Ottaway, B. S., Pazdur, M. F., van der Plicht, J., Reimer, P. J., Robinson, S. W., Scott, E. M., Stuiver, M. and Weninger, B. 1989 A comparison of methods used for the calibration of radiocarbon dates. Radiocarbon 31(3): 846864.Google Scholar
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Goslar, T. and Pazdur, M. F. 1989 Improved precision 14C measurements and natural 14C variations around 10,000 cal bp. Radiocarbon 31(3): 833838.Google Scholar
Mondragon, L. J. and Pazdur, M. F. 1989 Investigation of performance of the radiocarbon dating system at the Pontificia Universidad Cató1ica del Perú. Revista de Química 3: 173191.Google Scholar
Pazdur, M. F. and Michczynska, D. J. 1989 Improvement of the procedure for probabilistic calibration of radiocarbon dates. Radiocarbon 31(3): 824832.Google Scholar
Michczynska, D. J., Pazdur, M. F. and Walanus, A. 1990 Bayesian approach to probabilistic calibration of radiocarbon dates. PACT 29: 6979.Google Scholar
Nowaczyk, B. and Pazdur, M. F. 1990 Problems concerning the 14C dating of fossil dune soils. Quaestiones Geographicae 11: 135151.Google Scholar
Pazdur, A. and Pazdur, M. F. 1990 Further investigations on 14C dating of calcareous tufa. Radiocarbon 32(1): 1722.Google Scholar
Pazdur, M. F. 1990 Methods of absolute dating. In Starkel, L., ed., Evolution of the Vistula River Valley during the Last 15,000 years. Part III. Wroclaw, Ossolineum: 3031.Google Scholar
Pazdur, M. F. 1990 Present status of the radiocarbon dating method. In Jędrysek, M. O., ed., Course-Book of Isotope Geology. Wroclaw, Wroclaw University: 169181.Google Scholar
Pazdur, M. F. 1990 Absolute chronology of the ancient metallurgy in the Polish area in the light of calibration of the radiocarbon time scale. Materialy Archeologiczne 25: 95104 (in Polish).Google Scholar
Pazdur, M. F., Awsiuk, R., Goslar, T. and Pazdur, A. 1990 Systematic biases in results of the International Collaborative Study and their probable sources. Radiocarbon 32(3): 289294.Google Scholar
Ausseil-Badie, J., Barusseau, J. P., Descamps, C., Diop, E. H. S., Giresse, P. and Pazdur, M. F. 1991 Holocene deltaic sequence in the Saloum Estuary, Senegal. Quaternary Research 36: 178194.Google Scholar
Pazdur, M. F. and Krzanowski, A. 1991 Fechados radiocarbónicos para los sitios de la cultura Chancay. In Krzanowski, A., ed., Estudios Sobre la Cultura Chancay, Peru. Cracow, UJ: 115132.Google Scholar
Pazdur, M. F., Miklaszewska-Balcer, R., Węgrzynowicz, T. and Piotrowski, W. 1991 Absolute chronology of the Biskupin settlement in the light of radiocarbon dating. Prahistoryczny grod w Biskupinie. Panstwowe Warsaw, Muzeum Archeologiczne: 211219.Google Scholar
Tatur, A., del Valle, R. and Pazdur, M. F. 1991 Lake sediments in the maritime Antarctic zone: A record of landscape and biota evolution. Preliminary report. In Verhandlungen Internazionalen Vereiningun fur Limnology. Stuttgart: 30223024.Google Scholar
Bluszcz, A., Hercman, H., Pazdur, A. and Pazdur, M. F. 1992 Radiometric dating. In Kozłowski, J. K. and Laville, H., eds., Temnata Cave. Excavations in Karlukovo Karst Area, Bulgaria. Cracow, Jagellonian University: 221239.Google Scholar
Goslar, T., Kuc, T., Pazdur, M. F., Ralska-Jasiewiczowa, M., Różański, K., Szeroczyńska, K., Walanus, A., Wicik, B., Więckowski, K., Arnold, M. and Bard, E. 1992 Possibilities for reconstructing radiocarbon level changes during the Late Glacial by using a laminated sequence of Gościąż Lake. Radiocarbon 34(3): 826832.Google Scholar
Pazdur, M. F. 1992 Chronologie de la minière de silex néolithique de Jablines (Seine-et-Marne). In Bostyn, F. and Lanchon, Y., eds., Jablines. Les Haut Château (Seine-et-Marne). Une minière de silex au Néolithique. Documents d'Archéologie Française 35: 233234.Google Scholar
Pazdur, M. F. 1992 Radiocarbon dating of charcoal and shell samples from site Nemrik 9. In Kozłowski, S. K., ed., Nemrik 9. Pre-Pottery Neolithic Site in Iraq. Warsaw, Wydawnictwa Uniwersytetu Warszawskiego: 111117.Google Scholar
Pazdur, M. F. 1992 Modern aspects of the radiocarbon dating method: Fundamental concepts and archaeological applications. Arheologia Moldovei 15: 191211.Google Scholar
Różański, K., Goslar, T., Duliński, M., Kuc, T., Pazdur, M. F. and Walanus, A. 1992 Late Glacial - Holocene transition in the laminated sediments of the Gościąż Lake. In Bard, E. and Broecker, W., eds, The Last Deglaciation. Absolute and Radiocarbon Chronologies. NATO ASI Series I. Berlin, Springer-Verlag: 6980.Google Scholar
Kovaliukh, N. N., Pazdur, M. F., Skripkin, V. V., Markarianc, V. V. and Kovalenko, V. V. 1993 Radiocarbon of catastrophic outburst of Chernobyl NPP into environment. In Gaigalas, A., ed., Geochronological and Isotope-Geochemical Investigations. Abstracts 10th conference, Vilnius, 1993. Vilnius, Vilnius University: 2930.Google Scholar
Niewiarowski, W., Pazdur, M. F. and Sinkiewicz, M. 1993 Glacial and marine episodes in Kaffioyra, northwestern Spitsbergen, during the Vistulian and the Holocene. Polish Polar Research 14: 243258.Google Scholar
Pazdur, A., Pazdur, M. F., Górny, A. and Olszewski, M. 1993 Radiocarbon dating of speleothems from selected caves in the Cracow-Wieluń Upland, Poland. In Gaigalas, A., ed., Geochronological and Isotope-Geochemical Investigations. Abstracts 10th conference, Vilnius, 1993. Vilnius University, Vilnius: 7778.Google Scholar
Pazdur, M. F. 1993 Evaluation of radiocarbon dates of organic samples from Uan Muhuggiag and Ti-n-Torha. In Krzyżaniak, L. and Kobusiewicz, M., eds., Environmental Change and Human Culture in the Nile Basin and Northern Africa Until 2nd Millennium BC. Poznań, Ossolineum: 4347.Google Scholar
Pazdur, M. F., Awsiuk, R., Goslar, T. and Pazdur, A. 1993 Radiocarbon chronology of the beginning of colonial settlements in Wolin and navigation in the mouth of the Odra. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 70, Geochronometria 9: 127195 (in Polish).Google Scholar
Buzinny, M. G., Likhtarjov, I. A., Los, I. P., Kovaliukh, N. N., Sobotovich, E. V., Skripkin, V. V., Nesvetailo, V. D. and Pazdur, M. F. 1994 Ecological chronology of nuclear fuel cycle sites. Préhistoire Européenne 6: 197222.Google Scholar
Goslar, T., Arnold, M., Bard, E. and Pazdur, M. F. 1994 Variations of atmospheric 14C levels around the Late Glacial/Holocene boundary. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka 71, Geochronometria 10: 2546.Google Scholar
Goslar, T., Pazdur, M. F., Kuc, T. and Ralska-Jasiewicz, M. 1994 The synchronism of boundaries of Younger Dryas in the North Atlantic region. Annales Geophysicae I 12 (Supplement): C157.Google Scholar
Kovaliukh, N. N., Skripkin, V. V., Awsiuk, R., Pazdur, A., Pazdur, M. F., Los, I. P., Buzinny, M. G. and Nesvetailo, V. D. 1994 Dendroradioecology of the vicinity of nuclear fuel reprocessing plant Tomsk-7. In Jędrysek, M. O., ed., Isotope Workshop II, 25–27 May, 1994. Extended Abstracts. Wroclaw, Wroclaw University: 8385.Google Scholar
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Pazdur, A. and Pazdur, M. F. 1994 Variation of isotopic composition of carbon in recent freshwater environment. In Jędrysek, M. O., ed., Isotope Workshop II, 25–27 May, 1994. Extended Abstracts. Wroclaw, Wroclaw University: 117120.Google Scholar
Pazdur, A., Pazdur, M. F., Goslar, T. and Wicik, B. 1994 Late Glacial and Holocene water level changes in the Gościąż Lake basin. In Jędrysek, M. O., ed., Isotope Workshop II, 25–27 May, 1994. Extended Abstracts. Wroclaw, Wroclaw University: 117120.Google Scholar
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Pawlyta, J., Miller, B. F., Pazdur, M. F. and Pazdur, A. Calibration procedure for liquid scintillation beta spectrometer QUANTULUS 1220 for radiocarbon dating. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka, Geochronometria 12: in press.Google Scholar
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Pazdur, A., Pazdur, M. F., Hercman, H. and Mitter, P. 1995 Development of selected caves of the Slovak Karst during the Late Quaternary. Studia Geomorphologica Carpatho-Balcanica 29: 99112.Google Scholar
Pazdur, A., Pazdur, M. F., Pawlyta, J., Górny, A. and Olszewski, M. 1995 Paleoclimatic implications of radiocarbon dating of speleothems from the Kracow-Wieluń Upland, southern Poland. Radiocarbon , this issue.CrossRefGoogle Scholar
Pazdur, M. F. 1995 Radiocarbon chronology of early mediaeval culture layers from the site 3 in Łękno. Studia i Materialy z dziejow Paluk 160: 121135 (in Polish).Google Scholar
Pazdur, M. F. 1995 State and practice of radiocarbon and thermoluminescence chronometry applied to archeological investigations in Wielkopolska-Kujawska Valley. In Tobolski, K., ed., Nauki przyrodnicze i fotografia lotnicza w archeologii. Poznań, Muzeum Archeo-logiczne: in press.Google Scholar
Pazdur, M. F., Bluszcz, A., Pazdur, A. and Morawiecka, I. 1995 Radiocarbon and thermoluminescence studies of the karst pipes systems in southwest England and south Wales. Radiocarbon , this issue.Google Scholar
Rakowski, A., Pazdur, M. F., Pazdur, A. and Miller, B. F. Anthropogenic changes of radiocarbon isotopic composition in the atmosphere of Upper Silesia. Zeszyty Naukowe Politechniki Sląskiej, Seria Matematyka-Fizyka, Geochronometria 12: in press.Google Scholar