Nauki Ścisłe i Nauki o Ziemi

Acta Geologica Polonica

Opis

Acta Geologica Polonica publishes original papers on all aspects of geology. These papers must not have been published or submitted for publication elsewhere, in entirety or in part. The articles should be of moderate length (up to 80 manuscript pages). Longer manuscripts may be accepted but authors should consult the editor before submitting these.

Starting with 2012 you have free access to full texts of all published articles.

Acta Geologica Polonica is now (beginning with volume 54(1) for 2004) in the following Clarivate Analytics products: Science Citation Index-Expanded (SCIE), including the Web of Science, Current Contents/Physical, Chemical & Earth Sciences, ISI Alerting Services.

IMPACT FACTOR 2022: 1.1

CiteScore 2022: 2.1

SCImago Journal Rank (SJR) 2022: 0.477

Source Normalized Impact per Paper (SNIP) 2022: 0.613

Score of the Ministry of Science and Higher Education = 100

ISSN

ISSN 0001-5709

Wydawcy

Komitet Nauk Geologicznych PAN, Wydział Geologii UW

Editorial Team

Editor-in-Chief

Piotr Łuczyński, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Editors

Piotr Łuczyński, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Anna Żylińska, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Assistant Editors

Bogusław Bagiński, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Andrzej Konon, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Ewa Krogulec, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Editorial Board

Zdzisław Bełka, Isotope Laboratory, Adam Mickiewicz University, Krygowskiego Str. 10, PL-61-680 Poznań, Poland

Olaf Elicki, Geological Institute, TU Bergakademie Freiberg (Freiberg University), Bernhard-von-Cotta Str. 2, 09599 Freiberg, Germany

Jerzy Fedorowski, Institute of Geology, Adam Mickiewicz University, Krygowskiego Str. 12, PL-61-680 Poznań, Poland

Peter J. Harries, NC State University, 1020 Main Campus Drive, Raleigh, NC 27695-7102, United States

John W.M. Jagt, Natuurhistorisch Museum Maastricht, de Bosquetplein 6, NL-6211 KJ Maastricht, Netherlands

William James Kennedy, Oxford University, Museum of Natural History, Parks Road, OX1 3PW Oxford, United Kingdom

Jacek Matyszkiewicz, Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza Str. 30, PL-30-059 Kraków, Poland

Stanislaw Mazur, Institute of Geological Sciences, Polish Academy of Sciences, Senacka Str. 1, PL-31-002 Kraków, Poland

Jozef Michalik, Earth Science Institute, Slovak Academy of Sciences, Dúbravská cesta Str. 9, SK-840-05, Bratislava, Slovakia

Nestor Oszczypko, Institute of Geological Sciences, Jagiellonian University, Gronostajowa Str. 3a, PL-30-387 Kraków, Poland

Grzegorz Racki, Faculty of Earth Sciences, University of Silesia, Będzińska Str. 60, PL-41-200 Sosnowiec, Poland

Ewa Słaby, Institute of Geological Sciences, Polish Academy of Sciences, Twarda Str. 51/55, PL-00-818 Warszawa, Poland

Michał Szulczewski, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Susan Turner, Queensland Museum, 122 Gerler Rd., Hendra 4101, Queensland, Australia

Alfred Uchman, Institute of Geological Sciences, Jagiellonian University, Gronostajowa Str. 3a, PL-30-387 Kraków, Poland

Ireneusz Walaszczyk, Faculty of Geology, University of Warsaw, Żwirki i Wigury Str. 93, PL-02-089 Warszawa, Poland

Markus Wilmsen, Senckenberg Naturhistorische Sammlungen Dresden, Museum für Mineralogie und Geologie, Königsbrücker Landstr. 159, D-01109 Dresden, Germany

Andrzej Ryszard Żelaźniewicz, Institute of Geological Sciences, Polish Academy of Sciences, Podwale Str. 75, PL-50-449 Wrocław, Poland

Faculty of Geology,
University of Warsaw
Al. Zwirki i Wigury 93
02-089 Warszawa, Poland
Phone: +48-22-5540434
Fax: +48-22-5540001
e-mail: agp@uw.edu.pl

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Zawartość

Acta Geologica Polonica | 2024 | vol. 74 | No 1

1 On the status of Pecten burdigalensis Lamarck var. polonica Pusch, 1837 (Bivalvia: Pectinidae)

Barbara Studencka

Acta Geologica Polonica | 2024 | vol. 74 | No 1 | e1 | DOI: 10.24425/agp.2023.145630

Słowa kluczowe: Pectinidae Taxonomy Badenian (middle Miocene) Central Paratethys PuschCollection

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Abstrakt

The well-known Pleuronectia badensis Fontannes, 1882 (currently classified as Cristatopecten cristatus badense) is declared as a n omen protectum against the older synonym Pecten burdigalensis var. polonica Pusch, 1837 considered a nomen oblitum. It ranges from the early to the late Miocene (Burdigalian–Messinian) of the NE Atlantic and Mediterranean. In the Central Paratethys it appeared in the early Miocene (Karpatian, correlating with the latest Burdigalian) and became extinct in the middle Miocene (Late Badenian, correlating with the early Serravallian). In Poland – the northernmost part of Central Paratethys – the occurrence of this taxon is limited to the late Early Badenian (late Langhian).

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Autorzy i Afiliacje

Barbara Studencka

Polish Academy of Sciences Museum of the Earth in Warsaw, Al. Na Skarpie 20/26, 00-488 Warszawa

2 Cenozoic tectonic evolution of the main lignite-rich grabens in Poland. Part 1. Tectonic stages

Marek Widera

Acta Geologica Polonica | 2024 | vol. 74 | No 1 | e2 | DOI: 10.24425/agp.2023.148021

Słowa kluczowe: Peat-to-lignite compaction Decompaction Compactional subsidence Tectonicsubsidence Tectonic uplift

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Abstrakt

Understanding the Cenozoic tectonic evolution of grabens rich in lignite is important in the context of the accumulation of ~40–650 m of peat, as well as the exploitation of later formed lignite seams with a thickness of ~20–250 m. Six such areas were selected for a detailed palaeotectonic analysis: the Gostyń, Szamotuły, Legnica, Zittau, Lubstów, and Kleszczów grabens. During the analysis, borehole data were used, taking into account the compaction of peat at the transition to lignite, in order to reconstruct the magnitude of the total subsidence. This made it possible to distinguish between regional (covering areas also outside the grabens) and local (occurring only in the grabens) tectonic movements, and among the latter, tectonic and compactional subsidence. The hypothetical palaeosurface of the mires was reconstructed based on the lignite decompaction. As a result, it was possible to determine whether the examined peat/lignite seams underwent post-depositional uplift and/or subsidence. Between one (Gostyń Graben) and four (Zittau Basin and Kleszczów Graben) stages of tectonic subsidence were distinguished in the studied lignite-bearing areas. In the case of the Zittau Basin, as well as the Lubstów and Kleszczów grabens, post-depositional stages of tectonic uplift were also indicated. Like the boundaries of lithostratigraphic units, the successive stages of the Cenozoic tectonic development of the examined grabens are diachronic.

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Autorzy i Afiliacje

Marek Widera

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

3 Thin-and thick-skinned nappes of the southern slope of the Georgian Greater Caucasus: indicators of syn-collisional A-type subduction

Irakli Gamkrelidze , Kakha Koiava , Ferando Maisadze , Giorgi Chichua

Acta Geologica Polonica | 2024 | vol. 74 | No 1 | e3 | DOI: 10.24425/agp.2023.148028

Słowa kluczowe: Greater Caucasus Autochthon Allochthon Alpine tectonic shortening

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Abstrakt

In the region of the Caucasus considered herein two large structural complexes have been identified: an autochthone, including the Gagra-Java zone (GJZ) of the Greater Caucasus fold-and-thrust belt, the Kura foreland basin (KFB), and an allochthone consisting of the Utsera-Pavleuri, Alisisgori-Chinchvelta, Sadzeguri- Shakhvetila, Zhinvali-Pkhoveli nappes and Ksani-Arkala parautochthone. The nappes are established on the basis of paleogeographic reconstructions, structural data, as well as drilling and geophysical data. The leading mechanism for the nappe formation is the advancement to the north and the underthrusting of the autochthone under the Greater Caucasus (A-type subduction). The nappes were formed mainly in the Late Alpine time (Late Eocene–Early Pliocene) and include only the sedimentary cover of the Earth’s crust (thin-skinned nappes). However the basal detachment (décollement) of the nappes, according to seismic data, penetrates deeply and cuts the pre-Jurassic crystalline basement, and even the entire Earth’s crust representing thick-skinned deformation. The total horizontal displacement of the flysch nappes of the southern slope of the Greater Caucasus in their eastern (Kakhetian) part is 90–100 km. While, considering the folding of the entire Greater Caucasus, the total transverse shortening of the Earth‘s crust within its limits is equal to 190–200 km.

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Autorzy i Afiliacje

Irakli Gamkrelidze

Kakha Koiava

Ferando Maisadze

Giorgi Chichua

Alexandre Janelidze Institute of Geology, Ivane Javakhishvili Tbilisi State University,31 Politkovskaia St., 0186, Tbilisi, Georgia
National Agency for Oil and Gaz, 45 Kazbegi av., 0177, Tbilisi, Georgia

4 Martes wenzensis Stach, 1959 within the early history of the genus Martes Pinel, 1792

Adrian Marciszak , Grzegorz Lipecki , Nikolai Spassov

Acta Geologica Polonica | 2024 | vol. 74 | No 1 | e4 | DOI: 10.24425/agp.2023.148027

Słowa kluczowe: Martes evolution Dentition Lineage Pliocene Pleistocene

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Abstrakt

Martes wenzensis Stach, 1959 is the only European Pliocene marten and possible ancestor of an evolutionary lineage leading through Martes vetus Kretzoi, 1942 to Martes martes Linnæus, 1758. Its occurrence ranged between c. 3.6–2.2 Ma and its presence is recorded herein from four sites: three Polish and one Bulgarian (Varshets). The oldest record from Węże 1, dated to 3.6–3.2 Ma, is also the most abundant and the type locality for this species. Only isolated teeth came from two other Polish sites, Węże 2 and Rębielice Królewskie 1A, dated to 2.5–2.2 Ma. The visceocranium from Varshets (c. 2.5 Ma) shows intermediate features between the type specimen from Węże 1 and the Early Pleistocene M. vetus, its possible descendant. The palaeontological records corroborate well with molecular data. The comparison of marten crania from Węże 1 and Varshets shows decrease in size and massiveness of teeth during the evolution of the species. Martes wenzensis shows an admixture of features inherent to M. vetus, M. martes, and M. foina Erxleben, 1777. The species resembles more M. vetus and M. martes than M. foina. It is described as a large, robust marten, with a flat forehead, short and broad viscerocranium, wide snout, robust canines, elongated and narrow premolars and enlarged carnassials.

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Autorzy i Afiliacje

Adrian Marciszak

e-mail:

ORCID:

Grzegorz Lipecki

e-mail:

ORCID:

Nikolai Spassov

e-mail:

ORCID:

Department of Palaeozoology, University of Wrocław, Sienkiewicza 21, 50-335 Wrocław, Poland
Institute of Systematics and Evolution of Animals, Polish Academy of Sciences, Sławkowska 17,31-016 Kraków, Poland
National Museum of Natural History, Bulgarian Academy of Sciences, Tzar Osvoboditel 1, 1000 Sofia,Bulgaria

5 A new clupeoid genus from the Oligocene of Central Paratethys (Menilite Formation, Poland)

Mateusz Granica , Małgorzata Bieńkowska-Wasiluk , Marcin Pałdyna

Acta Geologica Polonica | 2024 | vol. 74 | No 1 | e5 | DOI: 10.24425/agp.2023.148029

Słowa kluczowe: Clupeiformes Beksinskiella gen. nov. Paratethys Oligocene Menilite Formation Poland

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Abstrakt

The Suborder Clupeoidei Bleeker, 1859 comprises mostly marine fishes, which form large schools feeding on plankton. The fossil record of the suborder in the Late Paleogene reveals that clupeoids were abundant in the Western, Central, as well as Eastern Paratethys. Clupeoid descriptions from the Polish Outer Carpathians (SE Poland, Central Paratethys) remain incomplete due to usage of ‘collective species’, taxonomical inaccuracies, and lack of clear links between extinct and extant representatives. In this paper we present a new clupeoid, † Beksinskiella gen. nov., from the Oligocene of the Outer Carpathians, Poland. The new genus encompasses the nominal species † Maicopiella longimana (Heckel, 1850). † Beksinskiella gen. nov. has a unique combination of characters (skull roof with frontoparietal striae; smooth opercle; 6–7 branchiostegal rays; 42–48 vertebrae; dorsal and anal fins with 21–23 rays; the last two rays of the anal fin being elongated, and the presence of a complete series of abdominal scutes with the postpelvic ones poorly developed), supporting recognition of a new genus of the Suborder Clupeoidei. Similarities and differences between fossil and extant genera of Cluepoidei are discussed to shed light on their relationship.

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Autorzy i Afiliacje

Mateusz Granica

Małgorzata Bieńkowska-Wasiluk

Marcin Pałdyna

University of Warsaw, Faculty of Geology, Żwirki i Wigury 93, 02-089 Warszawa, Poland

6 Upper Cretaceous contourites from northwestern Poland in the vicinity of the Szamotuły salt diapir

Aleksandra Stachowska , Piotr Krzywiec

Acta Geologica Polonica | 2024 | vol. 74 | No 1 | e6 | DOI: 10.24425/agp.2023.148030

Słowa kluczowe: Contourites Late Cretaceous Polish Basin inversion Salt tectonics

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Abstrakt

This paper presents the results of seismostratigraphic interpretation of the Upper Cretaceous sedimentary succession preserved within two synclines flanking the Szamotuły diapir in northwestern Poland. This succession is characterized by a complex Santonian–Campanian internal geometry characteristic of contourites – that is, deposits formed by contour (bottom) currents. The aim of the present paper is to document these contourites using 2D seismic reflection profiles calibrated by the Obrzycko 1 well. The contourite drifts in the immediate vicinity of the Szamotuły structure exhibit elongated mounded shapes, with adjacent concave moats. At greater distances from the diapir, gradual aggradational patterns are observed. The formation of these Santonian– Campanian contourites was associated with growth of the Szamotuły diapir during regional compression and Polish Basin inversion. These contour currents and associated contourites formed an integral part of a regional axial depositional system developed within the flanks of the Mid-Polish Anticlinorium. Furthermore, this paper discusses the potential role of contourites as palaeomorphological indicators of palaeoslopes in varied geodynamics settings, such as inverting sedimentary basins, as opposed to the passive margins upon which they have been most commonly documented.

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Autorzy i Afiliacje

Aleksandra Stachowska

Piotr Krzywiec

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