Environmental changes during the MIS 6a–MIS 5e transition : the Parchliny 2016 profile, central Poland

Majecka, Aleksandra; Wachecka-Kotkowska, Lucyna; Krzyszkowski, Dariusz; Malkiewicz, Małgorzata; Mirosław-Grabowska, Joanna; Niska, Monika; Rzodkiewicz, Monika; Myśkow, Elżbieta; Tomaszewska, Klara; Wieczorek, Dariusz; Raczyk, Jerzy

doi:10.7306/gq.1663

Artykuł - szczegóły

Tytuł artykułu

Environmental changes during the MIS 6a–MIS 5e transition : the Parchliny 2016 profile, central Poland

Autorzy

Majecka Aleksandra , Wachecka-Kotkowska Lucyna , Krzyszkowski Dariusz , Malkiewicz Małgorzata , Mirosław-Grabowska Joanna , Niska Monika , Rzodkiewicz Monika , Myśkow Elżbieta , Tomaszewska Klara , Wieczorek Dariusz , Raczyk Jerzy

Treść / Zawartość

Pełne teksty:

Majecka_A_Environmental_GQ_Vol. 66_No. 4_2022.pdf

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Identyfikatory

DOI

10.7306/gq.1663

Warianty tytułu

Języki publikacji

Abstrakty

We describe the penultimate glacial – last interglacial transition from the one of the numerous palaeolake successions in central Poland, which have yielded many documented Eemian and Early Weichselian floral records. In the new profile, Parchliny 2016, the lacustrine deposits were analysed lithologically, botanically, zoologically, and geochemically, providing new data that illustrate the environmental transition from the Late Saalian (MIS 6a) to the Eemian interglacial (MIS 5e). Five phases of palaeolake development have been distinguished. The first phase was related to the rapid melting of a dead ice block buried in the tills to form a lake. The second phase documented a Late Saalian initial succession, with the dominance of open steppe communities (Stadial 1), followed by a third phase with gradual increasing density of vegetation, the spread of boreal forests (Zeifen interstadial) and further increase in open communities and the retreat of pine (Kattegat stadial). The fourth phase reflected the beginning of Eemian interglacial by the expansion of pioneering birch-pine and purely birch forests and an increasing proportion of deciduous trees, including oak (V^th phase). Diatom, cladoceran and geochemical studies indicate at least two stages of lake development. The first stage (Late Saalian) was of an open lake (2–4 m deep), in relatively cold conditions and nutrient-poor water with the lowest amounts of organic carbon and nitrogen. The second stage (Eemian interglacial), shows warmer, shallower conditions in which the lake’s primary production increased, the water was well oxygenated, and there were more trophic levels.

Słowa kluczowe

Eemian interglacial glacial-interglacial transition lacustrine deposits Late Saalian palaeoenvironment central Poland

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2022

Tom

Vol. 66, No. 4

Strony

art. no. 31

Opis fizyczny

Bibliogr. 133 poz., fot., rys., tab., wykr.

Twórcy

autor

Majecka Aleksandra

University of Warsaw, Institute of Geology, Żwirki and Wigury 93, 02-089 Warszawa, Poland

https://orcid.org/0000-0002-3911-3155

autor

Wachecka-Kotkowska Lucyna

lucyna.wachecka@geo.uni.lodz.pl

University of Łódz, Department of Geology and Geomorphology, Narutowicza 88, 90-139 Łódź, Poland

https://orcid.org/0000-0002-5440-6300

autor

Krzyszkowski Dariusz

University of Wrocław, Institute of Geography and Regional Development, Plac Uniwersytecki 1, 50-137 Wrocław, Poland

https://orcid.org/0000-0003-4451-2051

autor

Malkiewicz Małgorzata

University of Wrocław, Institute of Geological Sciences, Cybulskiego 34, 50-205 Wrocław, Poland;

https://orcid.org/0000-0001-6768-7968

autor

Mirosław-Grabowska Joanna

Polish Academy of Sciences, Institute of Geological Sciences, Twarda 51/55, 00-818 Warszawa, Poland

https://orcid.org/0000-0003-4270-106X

autor

Niska Monika

Pomeranian University in Słupsk, Institute of Biology and Earth Sciences, Partyzantów 27, 76-200 Słupsk, Poland

https://orcid.org/0000-0002-8968-9689

autor

Rzodkiewicz Monika

Adam Mickiewicz University in Poznań, Biogeochemistry Research Unit, Krygowskiego 10, 61-680 Poznań, Poland

https://orcid.org/0000-0002-6672-2183

autor

Myśkow Elżbieta

University of Wrocław, Faculty of Biological Sciences, Department of Plant Developmental Biology, Kanonia 6/8, 50-328 Wrocław, Poland

https://orcid.org/0000-0001-6305-9681

autor

Tomaszewska Klara

Wroclaw University of Environmental and Life Sciences, Department of Botany and Plant Ecology, Plac Grunwaldzki 24a, 50-328 Wrocław, Poland

https://orcid.org/0000-0001-8911-9937

autor

Wieczorek Dariusz

Polish Geological Institute – National Research Institute, Holy Cross Branch, Zgoda 21, 25-953 Kielce, Poland

https://orcid.org/0000-0001-6612-5349

autor

Raczyk Jerzy

University of Wrocław, Institute of Geography and Regional Development, Plac Uniwersytecki 1, 50-137 Wrocław, Poland

https://orcid.org/0000-0001-5068-7216

Bibliografia

1. Aalbersberg, G., Litt, T., 1998. Multiproxy climate reconstructions for the Eemian and Early Weichselian. Journal of Quaternary Science, 13: 367-390.
2. Adamska, A., Mikulski, J.S., 1969. Cladocera remains in the superficial sediments of lakes as a typologic indicator. Zeszyty Naukowe UMK, 25: 41-48.
3. Allen, P., Krzyszkowski, D., 2008. Till base deformation and fabric variation in Lower Rogowiec (Wartanian, Younger Saalian) Till, Bełchatow outcrop, central Poland. Annales Societatis Geologorum Poloniae, 78: 19-35.
4. Balwierz, Z., 2003. The Vistulian vegetation of central Poland. Botanical Guidebooks, 26: 217-232.
5. Baraniecka, M.D., 1971. The Widawka River basin against the background of the Masovia-Podlasie (Warta) marginal stadial in Po I and (in Polish with English summary). Biuletyn Instytutu Geologicznego, 254: 11-36.
6. Baraniecka, M.D., Sarnacka, Z., 1971. Quaternary stratigraphy and palaeogeography of the Widawka River basin (in Polish with English summary). Biuletyn Instytutu Geologiczego, 254: 157-269.
7. Battarbee, R.W., 1986. Diatom analysis. In: Handbook of Holocene Paleoecology and Paleohydrology (ed. B.E. Berglund): 527-570. London, John Wiley and Sons, Chichester.
8. de Beaulieu, J.L., Reille, M., 1984. A long upper Pleistocene pollen records from Les Echets, near Lyon, France. Boreas, 13: 111-131.
9. Berglund, B.E., Ralska-Jasiewiczowa, M., 1986. Pollen analysis and pollen diagrams. In: Handbook of Holocene Palaeoecology and Palaeohydrology (ed. B.E. Berglund): 455-484. John Willey and Sons, Chichester.
10. Beug, H. J., 1973. Die Bedeutung der interglazialen Ablagerungen von Zeifen und Eurach (Oberbayern, BRD) für die Vegetationsgeschichte der Eem-Warmzeit am Nordrand der Alpen. In: Palynology of the Pleistocene and Pliocene (ed. V. Gritschuk): 7-13. Proceedings of the III. International Palynology Conterence, Novosibirsk 1971. Nauka (Science), Moscow.
11. Bińka, K., Marks, L., 2018. Terrestrial versus marine archives: biostratigraphical correlation of the Middle Pleistocene lacustrine records from central Europe and their equivalents in the deep-sea cores from the Portuguese margin. Geological Quarterly, 62: 69-80.
12. Bińka, K., Nitychoruk, J., 2001. Late Saalian climate changes in Europe in the light of pollen analysis and the problem of two-step deglaciation at the oxygen isotope stage 6/5e transition. Boreas, 30: 307-316.
13. Birks, H.J.B., Birks, H.H., 1980. Quaternary Palaeoecology. Edward Arnold Lim ited, London.
14. Bledzki, L.A., Rybak, J.I., 2016. Freshwater Crustacean Zooplankton of Europe. Springer International Publishing, Cham. doi: 10.1007/978-3-319-29871-9
15. Börner, A., Hrynowiecka, A., Stachowicz-Rybka, R., Niska, M., Moskal-del Hoyo, M., Kuznetsov, V., Maksimov, F., Petrov, A., 2018. Palaeoecological investigations and 230Th/U dating of the Eemian Interglacial peat sequence from Neubrandenburg-Hinterste Mühle (Mecklenburg-Western Pomerania, NE Germany). Quaternary International, 467: 62-78
16. 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: 27-34.
17. Cappers, R.T.J., Bekker, R.M., Jans, J.E.A., 2012. Digitale zadentales van Nederland/Diglal Seed Atlas of the Netherlands. Barkhuis Publishing, Groningen.
18. Dąbski, M., Zawadzka-Pawlewska, U., Greń, K., 2017. Periglacial structures on site Łubienica-Superunki (Ciechanowska Upland) - preliminary results (in Polish with English summary). Landform Analysis, 33: 17-24.
19. Denys, L., 1991. A check-list of the diatoms in the Holocene deposits of the western Belgian coastal plain with a survey of their apparent ecological requirements. Service Geologique de Belgique, 1.
20. Douglas, M.S.V., Smol, J.P., 1999. Freshwater diatoms as indicators of environmental change in the High Arctic. In: The Diatoms: Applications for the Environmental and Earth Sciences (eds E.F. Stroermer and J.P. Smol): 227-244. Cambridge University Press.
21. Duigan, C.A., 1992. The ecology and distribution of the littoral freshwater Chydoridae (Branchiopoda, Anomopoda) of Ire land with taxonomic comments on some species. Hydrobiologia, 241: 1-70.
22. Flössner, D., 2000. Die Haplopoda und Cladocera (ohne Bosminidae) Mitteleuropas. Backhuys Publishers, Leiden.
23. Frey, D.G., 1962. Cladocera from the Eemian interglacial of Denmark. Journal of Paleontology, 36: 1133-1154.
24. Frey, D.G., 1986. Cladocera analysis. In: Handbook of Holocene Paleoecology and Paleohydrology (ed. B.E. Berglund): 667-692. Wiley and Sons, Chichester.
25. Goździk, J.S., Skórzak, A., 2011. Zmienność akumulacji jeziorno-bagiennej od interglacjału do holocenu w obszarze odkrywki “Bełchatów" (in Polish). In: Przewodnik Sesji Terenowej Warsztatów Naukowych Torfowiska w Krajobrazie Przekształconym. Torfowiska Dorzecza Widawki. Wybrane Problemy i Przykłady. Łódź-Bełchatów: 19-32.
26. Goulden, C.E., 1964. The history of the cladoceran fauna of Esthwaite Water (England) and its limnological significance. Archiv fur Hydrobiologie, 60: 1-53.
27. Granoszewski, W., 2003. Late Pleistocene vegetation history and climatic changes at Horoszki Duże, eastern Poland: a palaeobotanical study. Acta Palaeobotanica, Suppl., 4: 3-95.
28. Greguss, P., 1955. Identification of living gymnosperms on the basis of xylotomy. Akademiai Kiado, Budapest.
29. Grichuk, V.P., 1961. Iskopaemye flory kak paleontologicheskaya osnova stratigrafii chetvertichnykh otlozhenii. Printsipy stratigraficheskogo rashchleneniya pleistotsena na osnovanii paleofitologicheskikh materialov (in Russian). In: Rel'ef i stratigrafiya chetvertichnykh otlozhenii severo-zapada Russkoi ravniny: 25-72. Izdatelstvo Akademii Nauk SSSR, Moskva.
30. Grimm, E., 2012. Tilia Graph Version 2.0.41.
31. Grüger, E., 1979. Spatriss, Riss/Würm und Frühwürm am Samerberg in Oberbayern-ein vegetationsgeschichtlicher Beitrag zur Gliederung des Jungpleistozans. Geologica Bavaria, 80: 5-64.
32. Guiot, J., Pons, A., de Beaulieu, J.L., Reille, M., 1989. A 140,000-year continental climate reconstruction from two European pollen records. Nature, 338: 309-313.
33. Hausmann, S., Lotter, A.F., 2001. Morphological variation within the diatom taxon Cyclotella comensis and its importance for quantitative temperature reconstructions. Freshwater Biology, 46: 1323-1333.
34. Heiri O., Lotter A., Lemcke G., 2001. Loss on ignition as a method for estimating organic and carbonate content insediments: reproducibility and comparability of results. Journal of Paleolimnology, 25: 101-110.
35. 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. www.skb.se.
36. Hoffmann, G.M., Werum, M., Lange-Bertalot, H., 2011. Diatomen im Süßwasser-Benthos von Mitteleuropa. Bestimmungsflora Kieselagen für die ökologishe Praxis. Über 700 der häufigsten Arten un ihre Ökologie. A.R.G. Ganter Verlag K.G., Ruggell.
37. Hofmann, W., 1986. Developmental history of the Grosser Plöner See and the Schöhsee (north Germany): cladoceran analysis, with special reference to eutrophication. Archiv für Hydrobiologie, Supplement, 74: 259-287.
38. Hofmann, W., 2000. Response of the chydorid faunas to rapid climatic changes in four alpine lakes at different altitudes. Palaeogeography, Palaeoclimatology, Palaeoecology, 159: 281-292.
39. InsideWood, 2004. 2004-onwards. Published on the Internet. http://insidewood.lib.ncsu.edu/search
40. Isarin, R.F.B., Bohncke, S.J.P., 1999. Mean July temperatures during the Younger Dryas in Northwestern and Central Europe as inferred from climate indicator plant species. Quaternary Research, 51: 158-173.
41. Iversen, J., 1954. The late-glacial flora of Denmarkand its relations to climate and soil. Danmarks Geologiske Undersogelse, Raeke 80.
42. Janczyk-Kopikowa, Z., 1987. Remarks of palynostratigraphy of the Quaternary (in Polish with English summary). Kwartalnik Geologiczny, 31: 155-162.
43. Jastrzębska-Mamełka, M., 1985. The Eemian Interglacial and the Early Vistulian at Zgierz Rudunki in the Łódź Plateau (in Polish with English summary). Acta Geographica Lodziensia, 5: 1-75.
44. Jung, W., Beug, H.J., Dehm, R., 1972. Das Riss-Würm Interglazial von Zeiten, Landkreis Laufen a.d Salzach. Abhandlungen der Bayerischen Akademie der Wissenschaften, Mathematisch Naturwissenschaftliche Klasse, Neue Folge, 151: 1-131.
45. Katz, N.J., Katz, S.V., Kipiani, M.G., 1965. Atlas and keys of fuits and seed occurring in the Quaternary deposits of the USSR (in Russian). Publishing House „Nauka”, Moscow.
46. Katz, N.J., Katz, S.V., Skobeyeva, E.I., 1977. Atlas of Plant Remains in Peat (in Russian). Nedra, Moscow.
47. Klatkowa, H., 1990a. The Eemian and Vistulian development of the lake basin sediments at Chropy near Pabianice (in Polish with English summary). Acta Geographica Lodziensia, 61: 19-38.
48. Klatkowa, H., 1990b. The occurrence of Eemian organic sediments and comments on the palaeomorphology of central Poland at the end of the Eemian Interglacial and the Wartanian Glaciation (in Polish with English summary). Acta Geographica Lodziensia, 61: 7-17.
49. Klaus, W., 1975. Das Mondsee-Interglazial, ein neuer Florenfundpunkt der Ostalpen. Jahrbuch des Oberosterreichischen Musealvereines, 120: 315-344.
50. Klaus, W., 1987. Das Mondsee-Profil: R/W-Interglazial und vier Würm-Interstadiale in einer geschlossenen Schichtfolge. Mitteilungen der Kommission für Quartärforschung der Österreichischen Akademie der Wissenschaften, 7: 3-18.
51. Kołaczek, P., Karpińska-Kołaczek, M., Petera-Zganiacz, J., 2012. Vegetation patterns under climate changes in the Eemian and Early Weichselian in Central Europe inferred from a palynological sequence from Ustków (central Poland). Quaternary International, 268: 9-20.
52. Kołaczek, P., Niska, M., Mirosław-Grabowska, J., Gałka, M., 2016. Periodic lake-peatland shifts under the Eemian and Early Weichselian climate changes in Central Europe on the basis of multi-proxy studies. Palaeogeography, Palaeoclimatology, Palaeoecology, 461: 29-43.
53. Kolstrup, E., 1980. Climate and stratigraphy in north-western Europe between 30,000 B.P. and 13,000 B.P., with special references to the Netherlands. Mededelingen Rijks Geologische Dienst, 32: 181-253.
54. Korhola, A., 1990. Paleolimnology and hydroseral development of the Katasuo Bog, Southern Finlad, with special reference to the Cladocera. Annales Academiae Scientiarum Fennicae, 155: 5-40.
55. Korhola, A., Rautio, M., 2001. Cladocera and other branchiopod crustaceans. In: Tracking Environmental Change Using Lake Sediments, 4. Zoological Indicators (eds. J.P. Smol, H.J.B. Birks and W.M. Last): 5-41. Kluwer Academic Publishers, Dordrecht.
56. Krammer, K., Lange-Bertalot, H., 2008a. Bacillariophyceae 2, Ephitemiaceae, Bacillariaceae, Surirellaceae. In: Süsswasserflora von Mitteleuropa 2, 2 (eds. H. Ettl, J. Gerloff, H. Heyning and D. Mollenhauer): 596. Fourth Edition, Fisher, Stuttgardt.
57. Krammer, K., Lange-Bertalot, H., 2008b. Bacillariophyceae 3, Centrales, Fragilariaceae, Eunotiaceae. In: Süsswasserflora von Mitteleuropa 2, 3 (eds. H. Ettl, J. Gerloff, H. Heyning and D. Mollenhauer): 577. Third Edition, Fisher, Stuttgardt.
58. Krammer, K., Lange-Bertalot, H., 2010. Bacillariophyceae 1. Naviculaceae. In: Süsswasserflora von Mitteleuropa 2, 1 (eds. H. Ettl, J. Gerloff, H. Heyning and D. Mollenhauer): 876. Fourth Edition, Fisher, Stuttgardt.
59. Krammer, K., Lange-Bertalot, H., 2011. Bacillariophyceae 4, Achnanthaceae. In: Süsswasserflora von Mitteleuropa 2, 4 (eds. H. Ettl, J. Gerloff, H. Heyning and D. Mollenhauer): 437.Third Edition, Fisher, Stuttgardt.
60. Krupiński, K.M., Morawski, W., 1993. Geological position and pollen analysis of Eemian Interglacial sediments of Warsaw-Wawrzyszew. Acta Palaeobotanica, 33: 5-42.
61. Krzyszkowski, D., Wachecka-Kotkowska, L., Wieczorek, D., Stoiński, A., 2015. Petrography of glacial tills in the Szczerców outcrop, Central Poland - problems of stratigraphic interpretation. Studia Quaternaria, 32: 99-108.
62. Kühl, N., Litt, T., Schölzel, C., Hense, A., 2007. Eemian and Early Weichselian temperature and precipitation variability in northern Germany. Quaternary Science Reviews, 26: 3311-3317.
63. Kupryjanowicz, M., 2008. Vegelalion and climate of the Eemian and Early Vistulian Lakeland in Northern Podlasie. Acta Palaeobotanica, 48: 3-130.
64. Kupryjanowicz, M., Granoszewski, W., Nalepka, D., Pidek, I.A., Walanus, A., Balwierz, Z., Fiłoc, M., Kołaczek, P., Majecka, A., Malkiewicz, M., Nita, M., Noryśkiewicz, B., Winter, H., 2016. Instability of the environment at the end of the Eemian Interglacial as illustrated by isopollen maps of Poland. Geological Quarterly, 60: 225-237.
65. Kupryjanowicz, M., Fiłoc, M., Drzymulska, D., Poska, A., Suchora, M., Żarski, M., Mroczek, P., 2021. Environmental changes of the stadial/interstadial type duri ng the Late Saalian (MIS-6) - multi-proxy record at the Wola Starogrodzka site, central Poland. Palaeogeography, Palaeoclimatology, Palaeoecology, 572: 110420.
66. Kuszell, T., 1998. New interglacial sites in southwestern Poland (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 385: 127-142.
67. Lange-Bertalot, H., Genkal, S.I., 1999. Diatoms from Siberia I. Island in the Arctic Ocean (Yugorsky Shar Strait). In: Iconographia Diatomologica: Annotated Diatom Micrographs, 6 (ed. H. Lange-Bertalot): 294. Koeltz Scientific Books.
68. Lange-Bertalot, H., Metzeltin, D., 1996. Indicators of Oligotrophy. 800 taxa representative of three ecologically distinct lake types. In: Iconographia Diatomologica: Annotated Diatom Micrographs, 2 (ed. H. Lange-Bertalot): 390. Koeltz Scientific Books.
69. Lange-Bertalot, H., Bąk, M., Witkowski, A., Tagliaventi, N., 2011. Eunotia and related genera. In: Diatoms of Europe, 6: 1-747.
70. Lecointe, C., Coste, M., Prygiel, J., 1993. “Omnidia” software for taxonomy, calculation of diatom indices and inventories management. In: Twelfth International Diatom Symposium. Springer Netherlands, Dordrecht: 509-513. doi:10.1007/978-94-017-3622-0_51
71. Leng, M.J., Lamb, A.L., Marshall, J.D., Wolfe, B.B., Jones, M.D., Holmes, J.A., Arrowsmith, C., 2005. Isotopes in Lake Sediments. In: Isotopes in Palaeonvironmental Research (M.J. Leng): 147-184. Springer.
72. Litt, T., 1994. Paläoökologie, Paläobotanik und Stratigraphie des Jungquartärs im nordmitteleuropäischen Tiefland. Diss. Bot., 227: 1-185.
73. Litt, T., Junge, F.W., Böttger, T., 1996. Climate during the Eemian in north-central Europe - a critical review of the palaeobotanical and stable isotope data from central Germany. Vegetation History and Archaeobotany, 5: 247-256.
74. Lotter, A.F., Bigler, C., 2000. Do diatoms in the Swiss Alps reflect the length of ice-cover? Aquatic Sciences, 62: 125-141.
75. Majecka, A., 2014. The palynological record of the Eemian interglacial and Early Vistulian glaciation in deposits of the Żabieniec Południowy fossil basin (Łódź Plateau, central Poland), and its palaeogeographic significance. Acta Palaeobotanica, 54: 279-304.
76. Malkiewicz, M., 2018a. A Late Saalian Glaciation, Eemian Interglacial and Early Weichselian pollen sequence at Szklarka, SW Poland - Reconstruction of vegetation and climate. Quaternary International, 467: 43-53.
77. Malkiewicz, M., 2018b. Pollen-based vegetation and climate reconstruction of the Eemian sequence from Buntowo, N Poland. Quaternary International, 467: 54-61.
78. Mamakowa, K., 1989. Late Middle Polish glaciation, Eemian and Early Vistulian vegetation at Imbramowice near Wrocław and the pollen stratigraphy of this part of the Pleistocene in Poland. Acta Palaeobotanica, 29:11-176.
79. Mamakowa, K., 2003. Plejstocen (in Polish). In: Palinologia (eds. S. Dybova-Jachowicz and A. Sadowska): 235-265. Wydawnictwo Instytutu Botaniki PAN, Kraków.
80. Marks, L., 2011. Quaternary glaciations in Poland. Developments in Quaternary Science, 15: 299-303.
81. Marks, L., Ber, A., 1999. Metodyka opracowania Szczegółowej mapy geologicznej Polski w skali 1:50 000 (in Polish). Państwowy Instytut Geologiczny, Warszawa.
82. Marks, L., Dzierżek, J., Janiszewski, R., Kaczorowski, J., Lindner, L., Majecka, A., Makos, M., Szymanek, M., Tołoczko-Pasek, A., Woronko, B., 2016a. Quaternary stratigraphy and palaeogeography of Poland. Acta Geologica Polonica, 66: 410-434.
83. Marks, L., Gałązka, D., Woronko, B., 2016b. Climate, environment and stratigraphy of the last Pleistocene glacial stage in Poland. Quaternary International, 420: 259-271.
84. Marks, L., Karabanov, A., Nitychoruk, J., Bahdasarau, M., Krzywicki, T., Majecka, A., Pochocka-Szwarc, K., Rychel, J., Woronko, B., Zbucki, Ł., Hradunova, A., Hrychanik, M., Mamchyk, S., Rylova, T., Nowacki, Ł., Pielach, M., 2018. Revised limit of the Saalian ice sheet in central Europe. Quaternary International, 478: 59-74.
85. Menke, B., Tynni, R., 1984. Das Eeminterglazial und das Weichselfrühglazial von Redestall/Dithmarschen und ihre Bedeutung für die mitteleuropäische Jungpleistozän-Gliederung. Geologische Jahrbuch, Ser. A, 76: 3-120.
86. Meyers, P.A., Lallier-Vergčs, E., 1999. Lacustrine sedimentary organic matter records of Late Quaternary paleoclimates. Journal of Paleolimnology, 21: 345-372.
87. Mirosław-Grabowska, J., Niska, M., 2005. Isotopic and Cladocera records of climate changes of Early Eemian at Besiekierz (Central Poland). Geological Quarterly, 49: 67-74.
88. Mirosław-Grabowska, J., Niska, M., Roman, M., 2018. Long (MIS 5e-3) environmental history of a paleolake in central Poland recorded in the succession from Kubtowo. Quaternary International, 467: 26-42.
89. Mojski, J.E., 2005. Ziemie polskie w czwartorzędzie. Zarys morfogenezy (in Polish). Państwowy Instytut Geologiczny, Ministerstwo Środowiska, Warszawa.
90. Moore, P.D., Webb, J.A., Collinson, M.E., 1991. Pollen Analysis. Second edition. Blackwell Scientific Publications, Oxford.
91. Myśkow, E., Krzyszkowski, D., Wachecka-Kotkowska, L., Wieczorek, D., 2016. Plant macrofossils from the Czyżów Complex deposits of the Szczerców outcrop, central Poland. Geology, Geophysics and Environment, 42: 325-336.
92. Nalepka, D., Walanus, A., 2003. Data processing in pollen analysis. Acta Palaeobotanica, 43: 125-134.
93. Nevalainen, L. 2012. Distribution of benthic microcrustaceans along a water depth gradient in an Austrian Alpine lake - sedimentary evidence for niche separation. Limnologica, 42: 65-71.
94. Niska, M., 2008. Interpretacja zmian środowiska jeziornego w interglacjale eemskim na podstawie analizy kopalnych Cladocera (in Polish): 1-113. Akademia Pomorska w Stupsku.
95. 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.
96. Oberdorfer, E., 2001. Pflanzensoziologische Excursionsflora für Deutschland und angrencende Gebiete. Verlag Eugen Ulmer.
97. Pidek, I.A., Zalat, A.A., Hrynowiecka, A., Żarski, M., 2021. A high-resolution pollen and diatom record of mid-to late-Eemian at Koztów (Central Poland) reveals no drastic climate changes in the hornbeam phase of this interglacial. Quaternary International, 583: 14-30.
98. Railsback, L.B., Gibbard, P.L., Head, M.J., Voarintsoa, N.R.G., Toucanne, S., 2015. An optimized scheme of lettered marine isotope substages for the last 1.0 million years, and the climatostratigraphic nature of isotope stages and substages. Quaternary Science Reviews, 111: 94-106.
99. Ran, T.H., van Huissteden, J., 1990. The Dinekel valley in the Middle Pleniglacial: dynamics of a tundra river system. Mededelingen Rijks Geologische Dienst, 44: 209-220.
100. Reille, M., 1992. Poll en et spores d'Europe et d'Afrique du Nord. Laboratoire de Botanique historique et Palynologie URA CNRS 1152.
101. Roman, M., Mirosław-Grabowska, J., Niska, M., 2021. The Eemian Lakeland of the central Polish Plain: Envionmental changes and palaeogeography. Palaeogeography, Palaeoclimatology, Palaeoecology, 561: 110087.
102. Rotnicki, K., 1996. Possibility of retodiction of the former water balance components and their changes during the last interglacial-glacial cycle based on paleobotanical data (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 373: 153-160.
103. Rühland, K., Priesnitz, A., Smol, J.P., 2003. Paleolimnological evidence from diatoms for recent environmental changes in 50 lakes across Canadian Arctic treeline. Arctic, Antarctic and Alpine Research, 35: 110-123.
104. Rühland, K., Paterson, A.M., Smol, J., 2008. Hemispheric-scale patterns of climate-related shifts in planktonic diatoms from North American and European lakes. Global Change Biology, 14: 2740-2754.
105. Rühland, K.M., Paterson, A.M., Smol, J.P., 2015. Lake diatom responses to warming?: reviewing the evidence. Journal of Paleolimnology, 54: 1-35.
106. Sarnacka, Z., 1970. Objaśnienia do Szczegółowej mapy geologicznej Polski w skali 1:50 000, arkusz Szczerców (M34-27A) (in Polish). Wyd. Geol., Warszawa.
107. Saros, J.E., Anderson, N.J., 2015. The ecology of the planktonic di a tom Cyclotella and its implications for global environmental change studies. Biological Reviews, 90: 522-541.
108. Schmidt, R., Kamenik, C., Lange-bertalot, H., Klee, R., 2004. Fragilaria and Staurosira (Bacillariophyceae) from sediment surfaces of 40 lakes in the Austrian Alps in relation to environmental variables, and their potential for palaeoclimatology. Journal of Limnology, 63: 171-189.
109. Schweingruber, F.H., 1990. Anatomy of European Woods. Haupt Eidgenössische Forschungsanstalt für Wald Schnee und Landschaft, Bern und Stuttgart.
110. Seidenkrantz, M.-S., 1993. Benthic foraminiferal and stable isotope evidence for a 'Younger Dryas-style' cold spell at the Saalian- Eemian transition, Denmark. Palaeogeography, Palaeoclimatology, Palaeoecology, 102: 103-120.
111. Strahl, J. 2000. Detailergebnisse pollenanalytischer Untersuchungen an saalespätglazialen bis weischelfrühglazialen Sedimenten aus dem Kiestagebau Hinterste Mühle bei Neubrandenburg (Mecklenburg-Vorpommern). Brandenburgische Geowissenschaftliche Beiträge, 7: 29-40.
112. Szeroczyńska, K., Sarmaja-Korjonen, K., 2007. Atlas of Subfossil Cladocera from Central and Northern Europe. Friends of Lower Vistula Society, Świecie.
113. Talbot, M.R., Laerdal, T., 2000. The Late Pleistocene and Holocene paleolimnology of Lake Victoria, East Africa, based upon elemental and isotopic analyses of sedimentary organic matter. Journal of Paleolimnology, 23: 141-164.
114. Tobolski, K., 1991. Biostratigraphy and palaeoecology of the Eemian Interglacial and the Vistulian Glaciation of the Konin region) (in Polish with English summary). In: Przemiany Środowiska Geograficznego Obszaru Konin-Turek: 45-87. Instytut Badań Czwartorzędu UAM, Poznań.
115. Urbański, K., Winter, H., 2005. The Eemian Interglacial in the section Radówek (Łagów lakeland, western Poland) and itsimplication for till lithostratigraphy (in Polish with English summary). Przegląd Geologiczny, 53: 418-424.
116. van Dam, H., Mertens, A., Sinkeldam, J., 1994. A coded checklist and ecological indicator values of fresh water diatoms from the Netherlands. Netherlands Journal of Aquatic Ecology, 28: 117-133.
117. Velichkevich, F.Y., Zastawniak, E., 2006. Atlas of the Pleistocene vascular plant macrofossils of Central and Estern Europe. Part 1. Pteridophytes and monocotyledons. W. Szafer Institute of Botany, Polish Academy of Science, Kraków.
118. Velichko, A.A., Novenko, E.Y., Pisareva, V.V., Zelikson, E.M., Boettger, T., Junge, F.W., 2005. Vegetation and climate changes during Eemian interglacial in Central and Eastern Europe: comparative analysis of pollen data. Boreas, 34: 207-219.
119. Wachecka-Kotkowska, L., 2015. Development of land re I ief between Piotrków Trybunalski, Radomsko and Przedbórz in the Quaternary (in Polish with English summary): 1-126.Wydawnictwo Uniwersytetu Łódzkiego.
120. Wachecka-Kotkowska, L., Krzyszkowski, D., Malkiewicz, M., Mirosław-Grabowska, J., Niska, M., Krzymińska, J., Myśkow, E., Raczyk, J., Wieczorek, D., Stoiński, A., Rzodkiewicz, M., 2018. An attempt to reconstruct the late Saalian to Plenivistulian (MIS6-MIS3) natural lake environment from the “Parchliny 2014” section, cen tral Po l and. Quaternary International, 467: 5-25.
121. Wachecka-Kotkowska, L., Krzyszkowski, D., Wieczorek, D., Boswell, S., Myśkow, E., 2021. Lithopetrographic and geochemical features of the Saalian tills in the Szczerców outcrop (Poland) in various deformation settings. Open Geosciences, 13: 1-15.
122. Weltje, G.J., Tjalingii, R., 2008. Call bration of XRF core scanners for quantitative geochemical logging of sediment cores: Theory and application. Earth and Planetary Science Letters, 274: 423-438.
123. Whiteside, M.C., 1970. Danish chydorid Cladocera: modern ecology and core studies. Ecological Monographs, 40: 79-118.
124. Wieczorek D., Stoiński A., 2019. Szczegółowa mapa geologiczna Polski w skali 1:50 000, ark. Szczerców (735) wraz z objaśnieniami [dokument elektroniczny] (in Polish). Warszawa, Ministerstwo Środowiska.
125. Wieczorek, D., Stoiński, A., Krzyszkowski, D., Wachecka-Kotkowska, L., Krzymińska, J., 2015. The results of new studies of Quaternary sediments in the Kleszczów Graben, Szczerców Outcrop, Bełchatów Lignite Opencast Mine. Landform Analysis, 29: 63-71.
126. Williams, D.M., Round, F.E., 1987. Revision of the genus Fragilaria. Diatom Research, 2: 267-288.
127. 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.
128. Woillard, G.M., 1975. Recherches palynologiques surle Pleistocene dans l'Est de la Belgique et dans les Vosges Lorraines. Acta Geographica Lovaniensia, 14: 1-168.
129. Woillard, G.M., 1978. Grande Pile Peat Bog: a continuous pollen record for the last 140,000 years. Quaternary Research, 9: 1-21.
130. Woillard, G.M., 1979. The last interglacial-glacial cycle at Grande Pile in Northeastern France. Bull. Soc. Belge Geol., 88: 51-69.
131. Zagwijn, W., 1996. An analysis of Eemian climate in Western and Central Europe. Quaternary Science Reviews, 15, 451-469.
132. Zalat, A., Welc, F., Nitychoruk, J., Marks, L., Chodyka, M., Zbucki, Ł., 2018. Last two millennia water level changes of the Młynek Lake (Northern Po land) inferred from diatoms and Chrysophyceae cysts record. Studia Quaternaria, 35: 77-89.
133. Żarski, M., Winter, H., Kucharska, M., 2018. Palaeoenvironmental and climate changes recorded in the lacustrine sediments of the Eemian Interglacial (MIS 5e) in the Radom Plain (Central Poland). Quaternary International, 467: 147-160.

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Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).

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Bibliografia

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