Assemblages of molluscs from Sulisławice (Małopolska Upland, southern Poland) and their significance for interpretation of depositional conditions of calcareous tufas in small water bodies

• Autorzy: Alexandrowicz W. P.
• Języki publikacji: EN

Abstrakty

EN

Small water bodies, occurring behind barriers across valleys, create very advantageous conditions for the sedimentation of calcareous tufas. These sediments usually contain rich and diversified malacocoenoses. The composition and structure of these associations are closely linked to environmental changes during the accumulation of the sediments. At the Sulisławice locality, the remnants of two barriers, composed of hard, calcareous tufa, were found. Behind them, sequences of granular, calcareous tufas were preserved, forming terraces, elevated up to 3 m above the level of the present stream bed. The age of the sediments was obtained from radiocarbon dating and is referable to the Atlantic Phase. The rich malacofauna, occurring in these tufas, permitted the recognition of four types of faunistic association, in a sequence that corresponds to phases in the development of the water bodies. Three of them are characterised by the dominance of aquatic species and permit the reconstruction of specific features of the body of water. In the fourth association, terrestrial species predominate. A detailed, malacological analysis was the basis for a model of the evolution of the water bodies, occurring behind the barriers. The model is more widely applicable to the sediments of similar origin, frequently found in upland regions of Poland and other parts of Europe.

Słowa kluczowe

EN

calcareous tufas; malacofauna; environmental changes; Holocene; Małopolska Upland; southern Poland

• Wydawca: Polskie Towarzystwo Geologiczne
• Czasopismo: Annales Societatis Geologorum Poloniae
• Rocznik: 2012
• Tom: Vol. 82, No. 2
• Strony: 161–--176
• Opis fizyczny: Bibliogr. 77 poz., rys., tab., wykr

Twórcy

autor

Alexandrowicz W. P.

• AGH University of Science and Technology, Faculty of Geology, Geophysics and Environment Protection,Chair of Environmental Analysis, Cartography and Economic Geology, Al. Mickiewicza 30, 30-059 Kraków, Poland

Bibliografia

• 1. Alexandrowicz, S. W., 1983. Malacofauna of Holocene calcareous sediments of the Cracow Upland. Acta Geologica Polonica, 33: 117-158.
• 2. Alexandrowicz, S. W., 1987a. Malacological analysis in Quaternary research. Geologia, Kwartalnik AGH, 12: 3-240. [In Polish, English summary].
• 3. Alexandrowicz, S. W., 1987b. Malacofauna of the Late Vistulian and Early Holocene lacustrine chalk from Roztoki near Jasło (Jasło-Sanok Depression). Acta Palaeobotanica, 27: 67-74.
• 4. Alexandrowicz, S. W., 1989. Stratigraphy and malacofauna of the Upper Vistulian and Holocene deposits of the Szklarka River Valley, Cracow Upland. Bulletin of the Polish Academy of Sciences, Earth Sciences, 37: 247-260.
• 5. Alexandrowicz, S. W., 1991. Late Quaternary moltuscan assemblages of the Będkowska Valley (Cracow Upland). Bulletin of the Polish Academy of Sciences, Earth Sciences, 39: 101-110.
• 6. Alexandrowicz, S. W., 1993. Late Quaternary landslides at eastern periphery of the National Park of the Pieniny Mountains, Carpathians, Poland. Studia Geologica Polonica, 192: 209-225.
• 7. Alexandrowicz, S. W., 1996. Stages of increased mass movements in the Carpathians during the Holocene. Geologia, Kwartalnik AGH, 22: 223-262. [In Polish, English summary].
• 8. Alexandrowicz, S. W., 1997a. Hotocene dated landslides in the Polish Carpathians. In: Frenzel, B. (ed.), Rapid mass movement as a source of climatic evidence for the Holocene. Palaeoclimate Research, 19: 75-83.
• 9. Alexandrowicz, S. W., 1997b. Malcofauna of Holocene sediments of the Prądnik and Rudawa River Valleys (Southern Poland). Folia Quaternaria, 68: 133-188.
• 10. Alexandrowicz, S. W. & Alexandrowicz, W. P., 2011. Analiza malakologiczna. Metody badań i interpretacji. Rozprawy Wydziału Przyrodniczego PAU, 3: 5-302. [In Polish].
• 11. Alexandrowicz, S. W., Alexandrowicz, W. P., Krąpiec, M. & Szychowska-Krąpiec, E., 1997. Environmental changes of Southern Poland during historical period. Geologia, Kwartalnik AGH, 23: 339-387. [In Polish, English summary].
• 12. Alexandrowicz, S. W. & Alexandrowicz, Z., 1999. Recurrent Holocene landslides: a case study of the Krynica landslide in the Polish Carpathians. The Holocene, 9: 91-99.
• 13. Alexandrowicz, S. W. & Domański, W., 1991. Malakofauna martwic holoceńskich z okolic Wolbromia. Sprawozdania z Posiedzeń Komisji Naukowych PAN, Oddział Kraków, 32: 221-222. [In Polish].
• 14. Alexandrowicz, W. P., 1997. Malacofauna of Quaternary deposits and environmental changes of the Podhale Basin during the Late Glacial and Holocene. Folia Quaternaria, 68: 7-132. [In Polish, English summary].
• 15. Alexandrowicz, W. P., 1999. Evotution of the malacological assemblages in North Poland during the Late Glacial and Early Holocene. Folia Quaternaria, 70: 39-69.
• 16. Alexandrowicz, W. P., 2000. Malakofauna i zmiany środowiska w holocenie na podstawie profilów martwic wapiennych w Rzeżuśni i Sulisławicach koło Wolbromia. Sprawozdania z Czynności i Posiedzeń PAU, 63: 135-137. [In Polish].
• 17. Alexandrowicz, W. P., 2002. Moltusc thanatocoenoses in flood depostts of the Beskid Mały Range and Foothills (Western Carpathians, Poland). Bulletin of the Polish Academy of Sciences, Earth Sciences, 50: 67-80.
• 18. Alexandrowicz, W. P., 2004. Molluscan assemblages of Late Glacial and Holocene calcareous tufa in Southern Poland. Folia Quaternaria, 75: 3-309.
• 19. Alexandrowicz, W. P., 2007. Malacofauna of the Late Glacial and Holocene calcareous lake deposits in Northern Poland. Geologia, Kwartalnik AGH, 33: 395-421. [In Poli sh, English summary].
• 20. Alexandrowicz, W. P., 2009a. Malacofauna and phases of development of landslide in Tylka near Krościenko (Pieniny Mts). Geologia, Kwartalnik AGH, 35: 69-75. [In Polish, English summary].
• 21. Alexandrowicz, W. P., 2009b. Malacofauna of Upper Hoiocene calcareous tufa in the Western Beskidy Mts (Southern Poland). Geologia, Kwartalnik AGH, 35: 175-200. [In Polish, English summary].
• 22. Alexandrowicz, W. P., 2010. Moliuscan asiemblages of recent calcareous tufas in the Podhale Basin and Pieniny Mts (S. Poland). Folia Malacologica, 18: 99-112.
• 23. Alexandrowicz, W. P., 2013. Molluscan assemblages in the deposits of landslide dammed lakes as indicators of Late Holocene mass movements in the Polish Carpathians. Geomorphology, in press, DOI: 10.1016/j.geomorph.2012.09.001.
• 24. Alexandrowicz, W. P. & Alexandrowicz, S. W., 2010. Expansive migrations of molluscs during the Historic Period. In: Mirek, Z. (ed.), Biological Invasions in Poland, vol. 1. Instytut Botaniki PAN, Kraków, pp. 23-48.
• 25. Alexandrowicz, W. P. & Golas-Siarzewska, M., 2013. Environmental changes of Nida Basin (South Poland) in the light of malacological analysis of calcareous tufa in Pińczów. Biuletyn Państwowego Instytutu Geologicznego, in press. [In Polish, English summary].
• 26. Bortenschlager, S., 1982. Chrono stratigraphic subdivision of the Holocene in the Alps. Striae, 16: 75-79.
• 27. Bronk Ramsey, C., 2003. OxCal Program v. 3.9. Radiocarbon Accelerator Unit, University of Oxford.
• 28. Bukowy, S., 1968. Objaśnienia do szczegółowej mapy geologicznej Polski 1: 50000, arkusz Wolbrom. Wydawnictwa Geologiczne, Warszawa, pp. 1-52. [In Polish].
• 29. Debret, M., Chapron, E., Desmet, M., Rolland-Revel, M., Ma- gand, O., Trentesaux, A., Bout-Roumazeille, V., Nomade, J. & Arnaud, F., 2010. North western Alps Hoiocene paleohydrology recorded by flooding activity in Lake Le Bourget, France. Quaternary Science Reviews, 29: 2185-2200.
• 30. Dobrowolski, R., Pidek, I. A., Golub, S. & Dzieńkowski, T., 2010. Environmental changes and human impact on Holocene evolution of the Horodyska River valley (Lublin Upiand, East Poland). Geochronometria, 35: 35-47.
• 31. Domański, W., 1988. Węglanowe utwory czwartorzędowe rejony Wolbromia. MSc. Thes is, AGH University of Science and Technology, Kraków, 83 ms. pp. [In Polish].
• 32. Gedda, B., 2001. Environmental and climatic aspects of the Early and Mid Holocene calcareous tufa and land mollusc fauna in southern Sweden. Lundqua Thesis, 45: 1-50.
• 33. Gedda, B., 2006. Terrestrial mollusc succession and stratigraphy of a Holocene calcareous tufa deposit from the Fyledalen valley, southern Sweden. The Holocene, 16: 137-147.
• 34. Gradziński, M., Szulc, J., Motyka, J., Stworzewicz, E. & Tyc, A., 2001. Travertine mound and cave in a village of Laski, Silesian-Cracow Upland. Annales Societatis Geologorum Poloniae, 71: 115-123.
• 35. Hammer, 0., Harper, D. A. T. & Ryan, P. D., 2001. Past: paleontological statistics software package for education and data analysis. Palaeontologica Electronica, 4: 1-9.
• 36. Haas, J. N., Richoz, I., Tinner, W. & Wick, L., 1998. Synchronous Holocene climatic oscillations recorded on the Swiss Plateau and at timberline in the Alps. The Holocene, 8: 301-309.
• 37. Hennig, G. J., Grün, R. & Brunnacker, K., 1983. Speleothems, travertines and paleoclimates. Quaternary Research, 20: 1-29.
• 38. Ilg, C., Foeckler, F., Deichner, O. & Henle, K., 2009. Exireme flood events favour floodplain moliusc diversity. Hydrobiologia, 621: 63-73.
• 39. Ivy-Ochs, S., Kerschner, H., Maisch, M., Christl, M., Kubik, P. W. & Schlüchter Ch., 2009. Latest Pleistocene and Holocene glacier variations in the European Alps. Quaternary Science Reviews, 28: 2137-2149.
• 40. Jäger, K. D. & Lożek, V., 1968. Beobachtungen zur Geschichte der Karbonatdynamik in der Holozän Warmzeit. Ceskoslovensky Kras, 19: 7-20.
• 41. Jäger, K. D. & Lożek, V., 1983. Paleohydrological implications on the Holocene development of climate in Central Europe based on depositional sequences of calcareous fresh-water deposits. Quaternary Studies in Poland, 4: 81-89.
• 42. Joerin, U. E., Stocker, T. F. & Schlüchter, Ch., 2006. Multicentury glacier fluciuaiions in the Swiss Alps during the Hoiocene. The Holocene, 16: 697-904.
• 43. Kalicki, T., 1991. The evolution of the Vistula River valley between Cracow and Niepołomice in late Vistulian and Hoiocene times. In: Starkel, L. (ed.), Evolution of the Vistula river Valley during the last 15 000 years, part IV. Geographical Studies Special Issue, 6: 11-37.
• 44. Kalicki, T., 2006. Zapis zmian klimatu oraz działalności człowieka i ich rola w holoceńskiej ewolucji dolin środkowoeuropejskich. Prace Geograficzne, 204: 1-347. [In Polish].
• 45. Latalowa, M. & Nalepka, D., 1987. A study of the Late-Glacial and Holocene vegetational history of the Wolbrom area (Silesian-Cracovian Upland - S. Poland). Acta Palaeobotanica, 27: 75-115.
• 46. Lożek, V., 1964. Quartärmollusken der Tschechoslowakei. Rozpravy Ustrednlho Ustavu Geologickeho, 31: 1-374.
• 47. Lożek, V., 2000. Palaeoecology of Quaternary Mollusca. Antropozoikum, 24: 35-59.
• 48. Magny, M., 1993. Holocene fluctuation of lake levels in the French Jura and Sub-Alpine ranges, and their impactions for past general circulation patterns. The Holocene, 3: 306-313.
• 49. Magny, M., 2004. Hoiocene climatic variability as reflected by mid-European lake-level fluctuations, and its probable impact on prehistoric human settlements. Quaternary International, 113: 65-79.
• 50. Mayewski, P. A., Rohling, E. E., Stager, J. C., Karlen, 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.
• 51. Meyrick, R. A., 2001. The development of terrestrial mollusc faunas in the ‘Rheinland region’ (western Germany and Luxembourg) during the Lateglacial and Holocene. Quaternary Science Reviews, 20: 1667-1675.
• 52. Meyrick, R. A., 2002. Holocene molluscan faunal history and environmental change at Kloster Mühle, Rheinland-Pfalz, western Germany. Journal of Quaternary Science, 18: 121-132.
• 53. Morisita, M., 1959. Meaiuring of interspecific as sociaiion and similarity between communities. Memoris of the Faculty of Sciences, Kyushu University, E, 3: 65-80.
• 54. Obidowicz, A., 1976. Genesis and development of the peat-bog at Wolbrom (S. Poiand). Acta Palaeobotanica, 17: 45-54. [In Polish, English summary].
• 55. Patzelt, G., 1977. Der zeitliche Ablauf und Ausmass postglazialer Klimaschwankungen in den Alpen. In: Frenzel, B. (ed.), Dendrochronologie und postglaziale Klimaschwankungen in Tirol. Veröffentlichungen Museum Ferdinandeum, 67: 93-123.
• 56. Pazdur, A., 1987. Isoiopic composition of carbon and oxygen in Holocene calcareous tufa sediments. Zeszyty Naukowe Politechniki Śląskiej, 1019, Geochronometria, 3: 14-75. [In Polish, English summary].
• 57. Pazdur, A., Pazdur, M. F. & Szulc, J., 1988a. Radiocarbon dating of Holocene calcareous tufa from south Poland. Radiocarbon, 30: 133-146.
• 58. Pazdur, A., Pazdur, M. F., Starkel, L. & Szulc, J., 1988b. Stable isotopes of the Hotocene calcareous tufa in southern Potand as palaeoclimatic indicators. Quaternary Research, 30: 177-189.
• 59. Pedley, H. M., 1990. Classification and environmental models of cool freshwater tufas. Sedimentary Geology, 68: 143-154.
• 60. Pedley, H. M., 2009. Tufas and travertines of the Mediterranean region: a testtng ground for freshwater carbonate concepts and developments. Sedimentology, 56: 221-246.
• 61. Pentecost, A., 1995. The Quaternary travertine deposits of Europe and Asia Minor. Quaternary Science Reviews, 14: 1005-1028.
• 62. Piechocki, A., 1979. Mięczaki (Mollusca), ślimaki (Gastropoda). Fauna Słodkowodna Polski, tom 7. Państwowe Wydawnictwo Naukowe, Warszawa, 187 pp. [In Polish].
• 63. Piechocki, A. & Dyduch-Falniowska, A., 1993. Mięczaki (Mollusca), małże (Bivalvia). Fauna Słodkowodna Polski, tom 7a. Wydawnictwo Naukowe, Warszawa-Poznań, 240 pp. [In Polish].
• 64. Ralska-Jasiewiczowa, M. & Starkel, L., 1988. Record of the hydrological changes during the Holocene in the lake, mire and fluvial deposits of Poland. Folia Quaternaria, 57: 91-127.
• 65. Starkel, L., 1977. Paleogeografia holocenu. Wydawnictwa Geologiczne, Warszawa, 362 pp.
• 66. Starkel, L., 1990. Holocene as interglacial - problems of stratigraphy. Przegląd Geologiczny, 38: 13-16. [In PoUsh, Engtish summary].
• 67. Starkel, L., 1995. The pattern of the Holocene climatic variations in Central Europe based on various geological records. Questionae Geographicae, Special Issue, 4: 259-264.
• 68. Starkel, L., 2001. Evolution of the Vistula River Valley since the last glaciation till Present. Polish Academy of Sciences, Institute of Geography and Spatial Organisation, Monographies, 2: 1-263. [In Polish, English summary].
• 69. Starkel, L., 2005. Role of climatic and anthropogenic factors acce- lareting soil erosion and fluvial actrnty in Central Europe. Studia Quarternaria, 22: 27-33. [In Polish, English summary].
• 70. Starkel, L., Kalicki, T., Krapiec, M., Soja, R., Gebica, P. & Czyzowska, E., 1996. Hydrological changes of valley floor in the Upper Vistula Basin during Late Vistulian and Holocene. In: Starkel, L. (ed.), Evolution of the Vistula river Valley during the last 15 000 years, part IV. Geographical Studies Special Issue, 9: 1-128.
• 71. Starkel, L., Soja, R. & Michczyńska, D. J., 2006. Past hydrological events reflected in Holocene history of Polish Rivers. Catena, 66: 24-33.
• 72. Stuiver, M., Reimer, P. J., Bard, E., Beck, J. W., Burr, G. S., Hughen, K. A., Kromer, B., McCormac, F. G., van der Plicht, J. & Spurk, M., 1998. INTCAL98 Radiocarbon age cahbration 24,000-0 cal BP. Radiocarbon, 40: 1083-1127.
• 73. Szulc, J., 1984. Sedymentacja czwartorzędowych martwic wapiennych Polski południowej. Unpublished Ph.D. Thesis, Institute of Geological Sciences, Polish Academy of Sciences, Kraków, 157 ms. pp. [In Polish].
• 74. Szulc, J., 1986. Ho locene travertine deposhs of the Cracow Upland. In: Teisseyre, A. K. (ed.), IAS 7th European Regional Meeting, Excursion Guidebook. Ossolineum, Wrocław, pp. 185-189.
• 75. Wiktor, A., 2004. Ślimaki lądowe Polski. Mantis, Olsztyn. 302 pp. [In Polish].
• 76. Wojciechowski, A., 1999. Late Glacial and Hotocene lake-level fluctuations in the Kórnik-Zaniemyśl lakes area, Great Poland Lowland. Quaternary Studies in Poland, 16: 81-101.
• 77. Żak, K., Lożek, V., Kadlec, J., Haldikova, J. & Cilek, V., 2002. Climate-inducted changes in Holocene calcareous tufa formations, Bohemian Karst, Czech Republic. Quaternary International, 91: 137-152.

Uwagi

EN