A new approach to analysing the origin and occurrence of amber-bearing deposits of the Upper Eocene, northern Lublin area, SE Poland

Karnkowski, Paweł H.; Kasiński, Jacek R.; Słodkowska, Barbara; Czuryłowicz, Krzysztof; Żarski, Marcin

doi:10.7306/gq.1754

Artykuł - szczegóły

Tytuł artykułu

A new approach to analysing the origin and occurrence of amber-bearing deposits of the Upper Eocene, northern Lublin area, SE Poland

Autorzy

Karnkowski Paweł H. , Kasiński Jacek R. , Słodkowska Barbara , Czuryłowicz Krzysztof , Żarski Marcin

Treść / Zawartość

Pełne teksty:

Karnkowski_P_A new_GQ_Vol. 68_No. 3_2024.pdf

Pobierz

Identyfikatory

DOI

10.7306/gq.1754

Warianty tytułu

Języki publikacji

Abstrakty

Eocene sedimentation in the Lublin region reached its peak in the Middle Eocene, followed by a regression in the Late Eocene, which was accompanied by accumulation of significant amber deposits in the North Lublin area. These deposits, located along the south-eastern coast of the Eocene, reflect the abundant resin production in diverse forests during the climatic optimum of the Eocene. Recent research has challenged the earlier notion that amber deposits formed in river deltas and linked them to regressive marine facies. Amber is typically found in low-energy, regressive rock layers such as silt and sand, and its distribution could be significantly affected by environmental changes influencing its secondary occurrence. A recent study focusing on the North Lublin region modelled the structural surface of the Upper Cretaceous to identify areas of amber-bearing deposits. Using data from the PITAKA, Bank HYDRO and Central Geological Archive databases, a comprehensive surface of the Upper Cretaceous at the sub-basin scale was created using ArcGIS software. This approach enabled a better understanding of the paleo-depositional subsurface of the Paleogene deposits. The analysis identified 84 different amber-bearing fields covering a total area of 891.5 km², which corresponds to almost 14% of the study area in the northern Lublin region. These results emphasise the influence of the palaeomorphology of the Late Eocene basin on sediment dynamics in amber-bearing areas. This paper describes a new depositional model for the Eocene amber-bearing formations in the Lublin region and indicates potential amber deposits in this region.

Słowa kluczowe

amber sedimentology palaeogeography Paleogen digital modelling SE Poland

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2024

Tom

Vol. 68, No. 3

Strony

art. no. 26

Opis fizyczny

Bibliogr. 106 poz., rys., wykr.

Twórcy

autor

Karnkowski Paweł H.

Karnkowski@uw.edu.pl

University of Warsaw, Faculty of Geology, Department of Georesources and Economic Geology, Żwirki i Wigury 93, 02-089 Warszawa, Poland

https://orcid.org/0000-0003-1168-3786

autor

Kasiński Jacek R.

Polish Geological Institute - National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland

https://orcid.org/0000-0002-9349-5051

autor

Słodkowska Barbara

Polish Geological Institute - National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland

https://orcid.org/0000-0003-3760-4935

autor

Czuryłowicz Krzysztof

University of Warsaw, Faculty of Geology, Department of Georesources and Economic Geology, Żwirki i Wigury 93, 02-089 Warszawa, Poland

https://orcid.org/0000-0002-3735-7236

autor

Żarski Marcin

Polish Geological Institute - National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland

https://orcid.org/0000-0002-0699-6561

Bibliografia

1. Akhmetiev, M.A., Beniamovski, V.N., 2006. The Paleocene and Eocene in the Russian part of West Eurasia. Stratigraphy and Geological Correlation, 14: 49-72; https://doi.org/10.1134/S0869593806010047
2. Barrier, E., Vrielynck, B., Brouillet, J.-F., Brunet, M.F., 2018. Paleotectonic Reconstruction of the Central Tethyan Realm. Tectonono-Sedimentary-Palinspastic maps from Late Permian to Pliocene. DARIUS Programme, Publisher: CCGM/CGMW, Paris; http://www.ccgm.org
3. Bohaty, S.M., Zachos, J.C., Florindo, F., Delaney, M.L., 2009.
4. Coupled greenhouse warming and deep sea acidification in the middle Eocene. Paleoceanography, 24: 1-16; https://doi.org/10.1029/2008PA001676
5. Bujakowska, K., Parecki, A., 2004. Geological documentation of the Górka Lubartowska amber deposit in category D (in Polish). Przedsiębiorstwo Geologiczne “Polgeol”, NAG PIG-PIB, 602/2005, Warszawa.
6. Buraczyński, J., Krzowski, Z., 1994. Middle Eocene in the Sołokija graben on Roztocze Upland (in Polish with English summary). Kwartalnik Geologiczny, 38: 739-753.
7. Czuryłowicz, K., 2014. Geological and depositional conditions of amber accumulations in Paleogene deposits in the Parczew and Lubartów region (in Polish). Ph.D. thessis, Archive of the Faculty of Geology, University of Warsaw.
8. Czuryłowicz, K., 2015. Geological and depositional conditions of amber accumulations in Paleogene deposits in the Parczew and Lubartów region. Spatial analyses in re source prospecting on the example of the Górka Lubartowska amber deposit (in Polish). In: First forum of educational license users of ArcGIS software at the University of Warsaw, Faculty of Geography and Regional Studies, University of Warsaw, conference materials (ed. J. Lechnio): 12-27.
9. Czuryłowicz, K., Sałaciński, R., 2010. Experimental modelling of amber deposition in the coastal zone of a sedimentary basin (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 439: 391-398.
10. Czuryłowicz, K., Lejzerowicz, A., Kowalczyk, S., Wysocka, A., 2014. The origin and depositional architecture of Paleogene quartz-glauconite sands in the Lubartów area, eastern Poland. Geological Quarterly, 58 (1): 125-144; https://doi.org/10.7306/gq.1137
11. Gedl, P., 2012. Reworked Eocene-Oligocene dinoflagellate cysts in the Miocene of the Carpathian Foredeep Basin: implications for Paleogene palaeogeography in SE Poland. Geological Quarterly, 56 (4): 853-868; https://doi.org/10.7306/gq.1059
12. Gedl, P., 2014. Eocene dinoflagellate cysts from the Sołokija Graben (Roztocze, SE Poland): biostratigraphy and palaeoenvironment. Geological Quarterly, 58 (4): 707-728; https://doi.org/10.7306/gq.1167
13. Gedl, P., Worobiec, E., 2020. Origin and timing of palaeovalleys in the Carpathian Foredeep basement (Sędziszow Małopolski-Rzeszow area; SE Poland) in the light of palynological studies. Marine and Petroleum Geology, 115, 104277; https://doi.org/10.1016/j.marpetgeo.2020.104277
14. Haq, B.U., Hardenbol, J., Vail, P.R., 1987. Chronology of fluctuating sea levels since the Triassic. Science, 235: 1156-1167; https://doi.org/10.1126/science.235.4793.1156
15. Haq, B.U., Hardenbol, J., Vail, P.R., 1988. Mesozoic and Cenozoic chronostratigraphy and cycles of sea-level change. SEPM Special Publication, 42: 71-108; https://doi.org/10.2110/pec.88.01.0071
16. Harasimiuk, M., Henkiel, A., 1981. Post-Cretaceous tectonics on the northern slope of the Meta-Carpathian Swell near Lublin (in Polish with English summary). Przegląd Geologiczny, 29: 571-573.
17. Hutchinson, D.K., Coxall, H.K., Lunt, D.J., Steinthorsdottir, M., de Boer, A.M., Baatsen, M., von der Heydt, A., Huber, M., Kennedy-Asser, A.T., Kunzmann, L., Ladant, J.-B., Lear, C.H., Moraweck, K., Pearson, P. N., Piga, E., Pound, M.J., Salzmann, U., Scher, H.D., Sijp, W.P., Śliwińska, K.K., Wilson, P.A., Zhang, Z., 2021. The Eocene-Oligocene transition: a review of marine and terrestrial proxy data, models and model-data comparl sons. Climate of the Past, 17: 269-315; https://doi.org/10.5194/cp-17-269-2021
18. Ivanova, A.V., Machulina, S.A., Zaitseva, L.B., 2012. Epochs of the formation of amber and its distribution in nature. Lithology and Mineral Resources, 47: 18-22; https://doi.org/10.1134/S0024490212010051
19. Jahn, A., 1956. Geomorphology and Quaternary history of Lublin Plateau (in Polish). Geographical Studies, 7: 1-493.
20. Jovane, L., Coccioni, R., Marsili, A., Acton, G., 2009. The late Eocene greenhouse-icehouse transition: observations from the Massignano global stratotype section and point (GSSP). GSASpecial Paper, 452: 149-168; https://doi.org/10.1130/2009.2452(10)
21. Jurys, L., Kasiński, J.R., Klich, J., Kramarska, R., Listkowski, W., Łazowski, L., Małka, A., Mucha, J., Nieć, M. (ed.), Sałaciński, R., Saternus, A., Urbański, P., Zieliński, K., 2010. Principles of exploration and documenting amber deposits - Methodical recommendations (in Polish). Ministerstwo Środowiska, Warszawa.
22. Karnkowski, P., 1989. Deltaic deposits of the Carpathian Foreland (in Polish with English summary). Przegląd Geologiczny, 37: 28-32.
23. Karnkowski, P., Głowacki, E., 1961. Geological structure of sub-Miocene sediments of the middle Carpathian Foreland (in Polish with English summary). Kwartalnik Geologiczny, 5: (2) 372-419.
24. Karnkowski, P.H., 2014. Review of Krzysztof Czuryłowicz's doctoral thesis entitled Geological and depositional conditions of amber accumulations in Paleogene deposits in the Parczew and Lubartów region (in Polish): 1-19. Archive of the Faculty of Geology, University of Warsaw.
25. Karnkowski, P.H., Kasiński, J.R., 2014. Paleogeography and architecture of Paleogene formations in the Lublin region (southeastern Poland) (in Polish). In: Challenges of Geology in the Lublin Region in the 21st Century (ed. W. Mizerski). 83rd Meeting of the Polish Geological Society, Polish Geological Institute.
26. Karnkowski, P.H., Ozimkowski, W., 2001. Structural evolution of the pre-Miocene basement in the Carpathian Foredeep (Kraków-Przemyśl region, SE Poland) (in Polish with English summary). Przegląd Geologiczny, 49: 431-436.
27. Kasiński, J.R., 2015. Amber Lublin region (in Polish). Academia, 41: 45-47.
28. Kasiński, J.R., 2016. Amber deposits of northern Lublin region: history of exploration, geological structure, perspectives (in Polish). In: Lublin Amber - Findings, Geology, Deposits, Perspectives: 68-93. State Higher Vocational School in Chełm. Ed. Stellarium, Kraków.
29. Kasiński, J.R., Kramarska, R., 2008. Sedimentary environment of amber-bearing association along the Polish-Russian Baltic coastline. Exkursionsführer und Veröffentlichungen für Gesellschaft für Geowissenschaften, 236: 46-57.
30. Kasiński, J.R., Słodkowska, B., 2014. Amber-bearing sediments of the Eocene eastern margin of the epicontinental North Sea Basin (in Polish). LXXXIII Scientific Congress of the Polish Geological Society 'Challenges of geology in the Lublin region,' Biała Podlaska, abstract: 23.
31. Kasiński, J.R., Tołkanowicz, E., 1999. Amber in the Northern Lublin Region - origin and occurrence. In: Investigations into Amber (eds. B. Kosmowska-Ceranowicz and H. Paner): 41-51. Muzeum Archeologiczne w Gdańsku.
32. Kasiński, J.R., Piwocki, M., Saternus, A., Tołkanowicz, E., Wojciechowski, A., 1997. Implementation of a geological project to determine the prospects for the occurrence of amber deposits in the Eocene formations of the Lublin region (in Polish). Państwowy Instytut Geologiczny, Centralne Archiwum Geologiczne, nr. 2529/99, Warszawa.
33. Kasiński, J.R., Oszczypko, N., Piwocki, M., 2008. Paleogene and Neogene (in Polish). In: Stratigraphic Table of Poland, Poland Beyond the Carpathian Mountains (ed. R. Wagner). Państwowy Instytut Geologiczny.
34. Kasiński, J.R., Słodkowska, B., Kramarska, R., 2018. Amber-bearing sediments of the Polish-Ukrainian border zone stratigraphic correlation. In: 25th International Symposium “Science and Art”, Gdańsk, Poland, 22-23.03.2018 (eds. E. Wagner-Wysiecka, J. Szwedo, E. Sontag, A. Sobecka, J. Czebreszuk, M. Cwaliński) Abstracts: 94-98.
35. Kasiński, J., Kramarska, R., Słodkowska, B., Sivkov, V., Piwocki, M., 2020. Paleocene and Eocene deposits on the eastern margin of the Gulf of Gdańsk (Yantarny P-1 borehole, Kaliningrad region, Russia). Geological Quarterly, 64 (1): 29-53; https://doi.org/10.7306/gq.1513
36. Kosmowska-Ceranowicz, B., 2012. Amber in Poland and in the world (in Polish with English summary). Wydawnictwo Uniwersytetu Warszawskiego, wyd. I.
37. Kosmowska-Ceranowicz, B., Leciejewicz, K., 2005. Amber deposits on the southern shore of the Eocene Sea. Amber: views, opinions. Materials from Amberif seminars 1994-2004 (in Polish with English summary) (eds. B. Kosmowska-Ceranowicz and W. Gierłowski): 32-36. International Amber Association.
38. Kosmowska-Ceranowicz, B., Popiołek, J., 1981. About amber deposits in Poland based on unpublished typescripts by Adam Chętnik from 1931-1938 (in Polish with English summary). Prace Muzeum Ziemi, 34: 3-29.
39. Kosmowska-Ceranowicz, B., Kociszewska-Musiał, G., Musiał, T., Miller, C., 1990. Amber-bearing Tertiary deposits in the vicinity of Parczew (in Polish with English summary). Prace Muzem Ziemi, 41: 21-25.
40. Kováč, M., Plašienka, D., Soták, J., Vojtko, R., Oszczypko, N., Less, G., Ćosović, V., Fügenschuh, B., Králiková, S., 2016. Paleogene palaeogeography and basin evolution of the Western Carpathians, Northern Pannonian domain and adjoining areas. Global and Planetary Change, 140: 9-27; https://doi.org/10.1016/j.gloplacha.2016.03.007
41. Knox, R., Bosch, A., Rasmussen, E.S., Heilmann-Clausen, C., Hiss M., de Lugt, I., Kasiński, J.R., King, C., Köthe, A., Słodkowska, B., Standke, G., Vanderberghe, N., 2010. Cenozoic. In: Pelroleum Geological Atlas of the Southern Permian Basin Area (eds. H. Doornenbal and A. Stevenson): 212-223. European Association of Geoscientists and Engineers Publications b.v., Houten.
42. Kramarska, R., 2006. Paleogene and Neogene of the southern Baltic Sea and its coastline (in Polish with English summary). Ph.D. thesis, Central Geological Archives of the State Geological Institute, nr. 866/2007
43. Kramarska, R., Kasiński, J.R., Sivkov, V., 2008. Paleogene amber in Poland and neighboring countries - geology, exploitation, prospects (in Polish with English summary). Górnictwo Odkrywkowe, 2-3: 97-110.
44. Kramarska, R., Kasiński, J.R., Słodkowska, B., 2020. Minerals of the jewelry industry (jewelry stones): amber, succinate (in Polish with English summary). In: Balance of Prospective Mineral Resources in Poland: 371-381. Warsaw.
45. Krijgsman, W., Palcu, D.V., Andreetto, F., Stoica, M Mandic, O., 2020. Changing seas in the late Miocene Northern Aegean: a Paratethyan approach to Mediterranean basin evolution. Earth-Science Reviews, 210, 103386; https://doi.org/10.1016/j.earscirev.2020.103386
46. Leszczyński, K., 2010. Lithofacies evolution of the Late Cretaceous Basin in the Polish Lowlands (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 443: 35-54.
47. Lukashina, N.P., 2010. The Southern Baltic Seas in the Paleogene according to the study of the foraminifera. Oceanology, 50: 386-396; https://doi.org/10.1134/S0001437010030082
48. Mazurek, A., 2018a. Geological documentation of the natural aggregate and amber deposit “Górka Lubartowska VIII” in category C1 in the location Górka Lubartowska, plot no. 739 and 740, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship (in Polish). CAG PIG, Warszawa nr. 4196/2018; G-57/1, Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin.
49. Mazurek, A., 2018b. Geological documentation of the natural aggregate and amber deposit “Górka Lubartowska-Leszkowice” in category C1 in the location Leszkowice, plot no. 1358 and Górka Lubartowska, plot no. 731, 732, 733, 734, 735. Ostrówek, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship (in Polish). CAG PIG, Warszawa nr. 4195/2018; G-58/1, Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin.
50. Mazurek, A., 2019a. Geological documentation of the deposit of natural aggregate and glauconite-bearing sediments “Brzeźnica Leśna” in category C1 and amber in category D in places Brzeźnica Leśna plot no. 1143 and 1163, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship (in Polish). Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin; CAG PIG, Warszawa nr. 7455/2019.
51. Mazurek, A., 2019b. Geological documentation of the deposit of natural aggregate and glauconito-bearing sediments “Górka Lubartowska IX” in category C1 and amber in category D, plot no. 826, 827, 828, 829, 830, 831, 1149 in the town of Górka Lubartowska, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship (in Polish). CAG PIG, Warszawa nr. 5536/2019; G-59/1, Marshal's Of-ice of the Lublin Voivodeship, Geological Archive in Lublin.
52. Mazurek, A., 2020a. Appendix No. 1 to the geological documentation of the “Górka Lubartowska VIII” natural aggregate and amber deposit in category C1, fields B and C, in the town Górka Lubartowska plot no. 738 and 741, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship (in Polish). CAG PIG, Warszawa nr. 6288/2020.
53. Mazurek, A., 2020b. Supplement No. 1 to the geological documentation of the natural aggregate and amber deposit “Górka Lubartowska-Leszkowice” in category C1, fields C, D and E, places. Górka Lubartowska, plot no. 727, 730, 736, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship. CAG PIG, Warszawa nr. 6291/2020.
54. Mazurek, A., 2021. Geological documentation of the deposit of sands, glauconite-bearing sediments and amber “Niedźwiada III”, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship. #N-49 (in Polish), Lublin Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin; CAG PIG, Warszawa nr. 3379/2021.
55. Melnichuk, V.G., Krynycka, M.V., 2018. Burshtyn Polissia (Amber of Polesie) (in Ukrainian). Natsionalnyy Universitet Vodnogo Gospodarstva ta Pryrodokorustovaniya, Rivne.
56. Miller, K.G., Wright, J.D., Katz, M.E., Wade, B.S., Browning, J.V, Cramer, B.S., Rosenthal, Y., 2009. Climate threshold at the Eocene-Oligocene transition: Antarctic ice sheet influence on ocean circulation. GSA Special Paper, 452: 169-178.
57. Mojski, J.E., Rzechowski, J., Woźny, E., 1966. Upper Eocene in Luszawa on the Wieprz River near Lubartów (in Polish with English summary). Przegląd Geologiczny, 14: 513-517.
58. Morawski, J., 1960. Characterization of sands from the littoral zone of the Lower Oligocene sea in the Lublin region (in Polish with English summary). Przegląd Geologiczny. 8: 628-633.
59. Moryc, W., 1992. Geological structure of Miocene substrate formations in Sędziszow-Rzeszów region and their prospects (in Polish with English summary). Nafta-Gaz, 48: 205-223.
60. Moryc, W., 1995. Terrestrial formations of Paleogene in the area of the Carpathian Foredeep (in Polish with English summary). Nafta-Gaz, 51: 181-195.
61. Moryc, W., 1997. The Lower Cretaceous in the pre-Miocene substratum of the southern part of the Carpathian Foredeep in Poland. Annales Societatis Geologorum Poloniae, 67: 287-296.
62. Myszka, R., 2018. Geological documentation of the deposit of sands and glauconites with amber in category C1 in locations. Niedźwiada, Lubartów Poviat, Lublin Voivodeship (in Polish). N-37/2, Lublin Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin; CAG PIG, Warszawa nr. 435/2019.
63. Natkaniec-Nowak, L., Dumańska-Słowik, M., Naglik, B., Melnychuk, V., Krynickaya, M. B., Smoliński, W., Ładoń, K., 2017. Depositional environment of Paleogene amber-bearing quartz-glauconite sands from Zdolbuniv (Rivne region, NW Ukraine): mineralogical and petrological evidences. Gospodarka Surowcami Mineralnymi, 33: 45-62.
64. Natkaniec-Nowak, L.H., Piestrzyński, A., Wagner, M., Heflik, W., Naglik, B., Paluch, J., Stach, P., 2019. Górka Lubartowska-Niedźwiada” deposit (E Poland) as a potential source of glauconite raw material. Gospodarka Surowcami Mineralnymi, 35: 5-30; https://doi.org/10.24425/gsm.2019.128522
65. Nieć, M., (eds.), 2010. Principles of exploration and documentation of amber deposits - methodical recommendations (in Polish with English summary). Ministerstwo Środowiska, Warszawa.
66. Nieć, M., Kramarska, R., Sałaciński, R., 2010. Prospects for the exploration of amber deposits in Poland (in Polish with English summary). Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energii Polskiej Akademii Nauk, 79: 345-362.
67. Oziembłowski, P., Karnkowski, P.H., 2008. Tectonic regionalization of Poland using the geological PITAKA database (in Polish with English summary). Przegląd Geologiczny, 56: 936-938.
68. Ozsvárt, P., Kocsis, L., Nyerges, A., Györi, O., Pálfy, J., 2016. The Eocene-Oligocene climate transition in the Central Paratethys. Palaeogeography, Palaeoclimatology, Palaeoecology, 459: 471-487; https://doi.org/10.1016/j.palaeo.2016.07.034
69. Palcu, D.V., Krijgsman, W., 2023. The dire straits of Paratethys: Gateways to the anoxic giant of Eurasia. Geological Society Special Publications, 523: 111-139; https://doi.org/10.1144/SP523-2021-73
70. Parecki, A., Bujakowska, K., 2004. Geological documentation of the “Górka Lubartowska” amber deposit in category D (in Polish). National Geological Archive nr. 609/2005. Warsaw.
71. Piwocki, M., 2002. Stratigraphy of amber-bearing deposits in northern Lublin region (in Polish with English summary). Przegląd Geologiczny, 50: 871-874.
72. Piwocki, M., 2004. Paleogene (in Polish). In: Geological Structure of Poland, Vol. I, Stratigraphy, Part 3a, Cenozoic, Paleogene, Neogene (eds. T.M. Peryt and M. Piwocki). Państwowy Instytut Geologiczny, Warszawa.
73. Połtowicz, S., 1998. Middle-Badenian submarine erosion in the Carpathian Foreland, exploratory implications (in Polish with English summary). Nafta-Gaz. 54: 209-215.
74. Połtowicz, S., 1999. Badenian olisthostromes and turbidity fans near Tarnów (middle Carpathian Foreland) (in Polish with English summary). Kwartalnik AGH Geologia, 25: 153-187.
75. Popov, S.V., Rögl, F., Rozanov, A.Y., Steininger, F.F., Shcherba, I.G., Kovac, M. (eds), 2004a. Lithological-paleogeographic maps of Paratethys - 10 maps Late Eocene to Pliocene. Courier Forschungs-Institut Senckenberg, 250: 1-46
76. Popov, S.V., Bugrova, E.M., Amitrov, O.V, Akhmetiev, M.A., Zaporozhets, N.I., Nikolaeva, I.A., Sychevskaja, E.K., Shcherba, I.G., 2004b. Biogeography of the Northern Peri-Tethys from the Late Eocene to the Early Miocene. Part 3. Late Oligocene-Early Miocene. Marine Basins. Paleontological Journal, 38: 653-716;https://repository.geologyscience.ru/handle/123456789/39388
77. Popov, S.V., Antipov, M.P., Zastrozhnov, A.S., Kurina, E.E., Pinchuk, T.N., 2010. Sea-level flucluations on the northern shelf of the Eastern Paratethys in the Oligocene-Neogene. Stratigraphy and Geological Correlation, 18: 200-224.
78. Popov, S.V., Rostovtseva, Y.V., Pinchuk, T.N., Patina, I.S., Goncharova, I.A., 2019. Oligocene to Neogene paleogeography and depositional environments of the Euxinian part of Paratethys in Crimean - Caucasian junction. Marine and Petroleum Geology, 103: 163-175; https://doi.org/10.1016/j.marpetgeo.2019.02.019
79. Pożaryska, K., 1977. Upper Eocene foraminifera of East Poland and their palaeogeographical meaning. Acta Palaeontologica Polonica, 22: 3-54.
80. Rasser, M.W., Harzhauser, M., Anistratenko, O.Y., Anistratenko, V.V., Belak, M., Berger, J.-P., Bianchini, G., Čičić, S., Ćosović, V., Doláková, N., Drobne, K., Filipescu, S., Gürs, K., Hladilová, Š., Hrvatović, H., Jelen, B., Kasiński, J.R., Kováč, M., Kralj, P., Marjanac, T., Márton, E., Mietto, P., Moro, A., Nagymarosy, A., Nebelsick, J.H., Nehyba, S., Ogorelec, A., Oszczypko, N., Pavelić, D., Pavlovec, R., Pavšič, J., Piwocki, M., Poljak, M., Pugliese, N., Redžepović, R., Rifelj, H., Roetzel, R., Skaberne, D., Sliva, L., Standke, G., Tunis, G., Vass, D., Wagreich, M., Wesselingh, F., 2008. Paleogene and Neogene. In: T.McCann (ed.): 1031-1139. The Geological Society London; https://doi.org/10.1144/cev2p.5
81. Sałaciński, R., Łazowski, L., 2008. Geological and deposit-related premises of amber occurrence in Poland and recognition of the geological conditions for its concentration (in Polish with English summary). Gospodarka Surowcami Mineralnymi. 24: 325-339.
82. Słodkowska, B., Kasiński, J.R., 2016a. Climatic and environmental conditions of the formation of Baltic amber deposits (in Polish with English summary). In: Amber of Lublin (ed. L. Gazda): 21-41. Kraków.
83. Słodkowska, B., Kasiński, J.R., 2016b. Climatic and environmental factors in the formation of Baltic amber (in Polish with English summary). In: Lublin Amber - findings, geology, deposits, prospects: 22-39. State Higher Vocational School in Chełm. Stellarium, Kraków.
84. Słodkowska, B., Kasiński, J.R., 2016c. Paleogene and Neogene - a time of dynamic climatic changes (in Polish with English summary). Przegląd Geologiczny, 64: 15-25.
85. Słodkowska, B., Kasiński, J.R., 2018. Am ber-bearing deposits of eastern margin of the Pre-North Sea epicontinental basin. 10th European Palaeobotany & Palynology Conference, 12-17.08.2018, UDC Dub l in, Program & Abstracts 0159: 113.
86. Słodkowska, B, Kramarska, R., Kasiński, J.R., 2013. The Eocene Climatic Optimum and the formation of the Baltic amber deposits. International Amber Researcher Symposium. Amber. Deposits Collections, The Market, Gdańsk, Poland, 22-23.03.2013: 28-32.
87. Słodkowska, B., Kasiński, J.R., Żarski, M., 2022. Stratigraphic and environmental conditions of the occurrence of amber-bearing deposits in the northern Lublin region (in Polish with English summary). Przegląd Geologiczny, 70: 50-60; https://doi.org/10.7306/2022.3
88. Schulz, H.M., Bechtel, A., Sachsenhofer, R.F., 2005. The birth of the Paratethys during the Early Oligocene: from Tethys to an ancient Black Sea analogue? Global and Planetary Change, 49: 163-176; https://doi.org/10.1016Zj.gloplacha.2005.07.001
89. Soták, J., 2010. Paleoenvironmental changes across the Eocene-Oligocene boundary: insights from the Central-Carpathian Paleogene Basin. Geologica Carpathica, 61: 393-418; https://doi .org/10.2478/v10096-010-0024-1
90. Strzelczyk, G., Danielewicz, B., 1990. Geological documentation in category C2 of the natural aggregate deposit (Quaternary building sands) along with the determination of the occurrence of amber in the Tertiary formations in the Górka Lubartowska area (in Polish). National Geological Archive nr. 484/92. Warszawa.
91. Szydeł, R., Gazda, L., 2020. Appendix No. 1 to the geological documentation of the “Niedźwiada II” deposit of glauconite sands and muds in category C1 and amber and phosphorites as co-occurring minerals and quartz sands as an accompanying mineral in category C1 (plot no. 517/2 according to the land register) according to the state of resources as of December 31, 2019, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship (in Polish). CAG PIG, Warszawa nr. 3436/2020.
92. Świdrowska, J., 2007. Cretaceous in the Lublin region - sedimentation and its tectonic conditions (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 422: 63-78.
93. Tutsky, V.O., 2005. Amber deposits in Ukraine and their use (in Polish with English summary). In: Materials from the “Amberif” seminars 1994-2004 (eds. B. Kosmowska-Ceranowicz and W. Gierlowski): 26-28, Gdańsk.
94. Tutsky, V.O., Stepanuk, L., 1999. Geologie und Mireralogie des Bernsteins von Klesov, Ukraine. In: Amber Investigations (eds. B. Kosmowska-Ceranowicz and H. Paner): 53-60. Muzeum Archeologiczne w Gdańsku, Gdańsk.
95. van der Boon, A., 2017. From Peri-Tethys to Paratethys: Basin restriction and anoxia in central Eurasia linked to volcanic belts in Iran. Doctoral Dissertation. Utrecht Studies in Earth Sciences, 142: 1-142.
96. van der Boon, A., van der Ploeg, R., Cramwinckel, M.J., Kuiper, K.F., Popov, S.V., Tabachnikova, I.P., Palcu, D.V., Krijgsman, W., 2019. Integrated stratigraphy of the Eocene-Oligocene deposits of the northern Caucasus (Belaya River, Russia): intermittent oxygen-depleted episodes in the Peri-Tethys and Paratethys. Palaeogeography, Palaeoclimatology, Palaeoecology, 536: 109395; https://doi.org/10.1016/j.palaeo.2019.109395
97. Walaszczyk, P., 2019. Spatial analysis (GIS) of Cretaceous deposits in the Warsaw-Lublin region (in Polish with English summary). Master's thesis, Archives of the Faculty of Geology, University of Warsaw.
98. Woźny, E., 1966a. Eocene from Siemień near Parczew (in Polish with English summary). Kwartalnik Geologiczny, 10 (4): 843-849.
99. Woźny, E., 1966b. Phosphorites and amber from Siemień near Parczew (in Polish with English summary). Przegląd Geologiczny, 14: 277-278.
100. Woźny, E., 1977. Pelecypods from the Upper Eocene of East Poland. Palaeontologia Polonica, 22: 93-112.
101. Wysocka, A., 2002. Clastic Badenian deposits and sedimentary environments of the Roztocze Hills across the Polish-Ukrainian border. Acta Geologica Polonica, 52: 535-561.
102. Zalewska, Z., 1971. Baltic amber and its deposits (in Polish). Wszechświat, 10: 261-265.
103. Zalewska, Z., 1974. Origin and stratigraphy of Baltic amber deposits (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 281: 139-173.
104. Zdanowski, A., Kielczyk, K., Paluch, J., Walczak, K., Bachman, Ł., 2017. Geological documentation of the deposit of feldspar-quartz sands and accompanying minerals - glauconite and amber “Górka Lubartowska-Niedźwiada”, Lubartów Poviat, Lublin Voivodeship (in Polish). CAG PIG, Warszawa nr. 3309/2017; G-56/3, Lublin Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin.
105. Zembek, W., Wójcik, L., 2022. Geological documentation of the “Niedźwiada Kolonia II” deposit of sands and glauconite-bearing sediments with amber, Niedźwiada Kolonia, Niedźwiada Commune, Lubartów Poviat, Lublin Voivodeship. CAG PIG, Warszawa nr. 7095/2022; N-50/1 Lublin Marshal's Office of the Lublin Voivodeship, Geological Archive in Lublin.
106. Żarski, M., Słodkowska, B., 2020. Documentation for the geological project for the drilling of three research boreholes: Niedźwiada PIG-2019, Leszkowice PIG-2019 and Górka Lubartowska PIG-2019 in Polish). Centralne Archiwum Geologiczne, Państwowy Instytut Geologiczny.

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Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2025).

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