Changes in habitat conditions in a Late Glacial fluviogenic lake in response to climatic fluctuations (Warta River valley, central Poland)

Forysiak, Jacek; Okupny, Daniel; Obremska, Milena; Antczak-Orlewska, Olga; Płóciennik, Mateusz; Pawłowski, Dominik; Baradyn, Daria; Kotrys, Bartosz; Luoto, Tomi P.; Nevalainen, Liisa; Borówka, Ryszard K.

doi:10.7306/gq.1672

Artykuł - szczegóły

Tytuł artykułu

Changes in habitat conditions in a Late Glacial fluviogenic lake in response to climatic fluctuations (Warta River valley, central Poland)

Autorzy

Forysiak Jacek , Okupny Daniel , Obremska Milena , Antczak-Orlewska Olga , Płóciennik Mateusz , Pawłowski Dominik , Baradyn Daria , Kotrys Bartosz , Luoto Tomi P. , Nevalainen Liisa , Borówka Ryszard K.

Treść / Zawartość

Pełne teksty:

Forysiak_J_Changes_GQ_Vol. 67_ No. 1_2023.pdf

Pobierz

Identyfikatory

DOI

10.7306/gq.1672

Warianty tytułu

Języki publikacji

Abstrakty

The Warta River valley was greatly influenced by the ice sheet of the Last Glacial Maximum (LGM). A small peatland located in the Warta drainage system is here used as a palaeoarchive of climatic and habitat changes during the Late Glacial (Weichselian). The Ługi sediment profile was investigated using multi-proxy (pollen, Chironomidae, Cladocera and geochemistry) analyses that recorded changes in a fluviogenic sedimentary depression. After the Poznań Phase (LGM), Ługi functioned as an oxbow lake that was cut off from the active river channel as a result of fluvial erosion. Since that time, the Warta River has flowed only along the section now occupied by the Jeziorsko Reservoir. Sedimentation of lacustrine deposits started at the beginning of the Late Glacial. Summer temperature reconstructions indicate cool Oldest and Younger Dryas, but no clear cooling in the Older Dryas. During the Younger Dryas the palaeolake was completely occupied by a peatland (fen), which periodically dried out during the Holocene. Investigation of this site has tracked the reaction of the habitat to climatic, hydrological and geomorphological changes throughout the Late Weichselian.

Słowa kluczowe

multi-proxy analysis Late Weichselian denudation processes palaeoclimate central European river

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2023

Tom

Vol. 67, No. 1

Strony

art. no. 1

Opis fizyczny

Bibliogr. 150 poz., rys., tab., wykr.

Twórcy

autor

Forysiak Jacek

University of Lodz, Faculty of Geographical Sciences, Department of Geology and Geomorphology, Narutowicza 88, 90-139 Łódź, Poland

https://orcid.org/0000-0002-0084-4436

autor

Okupny Daniel

University of Szczecin, Institute of Ma rine and Environmen tal Sciences, Mickiewicza 18, 70-383 Szczecin, Poland

https://orcid.org/0000-0002-8836-6044

autor

Obremska Milena

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

https://orcid.org/0000-0002-3465-1894

autor

Antczak-Orlewska Olga

olga.antczak-orlewska@ug.edu.pl

University of Gdańsk, Faculty of Biology, Department of Plant Ecology, Laboratory of Palaeoecology and Archaeobotany, Wita Stwosza 59, 80-308 Gdańsk, Poland

https://orcid.org/0000-0001-9392-623X

autor

Płóciennik Mateusz

University of Lodz, Department of Invertebrate Zoology and Hydrobiology, Banacha 12/16, 90-237 Łódź, Poland

https://orcid.org/0000-0003-1487-6698

autor

Pawłowski Dominik

Adam Mickiewicz University, Institute of Geology, Krygowskiego 12, 61-680 Poznań, Poland

https://orcid.org/0000-0003-4616-6666

autor

Baradyn Daria

University of Lodz, Department of Invertebrate Zoology and Hydrobiology, Banacha 12/16, 90-237 Łódź, Poland

autor

Kotrys Bartosz

Polish Geological Institute – National Research Institute, Pomeranian Branch in Szczecin, Wieniawskiego 20, 71-130 Szczecin, Poland

https://orcid.org/0000-0002-2732-6970

autor

Luoto Tomi P.

University of Helsinki, Faculty of Biological and Environmental Sciences, Ecosystems and Environment Research Programme, Niemenkatu 73, 15140 Lahti, Finland

https://orcid.org/0000-0001-6925-3688

autor

Nevalainen Liisa

University of Helsinki, Faculty of Biological and Environmental Sciences, Ecosystems and Environment Research Programme, Niemenkatu 73, 15140 Lahti, Finland

https://orcid.org/0000-0001-6837-8753

autor

Borówka Ryszard K.

University of Szczecin, Institute of Ma rine and Environmen tal Sciences, Mickiewicza 18, 70-383 Szczecin, Poland

https://orcid.org/0000-0002-6998-7638

Bibliografia

1. Andrzejewski, L., 1995. Genesis of the fluvial system of the Lower Vistula River based in the selected side valleys. Geographical Studies PAN, Special Issue “Evolution of the Vistula river valley”, 8: 139-156.
2. Andrzejewski, L., Krzemień, K., Zwoliński, Z., 2018. Outline of natural and anthropogenic determinants for the evolution of valley and river channel system in Poland (in Polish with English summary). Landform Analysis, 37: 17-51.
3. Antczak-Orlewska, O., Okupny, D., Pawłowski, D., Kotrys, B., Krąpiec, M., Luoto, T.P., Peyron, O., Płóciennik, M., Stachowicz-Rybka, R., Wacnik, A., Szmańda, J.B., Szychowska-Krąpiec, E., Kittel, P., 2023. The environmental history of the oxbow in the Luciąża River valley - study on the specific microclimatic during Allerød and Younger Dryas in central Poland. Quaternary International, 644-645: 178-195.
4. Apolinarska, K., Woszczyk, M., Obremska, M., 2012. Late Weichselian and Holocene palaeoenvironmental changes in northern Poland used on the Lake Skrzynka record. Boreas, 41: 292-307.
5. van Asch, N., Lutz, A.F., Duijkers, M.C.H., Heiri, O., Brooks, S.J., Hoek, W.Z., 2012. Rapid climate change during the Weichselian Lateglacial in Ireland: Chironomid-inferred summer temperatures from Fiddaun, Co. Galway. Palaeogeography, Palaeoclimatology, Palaeoecology, 315-316: 1-11.
6. Balwierz, Z., 2010. Analiza pyłkowa osadów torfowiska Żabieniec (in Polish). In: Torfowisko Żabieniec. Warunki naturalne, rozwój i zapis zmian paleoekologicznych w jego osadach (eds. J. Twardy, S. Żurek and J. Forysiak): 179-188. Bogucki Wyd. Naukowe, Poznań.
7. Balwierz, Z., Goździk, J., 1997. Palaeoenvironmental changes established through pollen analysis of Latevistulian calcareous deposits in closed depressions in Bełchatów. Acta Universitatis Lodziensis, Folia Geographica Physica, 1: 7-21.
8. Bałaga, K., 2007. Changes in the natural environment recorded in the sedl ments of the Karaśne lake-mire complex (Lublin Polesie, E Poland). Geochronometria, 29: 1-21.
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. Wiley and Sons Ltd., Chichester.
10. Beug, H.-J., 2004. Leitfaden der Pollenbestimmung für Mitteleuropa und angrenzende Gebiete. Verlag Dr. Friedrich Pfeil, München.
11. Birks, H.H., Ammann, B., 2000. Two terrestrial records of rapid climatic change during the glacial-Holocene transition (14,000-9000 calendar years B.P.) from Europe. Proceedings of the National Academy of Sciences of the United States of America, 97: 1390-1394.
12. Birks, H.H., Battarbee, R.W., Birks, H.J.B., 2000. The development of the aquatic ecosystem at Krĺkenes Lake, western Norway, during the late-glacial and early-Holocene - a synthesis. Journal of Paleolimnology, 23: 91-114.
13. Bjerring, R., Becares, E., Declerck, S., Gross, E.M., Hansson, L.A., Kairesalo, T., Nykanen, M., Halkiewicz, A., Kornijów, R., Conde-Porcuna, J.M., Seferlis, M., Noges, T., Moss, B., Amsinck, S.L., Vad Odgaard, B., Jeppesen, E., 2009. Subfossil Cladocera in relation to contemporary environmental variables in 54 Pan-European lakes. Freshwater Biology, 54: 2401-2417.
14. Borówka, R.K., 1990. Late Vistulian and Holocene denudation magnitude in morainic plateaux: case studies in the zone of maximum extend of the last ice sheet. Quaternary Studies in Poland, 9: 5-31.
15. Borówka, R.K., 1992. The pattern and magnitude of denudation in intraplateau sedimentary basins during the Vistulian and Holocene (in Polish with English summary). Adam Mickiewicz University Press, Seria Geografia, 54.
16. Borówka, R.K., Belczyńska, A., Tomkowiak, J., 1999. Morphological features and some chemical properties of fossil soils developed within the aeolian sands in the vicinity of Świętoujście and Grodno (in Polish with English summary). In: Ewolucja geosystemów nadmorskich południowego Bałtyku (eds. R.K. Borówka, Z. Młynarczyk and A. Wojciechowski): 37-42. Bogucki Wyd. Naukowe, Poznań-Szczecin.
17. Borówka, R.K., Tomkowiak, J., Okupny, D., Forysiak, J., 2014. Chemical composition of biogenic sediments from the Ner River Valley (Mianów peatland, Łask Elevation). Folia Quaternaria, 82: 51-69.
18. Błaszkiewicz, M., 2007. Geneza i ewolucja mis jeziornych na młodoglacjalnym obszarze Polski - wybrane problemy (in Polish). Studia Limnologica et Telmatologica, 1: 5-16.
19. Brodersen, K.P., Lindegaard, C., 1999. Classification, assessment and trophic reconstruction of Danish lakes using chironomids. Freshwater Biology, 42: 143-157.
20. Brooks, S.J., Birks, H.J.B., 2001. Chironomid-inferred air temperatures from Lateglacial and Holocene sites in north-west EUrope: progress and problems. Quaternary Science Reviews, 20: 1723-1741.
21. Brooks, S.J., Langdon, P.G., 2014. Summer temperature gradients in northwest Europe during the Lateglacial to early Holocene transition (15-8 ka BP) inferred from chironomid assemblages. Quaternary International, 341: 80-90.
22. Brooks, S.J., Langdon, P.G., Heiri, O., 2007. The Identification and Use of Palaearctic Chironomidae Larvae in Palaeoecology. QRA Technical Guide No. 10. Quaternary Research Association, London.
23. Brzezińska-Wójcik, T., Kociuba, W., 2001. Transformation of the Roztocze segment of the Wieprz River Valley (SE Poland) in the Pleistocene (in Polish with English summary). Przegląd Geologiczny, 49: 257-266.
24. Cedro, B., 2007. Evolution of the River Rega valley near Łobez in Late Pleistocene and Early Holocene. Geochronometria, 28: 55-59.
25. Damicz, J., 1995. Związek wieku osadów pojeziornych z ich typem litologicznym na Warmii i Mazurach (in Polish). Przegląd Geologiczny, 43: 35-38.
26. Dembek, W., Piórkowski, H., Rycharski, M., 2000. Wetlands against the background of physico-geographical regionalization of Poland (in Polish with English summary). Biblioteczka Wiadomości IMUZ, 97.
27. Dobrowolski, R., 2011. Problems with classification of deposits of spring-fed fens (in Polish with English summary). Studia Limnologica et Telmatologica, 5: 3 -12.
28. Dobrowolski, R., Bałaga, K., Bogucki, A., Fedorowicz, S., Melke, J., Pazdur, A., Zubovic, S., 2001. Chronostratigraphy of the Okunin and Czerepacha lake-mire geosystems (Volhynia Polesiye, NW Ukraine) during the Late Glacial and Holocene. Geochronometria, 20: 107-115.
29. Dzieduszyńska, D., Forysiak, J., 2013. Signals of environmental changes of the Late Vistulian (Weichselian late glacial) in biogerasmussnic sediments of the Łódź Region. Acta Geographica Lodziensia, 101: 37-48.
30. Faegri, K., Kaland, P.E., Krzywinski, K., 1989. Textbook of Pollen Analysis. John Wiley & Sons, London.
31. Faustova, M., Sacherová, V., Svensson, J.E., Taylor, D.J., 2011. Radiation of European Eubosmina (Cladocera) from Bosmina (E.) longispina - concordance of multipopulation molecular data with paleolimnology. Limnology and Oceanography, 56: 440-450.
32. Flössner, D., 1972. Krebstiere, Crustacea (Kiemen- und Blattfüßer, Branchiopoda, Fischläuse, Branchiura). Die Tierwelt Deutschlands 60. VEB Gustav Fischer Verlag, Jena.
33. Flössner, D., 2000. Die Haplopoda und Cladocera (ohne Bosminidae) Mitteleuropas. Backhuys Publishers, Leiden.
34. Fortescue, J.A.C., 1980. Environmental Geochemistry. A Holistic Approach. Springer, New York.
35. Forysiak, J., 2005. The development of the Warta river valley between Burzenin and Dobrów in the Late Quaternary Period (in Polish with English summary). Acta Geographica Lodziensia, 90: 1-116.
36. Forysiak, J., 2012. Record of changes in the natural environment of the Late Weichselian and Holocene preserved in the sediments of peatlands of the Łódź region (in Polish with English summary). Acta Geographica Lodziensia, 99: 1-164.
37. Forysiak, J., Obremska, M., Pawłowski, D., Kittel, P., 2010. Late Vistulian and Holocene changes in the Ner River valley in light of geological and palaeocological data from the Ner-Zawada peatland. Geologija, 52: 25-33.
38. Forysiak, J., Borówka, R.K. Kloss, M., Obremska, M., Okupny, D., Żurek, S., 2012. Geological and geomorphological features of the Rąbień peatland and preliminary results of investigations of biogenic sedl ments (in Polish with English summary). Acta Geographica Lodziensia, 100: 65-76.
39. Forysiak, J., Kadrow, S., Noryśkiewicz, A.M., Okupny, D., Saile, T., Twardy, J., Zawiska, I., 2021. The environmental context of Early Neolithic Cultural transformation in the Targowisko settlement region (Southern Poland). Sprawozdania Archeologiczne, 73: 177-201.
40. Frey, D. G., 1986. Cladocera analysis. In: Handbook of Holocene Paleoecology and Paleohydrology (ed. B.E. Berglund): 667-692. John Wiley and Sons, Chichester.
41. Gerlach, T., 1990. Ewolucja młodoczwartorzędowych zbiorników jeziornych centralnej części Dołów Jasielsko-Sanockich (in Polish). Studia Geomorphologica Caraptho-Balcanica, 24: 119-160.
42. Goździk, J., 1995. A permairost evolution and its impact on some depositional conditions between 20 and 10 ka in Poland. Biuletyn Peryglacjalny, 34: 53-72.
43. Goździk, J., Konecka-Betley, K., 1992a. Late-Vistulian carbonateous formations in outflow-closed depressions of the Bełchatów Brown Coal strip mine. Part I. Genesis and stratigraphy (in Polish with English summary). Roczniki Gleboznawcze, 43: 103-112.
44. Goździk, J., Konecka-Betley, K., 1992b. Late-Vistulian carbonateus formations in outflow-closed depressions of the Bełchatów Brown Coal strip mine. Part II. Chemical and mineral compositions (in Polish with English summary). Roczniki Gleboznawcze, 43: 113-124.
45. Głowacki, M., 2006. Genesis of biogenic accumulation reservoirs near Brody in the Lubska Highland in light of morphological and lithological investigations (in Polish with English summary). Badania Fizjograficzne nad Polską Zachodnią. Seria A - Geografia Fizyczna, 57: 21-34.
46. Gregory, K.J., Walling, D.E., 1973. Drainage Basin Form and Process. Arnold, London.
47. Grimm, E.C., 1992. TILIA/TILIA graph. Version 1.2. Illinois State Museum.
48. Halkiewicz, A. 2008. Corynocera ambigua (Insecta, Diptera) subfossils occurrence in recent sediments of four shallow Polesie lakes. Annales Universitatis Mariae Curie-Sklodowska: Biologia, Sectio C, 63: 31.
49. Hammer, 0., Harper, D.A.T., Ryan, P.D., 2001. PAST: Paleontological Statistics software package for education and data analysis. Palaeontologia Electronica, 4: 1-9.
50. Harasimiuk, A., Wicik, B., Grabowski, T., 2010. The lake deposits in Płocki Basin (case studies of Lakes Rakutowskie and Żłoby). Limnological Review, 10: 23-28.
51. Heiri, O., Brooks, S. J., Birks, H. J. B., Lotter, A. F., 2011. A 274-lake calibration data-set and inference model for chironomid-based summer air temperature reconstruction in Europe. Quaternary Science Reviews, 30: 3445-3456.
52. Juggins, S., 2007. C2 Version 1.5 User Guide. Software for Ecological and Palaeoecological Data Analysis and Visualisation. Newcastle University, Newcastle upon Tyne.
53. Juggins, S., 2017. Rioja: Analysis of Quaternary Science Data. R package version 0.9-21. http://cran.r-project.org/package=rioja
54. Kaczmarska, I., 1973. Late-Glacial diatom flora at Knapówka near Włoszczowa (South Poland). Acta Palaeobotanica, 14: 179-193.
55. Klatkowa, H., Załoba, M., 1991. Kształtowanie budowy geologicznej i rzeźby południowego obrzeżenia Basenu Uniejowskiego (in Polish). In: Przemiany środowiska geograficznego obszaru Konin-Turek (ed. W. Stankowski): 33-44. Wyd. Nauk UAM, Poznań.
56. Klatkowa, H., Załoba, M., 1992. Objaśnienia do Szczegółowej mapy geologicznej Polski 1:50 000, ark. Warta (in Polish). Państwowy Instytut Geologiczny, Warszawa.
57. Kłysik, K., 2001. Warunki klimatyczne. In: Funkcja regionalna Łodzi i jej rola w kształtowaniu województwa (in Polish). Zarys monografii województwa łódzkiego (ed. S. Liszewski): 68-81. Łódzkie Towarzystwo Naukowe, Łódź.
58. Kondracki, J., 2002. Geografia regionalna Polski (in Polish). Wyd. Naukowe PWN, Warszawa.
59. Konecka-Betley, K., Manikowska, B., 2005. Late Glacial and Holocene stratotype profile of palaeosols in the Warsaw Basin. Studia Quaternaria, 22: 3-16.
60. Kordowski, J., Błaszkiewicz, M., Kramkowski, M., Słowiński, M., Tyszkowski, S., Brauer, A., Brykała, D., Gierszewski, P., Lamparski, P., Lutyńska, M., Mirosław-Grabowska, J., Noryśkiewicz, A.M., Obremska, M., Ott, F., Wulf, S., Zawiska, I., 2014a. Characteristics of depositional environments of Czechowskie Lake basin and its vicinity (in Polish with English summary). Landform Analysis, 25: 55-75.
61. Kordowski, J., Gamrat, W., Gierszewski, P., Kubiak-Wójcicka, K., Szmańda, J.B., Tyszkowski, S., Solarczyk, A., 2014b. Record of fluvial and biogenic sedimentation processes in sediments of the Lower Vistula Valley floor (in Polish with English summary). Landform Analysis, 25: 77-93.
62. 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. Birksand W.M. Last): 5-41. Kluwer Academic Publishers, Dordrecht.
63. Kotrys, B., Płóciennik, M., Sydor, P., Brooks, S.J., 2020. Expanding the Swiss-Norwegian chironomid training set with Polish data. Boreas, 49: 89-107.
64. Kozarski, S., 1995. The periglacial impact on the deglaciated area of Northern Poland after 20 kyr BP. Biuletyn Peryglacjalny, 34: 73-102.
65. Kulesza, P., Bałaga, K., 2015. Reconstruction of palaeoenvironmental changes in the area of Lake Syczyńskie on the basis of palaeoecological analyses. Annales Universitatis Mariae Curie-Skłodowska, sectio B, 70: 39-57.
66. Lipka, K., Stabryła, J., Zając, E., 2008. Peat cover and water resources of peat deposits in the upper Warta basin (in Polish with English summary). Infrastruktura i Ekologia Terenów Wiejskich, 5: 63-70.
67. Luoto, T.P., Sarmaja-Korjonen, K. 2011. Midge-inferred Holocene effective moisture fluctuations in a subarctic lake, northern Lapland. Boreas, 40: 650-659.
68. Luoto, T.P., Nevalainen, L., Sarmaja-Korjonen, K., 2008. Multiproxy evidence for the 'Little Ice Age' from Lake Hampträsk, Southern Finland. Journal of Paleolimnology, 40: 1097-1113.
69. Luoto, T.P., Nevalainen, L., Kultti, S., Sarmaja-Korjonen, K., 2011. An evaluation of the influence of water depth and river inflow on quantitative Cladocera-based temperature and lake level inferences in a shallow boreal lake. Hydrobiologia, 676: 143-154.
70. Luoto, T.P., Kotrys, B., Płóciennik, M., 2019. East European chironomid-based calibration model for past summer temperature reconstructions. Climate Research, 77: 63-76.
71. Makaske, B., Nap, R.L., 1995. A transition from a braided to a meandering channel facies, showing inclined heterolithic stratification (Late Weichselian, central Netherlands). Geologie en Mijnbouw, 74: 13-20.
72. Makohonienko, M., Płóciennik, M., Papiernik, P., Kittel, P., Gałka, P., Mroczkowska, A., Apolinarska, K., Okupny, D., Panfil, M., Kotrys, B., Luoto, T.P., Krąpiec, M., Tyszkowski, M., 2023. Environmental changes during Mesolithic-Neolithic transition in Kuyavia Lakeland, Central Po land. Quaternary International, 644-645: 196-221.
73. Marks, L., 2012. Tim i ng of the Late Vistulian (Weichselian) glacial phases in Poland. Quaternary Science Reviews, 44: 81-88.
74. Mazurek, M., 1990. Fluctuations of water level in Lake Lednickie, the Gniezno Plateau, on the basis of study of terrace sediments (in Polish with English summary). Badania Fizjograficzne nad Polską Zachodnią. Seria A - Geografia Fizyczna, 41: 63-74.
75. Moller Pillot, H.K.M., 2009. Chironomidae Larvae. Biology and Ecology of the Chironomini. KNNV Publishing, Zeist.
76. Moller Pillot, H.K.M., 2013. Chironomidae Larvae of the Netherlands and Adjacent Lowlands, Biology and Ecology of the Aquatic Orthocladiinae, Prodiamesinae, Diamesinae, Buchonomyiinae, Podonominae, Telmatogetoninae. KNNV Publishing, Zeist.
77. Moore, P., Webb, J., Collinson, M., 1991. Pollen Analysis. Blackwell Sci. Publ., Oxford.
78. Müller, D., Tjallingii, R., Płóciennik, M., Luoto, T.P., Kotrys, B., Plessen, B., Ramisch, A., Schwab, M.J., Błaszkiewicz, M., Słowiński, M., Brauer, A., 2021. New insights into lake responses to rapid climate change: the Younger Dryas in Lake Gościąż, central Poland. Boreas, 50: 535-555.
79. Nevalainen, L., Luoto, T.P., Kultti, S., Sarmaja-Korjonen, K., 2012. Do subfossil Cladocera and chydorid ephippia disentangle Holocene climate trends? The Holocene, 22: 291-299.
80. Niska, M., Joncza, J., Gadziszewska, J., 2017. Late Pleistocene and Holocene environmental evolution of the Wkra River Valley near Bielawy Gołuskie (central Poland) recorded in palaeo-oxbow lake deposits. Geological Quarterly, 61: 305-318.
81. Oksanen, J., Blanchet, F.G., Kindt, R., Legendre, P., Michin, P.R., O'Hara, R.B.; Simpson, G.L., Solymos, P., Henry, M., Stevens, H., Szoecs, E., Wagner H., 2019. “Vegan” 2.3.3. Community Ecology Package. Available online: https://cran.r-project.org/package=vegan (accessed on 20 April 2020)
82. Okupny, D., 2013. Zmiany środowiska geograficznego w regionie łódzkim w świetle cech geochemicznych osadów wybranych torfowisk (in Polish). Ph.D. thesis, Department of Geomorphology and Paleogeography, University of Lodz. Łódź.
83. Okupny, D., Pawłowski, D., 2021. Elemental composition of biogenic sediments reveals palaeoclimatic changes during the Late Weichselian in a Central European river valley: a statistical approach. Catena, 200: 105188.
84. Okupny, D., Fortuniak, A., Tomkowiak, J., 2013. Denudation features of the Late Vistulian (Weichselian late glacial) preserved in the geochemical analysis of the biogenic deposits of the Łódź Region (in Polish with English summary). Acta Geographica Lodziensia, 101: 89-99.
85. Okupny, D., Borówka, R.K., Fortuniak, A., Tomkowiak, J., 2014a. Chemical composition of organic sediments from the Koźmin Las site (in Polish with English summary). Acta Geographica Lodziensia, 102: 71-86.
86. Okupny, D., Żurek, S., Forysiak, J., 2014b. Spatial pattern of mire distribution of the Lodz region (in Polish with English summary). Studia Limnologica et Telmatologica, 8: 81-91.
87. Okupny, D., Fortuniak, K., Kloss, M., Ziułkiewicz, M., Forysiak, J., Fortuniak, A., Bednorz, L., Pawlak, W., 2016a. Preliminary geological and palaeobotanical description of the Kopytkowo swamp in relations to the analysis of contemporary water conditions and vegetations (Biebrza River valley, NE Poland) (in Polish with English summary). Acta Geographica Lodziensia, 105: 149-162.
88. Okupny, D., Nita, M., Kloss, M., Alexandrowicz, W.P., Fortuniak, A., Żurek, S., 2016b. The tentative reconstruction of evolution of the biogenic accumulation reservoir in Bydlin (Silesian-Cracovian Upland) (in Polish with English summary). Acta Geographica Lodziensia, 105: 55-68.
89. Okupny, D., Rzepecki, S., Borówka, R.K., Forysiak, J., Twardy, J., Fortuniak A., Tomkowiak, J., 2016c. Factors influencing temporal changes in chemical composition of biogenic deposits in the middle Tążyna River Valley (Kuyavian Lakeland, central Poland). Geologos, 22: 121-136.
90. Okupny, D., Malkiewicz, M., Pawłowski, D., Ludwikowska- Kędzia, M., Borówka, R.K., Forysiak, J., Michczyński, A., Jucha, W., Cybul, P., Żurek, S., 2019. Late Glacial palaeoenvironmental changes in the southern part of the Holy Cross Mountains based on the “Białe Ługi” peatland record. Studia Quaternaria, 36: 119-135.
91. Okupny, D., Borówka, R.K., Cedro, B., Sławińska, J., Tomkowiak, J., Michczyński, A., Kozłowska, D., Kowalski, K., Siedlik, K., 2020. Geochemistry of a sedimentary at the Wąwelnica archeological site, Szczecin Hills (Western Pomerania). Acta Geographica Lodziensia, 110: 169-186.
92. Okupny, D., Borówka, R.K., Forysiak, J., Twardy, J., Kloss, M., Żurek, S., 2021. The relationship between the chemical composition and lithology of Late Glacial and Holocene biogenic deposits of the Żabieniec mire (Central Poland). Geological Quarterly, 65: 11.
93. Oświt, J., Żurek S., Liwski, S., 1980. Soil conditions in the Ślina river valley against the background of water conditions (in Polish with English summary). Zeszyty Problemowe Postępów Nauk Rolniczych, 234: 159-194.
94. Pawłowski, D., 2012. Younger Dryas Cladocera assemblages from two valley mires in central Poland and their potential significance for climate reconstructions. Geologos, 18: 237-249.
95. Pawłowski, D., 2017. The usefulness of subfossil Cladocera remains in Younger Dryas climatic reconstructions in central Poland. Acta Geologica Polonica, 67: 567-584.
96. Pawłowski, D., Okupny, D., Włodarski, W., Zieliński, T., 2014. Spatial variability of selected physicochemical parameters within peat deposits in small valley mire: a geostatistical approach. Geologos, 20: 269-288.
97. Pawłowski, D., Milecka, K., Kittel, P., Woszczyk, M., Spychalski, W., 2015. Palaeoecological record of natural changes and human impact in a small river valley in Central Poland. Quaternary International, 370: 12-28.
98. Pawłowski, D., Borówka, R.K., Kowalewski, G., Luoto, T.P., Milecka, K., Nevalainen, L., Okupny, D., Płóciennik, M., Woszczyk, M., Tomkowiak, J., Zieliński, T., 2016a. The response of flood-plain ecosystems to the Late Glacial and Early Holocene hydrological changes: A case study from a small Central European river valley. Catena, 14: 411-428
99. Pawłowski, D., Borówka, R.K., Kowalewski, G., Luoto, T.P., Milecka, K., Nevalainen, L., Okupny, D., Tomkowiak, J., Zieliński, T., 2016b. Late Weichselian and Holocene record of the paleoenvironmental changes in a small river valley in Central Poland. Quaternary Science Reviews, 135: 24-40.
100. Petera, J., 2002. Vistulian valley deposits in the Uniejów Basin and their palaeogeographical significance (in Polish with English summary). Acta Geographica Lodziensia, 83: 1-164.
101. Petera-Zganiacz, J., Dzieduszuńska, D., Milecka, K., Okupny, D., Słowiński, M., Michczyńska, D.J., Forysiak, J., Twardy, J., 2022. Climate and abiotic landscape controls of Younger Dryas environmental variability based on a terrestrial archive (the Żabieniec mire, Central Poland). Catena, 219: 106611.
102. Płóciennik, M., Kruk, A., Michczyńska, D.J., Birks, H.J.B., 2015. Kohonen artificial neural networks and the IndVal index as supplementary tools for the quantitative analysis of palaeoecological data. Geochronometria, 42: 189-201.
103. Płóciennik, M., Kittel, P., Borówka, R.K., Cywa, K., Okupny, D., Obremska, M., Pawłowski, D., Stachowicz-Rybka, R., Szperna, R., Witkowski, A., 2016. Palaeoecological and palaeohydrological patterns of the Kolonia Bechcice subfossil oxbow in the mid-Ner River valley. Acta Geographica Lodziensia, 105: 107-124.
104. Płóciennik, M., Pawłowski, D., Vilizzi, L., Antczak-Orlewska, O., 2020. From oxbow to mire: Chironomidae and Cladocera as habitat palaeoindicators. Hydrobiologia, 847: 3257-3275.
105. Płóciennik, M., Jakiel, A., Forysiak, J., Płaza, D., Kittel, P., Okupny, D., Pawłowski, D., Obremska, M., Brooks, S.J., Kotrys, B., Luoto, T.P., 2021. Multi-proxy inferred hydroclimatic conditions at Bęczkowice fen (Central Poland); the influence of fluvial processes and human ac tivi ty in the Stone Age. Acta Geographica Lodziensia, 111: 135-157.
106. Płóciennik, M., Zawiska, I., Rzodkiewicz, M., Noryśkiewicz, A.M., Słowiński, M., Müller, D., Brauer, A., Antczak-Orlewska, O., Kramkowski, M., Peyron, O., Nevalainen, L., Luoto, T.P., Kotrys, B., Seppä, H., Camuera Bidaurreta, J., Rudna, M., Mielczarek, M., Zawisza, E., Janowska, E., Błaszkiewicz, M., 2022. Climatic and hydrological variability as a driver of the Lake Gościąż biota during the Younger Dryas. Catena, 212: 106049.
107. Porinchu, D.F., Macdonald, G.M., Bloom, A.M., Moser, K.A., 2002. The modern distribution of chironomid sub-fossils (Insecta: Diptera) in the Sierra Nevada, California: potential for paleoclimatic reconstructions. Journal of Paleolimnology, 28: 355-375.
108. R Core Team, 2020. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available online: https://www.r-project.org/
109. Ralska-Jasiewiczowa, M., 2004. Late Glacial and Holocene history of vegetation in Poland based on isopollen maps. W. Szafer Institute of Botany, PAS, Kraków.
110. Rasmussen, S.O., Andersen, K.K., Svensson, A.M., Steffensen, J.P., Vinther, B.M., Clausen, H.B., Siggaard-Andersen, M.-L., Johnsen, S.J., Larsen, L.B., Dahl-Jensen, D., Bigler, M., Röthlisberger, R., Fischer, H., Goto-Azuma, K., Hansson, M. E., Ruth, U., 2006. A new Greenland ice core chronology for the last glacial termination. Journal of Geophysical Research, 111: D06102.
111. Rossaro, B., Marziali, L., Montagna, M., Magoga, G., Zaupa, S., Boggero, A., 2022. Factors controlling morphotaxa distributions of Diptera Chironomidae in freshwaters. Water, 14: 1014.
112. Rotnicki, K., 1987. Main phases of erosion and accumulation in the middle and lower Prosna valley in the last glacial-interglacial cycle. Geographia Polonica, 53: 53-65.
113. Rydelek, P., 2005. Genetic conditions of spatial variabill ty of Total Organic Carbon (TOC) and sulphur concentration in the peat bog area of Kurówka River Valley (in Polish with English summary). Przegląd Geologiczny, 53: 673-676.
114. Rydelek, P., 2011. Origin and composition of mineral particles of selected peat deposits in Lubartowska Upland (in Polish with English summary). Woda-Środowisko-Obszary Wiejskie, 11: 135-149.
115. Rydelek, P., 2021. Variability of physicochemical parameters pf peats in the subsurface zone of the fen in the Struga Wodna valley (Lubartów Plateau) (in Polish with English summary). Przegląd Geologiczny, 69: 867-872.
116. Schumm, S.A., 1977. The Fluvial System. John Wiley and Sons, New York.
117. Starkel, L., 1997. The evolution of fluvial in the Upper Vistulian and Holocene in the territory of Poland. Landform Analysis, 1: 7-18.
118. Stasiak, J., 1971. Sedimentation rate of calcareous gyttja deposits (in Polish with English summary). Zeszyty Problemowe Postępów Nauk Rolniczych, 107: 113-119.
119. Stockmarr, J., 1971. Tablets with spores used in absolute pollen analysis. Pollen Spores, 13: 615-621.
120. Strzelecka, A., Wróbel, R., 2021. Differences in the development of the Szczecin Lagoon area in the Late Glacial and Holocene based on the geochemical analysis of carbonate sediments from Lake Nowowarpieńskie (NW Poland). Acta Geographica Lodziensia. 111: 47-57.
121. Succow, M., Joosten, H., 2001. Landschaftsökologische Moorkunde. E. Schweizerbart'sche Verlagsbuchhandlung (Nägele u. Obermiller), Science Publishers, Stuttgart.
122. Szeroczyńska, K., Sarmaja-Korjonen, K., 2007. Atlas of Subfossil Cladocera from Central and Northern Europe. Friends of Lower Vistula Society, Świecie, Poland.
123. Szumański, A., 1983. Paleochannels of large meanders in the river valleys of the Polish Lowland. Quaternary Studies in Poland, 4: 207-216.
124. Ścibior, K., Rydelek, P., Stępień, M., 2015. Influence of selected peat bogs Drawa National Park on the formation of the chemical composition of shallow groundwater (in Polish with English summary). Przegląd Geologiczny, 63: 1099-1104.
125. Teisseyre, A.K., 1991. Klasyfikacja rzek w świetle analizy systemu fluwialnego i geometrii hydraulicznej (in Polish). Acta Universitatis Wratislaviensis, 1287, Prace Geologiczno-Mineralogiczne, 12.
126. Toucanne, S., Zaragosi, S., Bourillet, J-F., Marieu, V., Cremer, M., Kageyama, M., Van Vliet-Lanoe, B., Frédérique, E., Turon, J-L., Gibbard, P.L., 2010. The first estimation of Fleuve Manche palaeoriver discharge durl ng the last deglaciation: Evidence for Fennoscandian ice sheet meltwater flow in the English Channel ca 20-18 ka ago. Earth and Planetary Science Letters, 290: 459-473.
127. Turkowska, K., 1988. Evolution of river valleys in the Łódź Plateau at the Quaternary decline (in Polish with English summary). Acta Geographica Lodziensia, 57: 1-157.
128. Turkowska, K., 1997. The state of knowledge of valley evolution in non-glaciated regions of the Polish Plain during the transitions period from Pleistocene to Holocene (in Polish with English summary). Acta Universitatis Lodziensis. Folia Geographica Physica, 1: 67-87.
129. Turkowska, K., 2006. Geomorfologia regionu łódzkiego (in Polish). Wyd. UŁ, Łódź.
130. Vallenduuk, H.J., Moller Pillot, H.K.M., 2007. Chironomidae Larvae of The Netherlands and Adjacent lowlands. General ecology and Tanypodinae. KNNV Publish i ng, Zeist.
131. Van Damme, K., Dumont, H.J., 2008. Further division of Alona Baird, 1843: separation and position of Coronatella Dybowski & Grochowski and Ovalona gen. n. (Crustacea: Cladocera). Zootaxa, 1960: 1-44.
132. Van Damme, K., Kotov, A.A., Dumont, H.J., 2010. A checkl ist of names in Alona Baird 1843 (Crustacea: Cladocera: Chydoridae) and their current status: an analysis of the taxonomy of a lump genus. Zootaxa, 2330: 1-63.
133. Walanus, A., 2000. Statistical significance of inferences from quantitative analysis as applied to the Upper Quaternary. Geologia, Kwartalnik AGH, 26: 1-59.
134. Walanus, A., Nalepka, D, 1999. Polpal program for counting pollen grains, diagrams plotting and numerical analysis. Acta Palaeobotanica, Supplementum, 2: 659-661.
135. Walanus, A., Nalepka, D, 2010. Calibration of Mangerud's boundaries. Radiocarbon, 52: 1639-1644.
136. Walker, I.R., 2001. Midges: Chironomidae and related Diptera. In: Tracking environmental change using lake sediments, Vol. 4: Zoological Indicators (eds. J.P. Smol, H.J.B. Birks and W.M. Last): 43-66. Kluwer Academic Press, Dordrecht.
137. Wasylikowa, K., 1964. Roślinność i klimat późnego glacjału w środkowej Polsce na podstawie na podstawie badań w Witowie koło Łęczycy (in Polish). Biuletyn Peryglacjalny, 13: 261-417.
138. Wasylikowa, K., 2011. Wiek osadów spągowych torfowiska Silne Bagno koło Witowa w świetle analizy pyłkowej (in Polish). Warsztaty Naukowe “Torfowiska w krajobrazie przekształconym - funkcjonowanie i ochrona”. Wawrzkowizna, 1-3 czerwca 2011: 93-94.
139. Weckwerth, P., Wysota, W., Piotrowski, J.A., Adamczyk, A., Krawiec, A., Dąbrowski, M., 2019. Late Weichselian glacier outburst floods in North-Eastern Pol and: Landform evidence and palaeohydraulic significance. Earth-Science Reviews, 194: 216-233.
140. Whiteside, M.C., 1970. Danish chydorid Cladocera: modern ecology and core studies. Ecological Monographs, 40: 79-118.
141. Wibig, J., Radziun, W., 2019. Precipitation in the Łódź Voivodeship in the period 1961-2015. Acta Geographica Lodziensia, 109: 29-47.
142. Wiederholm, T. (ed.), 1983. Chironomidae of the Holarctic region: keys and diagnoses. Part 1. Larvae. Entomol. Scand. Suppl. 19: 1-457.
143. Wiśniewski, E., 1987. The evolution of the Vistula river valley between Warsaw and Płock Basins during the last 15 000 years. In: Evolution of the Vistula river valley during the last 15 000 years, part II (ed. L. Starkel): 171-187. Geographical Studies, Special Issue 4, IGiPZ PAN.
144. Zawiska, I., Słowiński, M., Correa-Metrio, A., Obremska, M., Luoto, T., Nevalainen, L., Woszczyk, M., Milecka, K., 2014. The response of a shallow lake and its catchment to Late Glacial climate changes - a case study from eastern Poland. Catena, 126: 1-10.
145. Zieliński, T., Pisarska-Jamroży, M., 2012. Which fea tures of deposits should be included in a code and which not (in Polish with English summary)? Przegląd Geologiczny, 60: 387-397.
146. Zhou, S., Zhou, K., Wang, J., Yang, G., Wang, S., 2017. Application of cluster analysis to geochemical compositional data for identifying ore-related geochemical anomalies. Frontiers of Earth Science, 12: 491-505.
147. Żurek, S., 1991. The development of the peat form i ng processes versus the lowland relief of Poland and hydrological change in the postglacial period. Quaestiones Geographicae, 17/18: 95-100.
148. Żurek, S., 1993. Palaeohydrological changes in the wetlands (in Polish with English summary). Przegląd Geograficzny, 64: 75-95.
149. Żurek, S., Dzięczkowski, A., 1971. Tentative reconstruction of evolution of fossil lakes in „Biebrza” peat bog (in Polish with English summary). Przegląd Geograficzny, 43: 403-424.
150. Żurek, S., Okupny, D., 2015. Peatlands of the Łódź region (in Polish with English summary). Studia Limnologica et Telmatologica, 9: 59-69.

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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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