Mollusc faunas of lake deposits in Gorzów Wielkopolski (NW Poland) as an indicator of environmental changes during Eemian and Early Weichselian

Alexandrowicz, Witold Paweł; Skoczylas, Sylwia; Sobczyk, Artur; Stefaniak, Krzysztof; Kotowski, Adam; Przybylski, Bogusław; Ciszek, Dariusz; Badura, Janusz; Urbański, Krzysztof

doi:10.7306/gq.1605

Artykuł - szczegóły

Tytuł artykułu

Mollusc faunas of lake deposits in Gorzów Wielkopolski (NW Poland) as an indicator of environmental changes during Eemian and Early Weichselian

Autorzy

Alexandrowicz Witold Paweł , Skoczylas Sylwia , Sobczyk Artur , Stefaniak Krzysztof , Kotowski Adam , Przybylski Bogusław , Ciszek Dariusz , Badura Janusz , Urbański Krzysztof

Treść / Zawartość

Pełne teksty:

Alexandrowicz_W_Mollusc_GQ_Vol.65_No.3_2021.pdf

Pobierz

Identyfikatory

DOI

10.7306/gq.1605

Warianty tytułu

Języki publikacji

Abstrakty

During the construction of the S-3 road near Gorzów Wielkopolski, a sedimentary succession of the Eemian Interglacial and the older part of the Weichselian Glaciation were exposed. The succession, ~22 m thick, consists of lacustrine and fluvioglacial deposits. Lake sediments, mainly calcareous gyttja with peat intercalations, represent the infills of two palaeolakes. The almost complete skeleton of a forest rhinoceros, Stephanorhinus kirchbergensis, and a bone of the fallow deer Dama dama were found in the older lake deposits. Mollusc shells were numerous in both lake sequences, analysis of which revealed two types of assemblage, representing the coastal, littoral zone of a shallow lake with a muddy bottom. The sequence of mollusc communities observed in vertical succession allowed reconstruction of environmental changes during deposition. Several hydrological changes have been recognized within the palaeolake, especially water level fluctuations probably due to climate change.

Słowa kluczowe

palaeolake malacofauna environmental changes Eemian interglacial Early Weichselian NW Poland

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2021

Tom

Vol. 65, No. 3

Strony

art. no. 36

Opis fizyczny

Bibliogr. 56 poz., map., rys., tab.

Twórcy

autor

Alexandrowicz Witold Paweł

wpalex@geol.agh.edu.pl

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environment Protection, Al. Mickiewicza 30, 30-059 Kraków, Poland

autor

Skoczylas Sylwia

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environment Protection, Al. Mickiewicza 30, 30-059 Kraków, Poland

autor

Sobczyk Artur

University of Wrocław, Institute of Geological Sciences, pl. M. Borna 9, 50-024, Wrocław, Poland

autor

Stefaniak Krzysztof

University of Wrocław, Institute of Environmental Biology, Sienkiewicza 21, 50-335 Wrocław, Poland

autor

Kotowski Adam

University of Wrocław, Institute of Environmental Biology, Sienkiewicza 21, 50-335 Wrocław, Poland

autor

Przybylski Bogusław

Polish Geological Institute – National Research Institute, Lower Silesian Branch, al. Jaworowa 19, 53-122, Wrocław, Poland

autor

Ciszek Dariusz

Polish Geological Institute – National Research Institute, Lower Silesian Branch, al. Jaworowa 19, 53-122, Wrocław, Poland

autor

Badura Janusz

Polish Geological Institute – National Research Institute, Lower Silesian Branch, al. Jaworowa 19, 53-122, Wrocław, Poland

autor

Urbański Krzysztof

Polish Geological Institute – National Research Institute, Lower Silesian Branch, al. Jaworowa 19, 53-122, Wrocław, Poland

Bibliografia

1. Alexandrowicz, W.P., 1999a. Evolution of the malacological assemblages in North Poland during the Late Glacial and Early Holocene. Folia Quaternaria, 70: 39-69.
2. Alexandrowicz, S.W., 1999b. Bithynia tentaculata (Linnaeus, 1758) as an indicator of age and deposition environment of Quaternary sediments. Folia Malacologica, 7: 79-88.
3. Alexandrowicz, W.P., 2013. Late Glacial and Holocene molluscan assemblages in deposits filling paleolakes in Northern Poland. Studia Quaternaria, 30: 5-17.
4. Alexandrowicz, S.W., Alexandrowicz, W.P., 2010. Molluscs of the Eemian interglacial in Poland. Annales Societatis Geologorum Poloniae, 80: 69-87.
5. Alexandrowicz, S.W., Alexandrowicz, W.P., 2011. Analiza malakologiczna - metody badań i interpretacji (in Polish). Rozprawy Wydziału Przyrodniczego PAU, 3: 5-302.
6. Alexandrowicz, W.P., Dmytruk, R., 2007. Molluscs in Eemian-Vistulian deposits of the Kolodiiv section, Ukraine (East Carpathian Foreland) and their palaeoecological interpretation. Geological Quarterly, 51 (2): 173-178.
7. Badura, J., Ciszek, D., Kotowski, A., Przybylski, B., Ratajczak, U., Stefaniak, K., Urbański, K., 2017. Remains of rhinoceros (Stephanorhinus sp.) and fallowdeer (Dama dama) discovered in Eemian lake sediments in the Gorzów Plain (NW Poland) (in Polish with English summary). Przegląd Geologiczny, 65: 219-226.
8. Behre, K-E., Hölzer, A., Lemdahl, G., 2005. Botanical macro-remains and insects from the Eemian and Weichselian site of Oerel (northwest Germany) and their evidence for the history of climate. Vegetation History and Archaeobotany, 14: 31-53.
9. Brewer, S., Guiot, J., Sánchez-Goñi, M.F., Klotz, S., 2008. The climate in Europe during the Eemian: a multi-method approach using pollen data. Quaternary Science Reviews, 27: 2303-2315.
10. Brose, F., Luckert, J., Müller, H., Schulz, R., Strahl, J., Thieke, H.U., 2006. Das Eem von Vevais - ein bedeutendes Geotop in Ostbrandenburg. Brandenburgische geowissenschaftliche Beiträge, 13: 155-164.
11. Bruj, M., Roman, M., 2007. The Eemian lakeland extent in Poland versus stratigraphical position of the Middle Polish Glaciations (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 425: 29-36.
12. Caspers, G., Merkt, J., Müller, H., Freund, H., 2002. The Eemian interglacial in Northwestern Germany. Quaternary Research, 58: 49-52.
13. Cheddadi, R., Mamakova, K., Guiot, J., de Beaulieu, J-L., Reille, M., Andrieu, V., Granoszewski, W., Peyron, O., 1998. Was the climate of the Eemian stable? A quantitative climate reconstruction from seven European pollen records. Palaeogeography, Palaeoclimatology, Palaeoecology, 143: 73-85.
14. Čiliak, M., Čejka, T., Šteffek, J., 2015. Molluscan diversity in stream driftwood: relation to land use and river section. Polish Journal of Ecology, 63: 124-134.
15. Gałka, M., Tobolski, K., Bubak, I., 2015. Late Glacial and Early Holocene lake-level fluctuations in NE Poland tracked by macro-fossil, pollen and diatom records. Quaternary International, 388: 23-38.
16. Goslar, T., Kuc, T., Ralska-Jasiewiczowa, M., Różański, K., Arnold, M., Bard, E., Van Gees, B., Pazdur, M.F., Szeroczyńska, K., Wicik, B., Więckowski, K., Walanus, A., 1993. High resolution lacustrine record of the Late Glacial/Holocene transition in Central Europe. Quaternary Science Reviews, 12: 295-305.
17. Helmens, K.F., 2013. The Last Interglacial-Glacial cycle (MIS 5-2) re-examined based on long proxy records from central and northern Europe. Technical Report TR-13-02: 3-59.
18. Henriksen, M., Mangerud, J., Matiouchkov, A., Murray, A.S., Paus, A., Svendsen, J.I., 2008. Intriguing climatic shifts in a 90 kyr old lake record from northern Russia. Boreas, 37: 20-37.
19. Hrynowiecka, A., Żarski, M., Jakubowski, G., Nadachowski, A., Pawłowska, K., Pawłowski, D., Szymanek, M., Nast D., 2018. Eemian and Vistulian (Weichselian) paleoenvironmental changes: A multi-proxy study of sediments and mammal remains from the Ławy paleolake (Eastern Poland). Quaternary International, 467: 131-146.
20. Ilg, C., Foeckler, F., Deichner, O., Henle, K., 2012. Hydrological gradient and species traits explain gastropod diversity in floodplain grass-lands. River Research and Applications, 28: 1620-1629.
21. Kenzler, M., Rother, H., Hüneke, H., Frenzel, P., Strahl, J., Tsukamoto, S., Li, Y., Meng, S., Gallas, J., Frechen, M., 2018. A multiproxy palaeoenvironmental and geochronological reconstruction of the Saalian Eemian Weichselian succession at Klein Klütz Höved, NE Germany. Boreas, 47: 114-136.
22. Klotz, S., Müller, U., Mosbrugger, V., de Beaulieuc, J-L., Reille, M., 2004. Eemian to early Würmian climate dynamics: history and pattern of changes in Central Europe. Palaeogeography, Palaeoclimatology, Palaeoecology, 211: 107-126.
23. Kukla, G.J., Bender, M.L., de Beaulieu, J-L., Bond, G., Broecker, W.S., Cleveringa, P., Gavin, J.E., Herbert, T.D., Imbrie, J., Jouzel, J., Keigwin, L.D., Knudsen, K.-L., McManus, J.F., Merkt, J., Muhs, D.R., Müller, H., Poore, R.Z., Porter, S.C., Seret, G., Shackleton, N.J., Turner, C., Tzedakis, P., Cwinograd, I.J., 2002. Last interglacial climates. Quaternary Research, 58: 2-13.
24. Kupryjanowicz, M., 2008. Vegetation and climate of the Eemian and Early Vistulian lakeland in northern Podlasie. Acta Palaeobotanica, 48: 3-130.
25. Makowska, A., 1986. Pleistocene seas in Poland - sediments, age and palaeogeography (in Polish with English summary). Prace Instytutu Geologicznego, 120: 1-74.
26. Meng, S., Börner, A., Strahl, J., Thieke, H.-U., 2009a. Bio- and lithostratigraphical investigations of Eemian fluviolimnic sediments and tills from the lower Peene-valley (NE Germany). Polish Geological Institute Special Papers, 25: 37-48.
27. Meng, S., Börner, A., Strahl, J., Thieke, H.-U., 2009b. Bio- und lithostratigraphische Untersuchungen an limnisch-fluviatilen Sedimenten aus dem Eem-Interglazial im unteren Peenetal (NE-Deutschland). Brandenburgische Geowissenschaftliche Beiträge, 16: 63-78.
28. Menzel-Harloff, H., Meng, S., 2015. Spätsaalezeitliche und eemzeitliche Makrofaunen aus dem Kliffaufschluss Klein Klütz Höved (NW-Mecklenburg) mit Erstnachweisen von Belgrandia germanica (Gastropoda: Hydrobiidae), Pupilla loessica (Gastropoda: Pupillidae) und Lagurus lagurus (Mammalia: Cricetidae) für Mecklenburg-Vorpommern. Quaternary Science Journal, 64: 82-94.
29. Milano, S., Pop, E., Kuijper, W., Roebroeks, W., Gaudzinski-Windheuser, S., Penkman, K., Kindler, L., Britton, K., 2020. Environmental conditions at the Last Interglacial (Eemian) site Neumark-Nord 2, Germany inferred from stable isotope analysis of freshwater mollusc opercula. Boreas, 49: 477-487.
30. Mirosław-Grabowska, J., Gąsiorowski, M., 2010. Changes of water level in the Eemian palaeolake at Imbramowice (SW Poland) based on isotopic and cladoceran data. Quaternary Research, 73: 143-150.
31. Moine, O., Rousseau, D.-D., Antoine, P., 2005. Terrestrial molluscan records of Weichselian Lower to Middle Pleniglacial climatic changes from the Nussloch loess series (Rhine Valley, Germany): the impact of local factors. Boreas, 34: 363-380.
32. Müller, U.C., Koltz, S., Geyh, M.A., Pross, J., Bond, G.C., 2005. Cyclic climate fluctuations during the last interglacial in central Europe. Geology, 33: 449-452.
33. Niska, M., 2015. History of the development of Eemian Interglacial lakes on the basis of Cladocera subfossil analysis (Central and Eastern Poland). Limnological Review, 15: 85-93.
34. Niska, M., Mirosław-Grabowska, J., 2015. Eemian environmental changes recorded in lake deposits from Rzecino (NW Poland): Cladocera, isotopic and selected geochemical data. Journal of Paleolimnology, 53: 89-105.
35. Økland, J., 1990. Lakes and Snails: Environment and Gastropoda in 1,500 Norwegian Lakes, Ponds and Rivers. Universal Book Services/W. Backhuys; Oegstgeest.
36. Pawłowski, D., 2011. Evolution of an Eemian lake based on Cladocera analysis (Konin area, Central Poland). Acta Geologica Polonica, 61: 441-450.
37. Piechocki, A., Wawrzyniak-Wydrowska, B., 2016. Guide to Freshwater and Marine Molluscs of Poland. Bogucki Wydawnictwo Naukowe, Poznań.
38. Punning, J-M., Koff, T., Kadastik, E., Mikomägi, A., 2005. Holocene lake-level fluctuations recorded in the sediment composition of lake Juusa, Southeastern Estonia. Journal of Paleolimnology, 34: 377-390.
39. Roman, M., 2016. Eemian lakeland: remarks on origin and decline of the post-glacial lakes in Central Poland (in Polish with English summary). Acta Geologica Lodziensia, 105: 11-25.
40. Salonen, J.S., Helmens, K.F., Brendryen, J., Kuosmanen, N., Väliranta, M., Goring, S., Korpela, M., Kylander, M., Philip, A., Plikk, A., Renssen, H., Luoto, M., 2018. Abrupt high-latitude climate events and decoupled seasonal trends during the Eemian. Nature Communications, 9: 2851.
41. Sanko, A., Gaigalas, A., 2007. First finding of Belgrandia marginata (Michaud) in the Lithuanian Quaternary malacofauna. Geologija, 60: 83-89.
42. Sanko, A., Gaigalas, A., Yelovicheva, Y., 2011. Paleoclimatic and stratigraphic significance of Belgrandia marginata (Michaud) in Late Quaternary malacofauna of Belarus and Lithuania. Quaternary International, 241: 68-78.
43. Sinopoli, G., Peyron, O., Masi, A., Holtvoeth, J., Francke, A., Wagner, B., Sadori, L., 2019. Pollen-based temperature and precipitation changes in the Ohrid Basin (western Balkans) between 160 and 70 ka. Climate of the Past, 15: 53-71.
44. Skompski, S., 1994. Quaternary geology near Oborniki, Central Great Poland Lowland, with references to palaeontological data. Folia Quaternaria, 65: 285-301.
45. Skompski, S., 1996. Standard assemblages of malacofauna in different Quaternary stratigraphic units (in Polish with English summary). Prace Państwowego Instytutu Geologicznego, 151: 1-47.
46. Sobczyk, A., Borówka, R.K., Badura, J., Stachowicz-Rybka, R., Tomkowiak, J., Hrynowiecka, A., Sławińska, J., Tomczak, M., Pitura, M., Lamentowicz, M., Kołaczek, P., Karpińska-Kołaczek, M., Tarnawski, D., Kadej, M., Moska, P., Krąpiec, M., Stachowicz, K., Bieniek, B., Siedlik, K., Bąk, M., Van der Made, J., Kotowski, A., Stefaniak, K., 2020. Geology, stratigraphy and palaeoenvironmental evolution of the Stephanorhinus kirchbergensis-bearing Quaternary palaeolake(s) of Gorzów Wielkopolski (NW Poland, Central Europe). Journal of Quaternary Science, 35: 539-558.
47. Strahl, J., Krbetschek, M.R., Luckert, J., Machalett, B., Meng, S., Oches, E.A., Rappsilber, I., Wansa, S., Zoller, L., 2010. Geologie, Paläontologie und Geochronologie des Eem-Beckens Neumark Nord 2 und Vergleich mit dem Becken Neumark-Nord 1 (Geiseltal, Sachsen-Anhalt). Quaternary Science Journal, 59: 120-167.
48. Sümegi, P., Marković, S.B., Molnár, D., Sávai, S., Náfrádi, K., Szelepcsényi, Z., Novák, Z., 2016. Črvenka loess-paleosol sequence revisited: local and regional Quaternary biogeographical inferences of the southern Carpathian Basin. Open Geoscience, 8: 390-404.
49. Szymanek, M., 2012. Malacofauna of the Holsteinian lake deposits at Hrud II (Eastern Poland) and its palaeoecological significance. Geological Quarterly, 56 (1): 117-126.
50. Szymanek, M., 2013. Palaeoecology of the Holsteinian lake in vicinity of Wilczyn (eastern Poland) based on molluscan studies. Geological Quarterly, 57 (4): 637-648.
51. Szymanek, M., 2014. Environmental changes of the Mazovian (Holsteinian /~MIS 11) palaeolake near Szymanowo (Eastern Poland) in the light of malacological analysis. Acta Geologica Polonica, 64: 249-260.
52. Turner, Ch., 2000. The Eemian interglacial in the North European plain and ancient areas. Netherlands Journal of Geosciences, 79: 217-231.
53. Urbański, K., Winter, H., 2005. The Eemian Interglacial in the section Radówek (Łagów lakeland, western Poland) and its implication for till lithostratigraphy (in Polish with English summary). Przegląd Geologiczny, 53: 418-424.
54. Welter-Schultes, F.W., 2012. European Non-marine Molluscs. Guide for Species Identification. Planet Poster Editions; Göttingen.
55. Winter, H., Dobracka, E., Ciszek, D., 2008. Multiproxy studies of Eemian and early Vistulian sediments at Rzecino site (Łobez Upland, Western Pomerania Lakeland) (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 428: 93-110.
56. Zagwijn, W.H., 1996. An analysis of Eemian climate in western and central Europe. Quaternary Science Reviews, 15: 451-469.

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-048ed545-84e6-4863-8305-a9cbc71e2b25