Relevant bibliographies by topics / Pannonian region

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Pannonian region'

Author: Grafiati
Published: 5 June 2025
Last updated: 15 July 2025

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Journal articles on the topic "Pannonian region"

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Reich, Dieter, Thomas Barta, Karl-Georg Bernhardt, Werner Lazowski, Uwe Raabe, and Luise Schratt-Ehrendorfer. "Cyperus michelianus (Cyperaceae) in the Pannonian region, new for Burgenland." Neilreichia 10 (April 30, 2019): 155–69. https://doi.org/10.5281/zenodo.2630537.

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Distribution, ecology, habitats, phytosociology and threats of Cyperus michelianus are discussed with emphasis on the Pannonian region in Austria. New findings including the first record from Burgenland and known records from literature, herbaria and own observations from the Pannonian region are presented. A map illustrates the distribution of C. michelianus in the Austrian part of the Pannonian region.
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Fekete, G., G. Király, and Zs Molnár. "Delineation of the Pannonian vegetation region." Community Ecology 17, no. 1 (2016): 114–24. http://dx.doi.org/10.1556/168.2016.17.1.14.

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Slezák, Michal, Štefánia Farkašovská, and Richard Hrivnák. "Non-native plant species in alder-dominated forests in Slovakia: what does the regional- and the local-scale approach bring?" Folia Oecologica 47, no. 2 (2020): 100–108. http://dx.doi.org/10.2478/foecol-2020-0012.

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AbstractEuropean riparian forests are in general susceptible to plant invasions compared to other natural forest habitats. Their descriptive vegetation overviews with phytosociological affiliation contain detail insight into species composition patterns at various geographical scales, but quantitative assessment of the relationship between non-native plant richness and measured environmental variables is still scarce. We used two vegetation datasets of alder-dominated forests to analyse plant invasion patterns in the Pannonian and the Carpathian region of Slovakia. A large dataset of 918 vegetation plots was used at the regional scale, whereas 40 vegetation plots completed by ecological (mainly soil, climatic) predictors were used at the local scale in order to determine how they shape non-native species richness. We found significant differences (P < 0.05) between the Pannonian and the Carpathian region in the number of non-native vascular plants at both scales, with altitude being the most important predictor. Generalized Linear Models accounted for 56.6% and 59.6% of alien species richness data in the Pannonian and Carpathian region, respectively. Alien richness was affected by altitude and soil pH in the Pannonian region, but only by altitude in the Carpathian region.
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Kovács, Péter. "Emperor Avitus in Pannonia?" Acta Archaeologica Academiae Scientiarum Hungaricae 71, no. 2 (2020): 661–68. http://dx.doi.org/10.1556/072.2020.00019.

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In his paper the author examines the sources of the supposed Western Roman military expedition of Emperor Avitus in Pannonia in 455 that was thought to be the last Roman military action in the territory of the former Roman province. Analizing the sources, he comes to the conclusion that during his short reign, Avitus had no time to visit the province and his route (iter) mentioned by Sidonius Apollinaris must be identified with his journey from Arelate to Rome. The Roman military action in Pannonia can probably be identified with a short demonstrative campaign in the SW region of the dioecesis (i.e. Savia) or with a legation of the Pannonian Barbarians to the emperor in Northern Italy.
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Medic, Nenad, Dusan Sakulski, Djordje Cosic, and Mirjana Laban. "Homogenization of precipitation data in Pannonian region." Tehnika 69, no. 6 (2014): 1086–92. http://dx.doi.org/10.5937/tehnika1406086m.

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Katona, Gergely, Balázs Tóth, and Zsolt Bálint. "Notes on the nomenclature of Eublemma pannonica (Freyer, 1840): a rectification and a new subspecies name (Lepidoptera: Erebidae, Eublemminae)." Annales Musei historico-naturalis hungarici 112 (2020): 125–37. http://dx.doi.org/10.53019/annlsmushistnathung.2020.112.125.

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The erebid moth Eublemma pannonica (Freyer, 1840) is a distinctive species of the Pannonian region. The species-group name panonica Freyer, 1840 is an incorrect original spelling what needs a rectification. This spelling has been forgotten until its appearance in the catalogue compiled by Robert W. Poole in 1989 for noctuid names and it is again in use. The other original spelling pannonica Freyer, 1840 is the correct one, what was in general usage until 1989. On the basis of voluminous literature references these spellings are discussed. The name Eublemma panonica ronkayorum Fibiger, Zilli & Yela, 2010 is a junior homonym of Eublemma ronkayorum Fibiger & Hacker, 2002, therefore the replacement name, Eublemma pannonica ronkayi nomen novum is proposed for the junior taxon. With three figures.
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Katona, Gergely, Tóth Balázs, and Zsolt Bálint. "Notes on the nomenclature of Eublemma pannonica (Freyer, 1840): a rectification and a new subspecies name (Lepidoptera: Erebidae, Eublemminae)." Annales Musei historico-naturalis hungarici 112 (July 22, 2021): 125–37. https://doi.org/10.53019/AnnlsMusHistNatHung.2020.112.125.

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Abstract – The erebid moth Eublemma pannonica (Freyer, 1840) is a distinctive species of the Pannonian region. The species-group name panonica Freyer, 1840 is an incorrect original spelling what needs a rectification. This spelling has been forgotten until its appearance in the catalogue compiled by Robert W. Poole in 1989 for noctuid names and it is again in use. The other original spelling pannonica Freyer, 1840 is the correct one, what was in general usage until 1989. On the basis of voluminous literature references these spellings are discussed. The name Eublemma panonica ronkayorum Fibiger, Zilli & Yela, 2010 is a junior homonym of Eublemma ronkayorum Fibiger & Hacker, 2002, therefore the replacement name, Eublemma pannonica ronkayi nomen novum is proposed for the junior taxon. With three figures.
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Tóth, L., P. Mónus, T. Zsíros, and M. Kiszely. "Seismicity in the Pannonian Region – earthquake data." Stephan Mueller Special Publication Series 3 (2002): 9–28. http://dx.doi.org/10.5194/smsps-3-9-2002.

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Zajzon, Norbert, Béla Fehér, Sándor Szakáll, and Ferenc Kristály. "Mineralogical mosaics from the Carpathian–Pannonian region 4." Földtani Közlöny 151, no. 1 (2021): 27. http://dx.doi.org/10.23928/foldt.kozl.2021.151.1.27.

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This is the fourth paper presenting new mosaic-like mineralogical data from the Carpathian–Pannonian region. Data are arranged by countries and localities. Every section gives a description (including XRPD, EMPA and SEM-EDX results) of the minerals and a concise description of their parageneses. Every discussed mineral is first described from the given locality and in many times even from the whole region.From Hungary the following minerals are reported: freieslebenite and beaverite-(Cu) from the Rudabánya ore deposit, planerite–aheylite–faustite–turquoise solid-solution members from the Parádfürdő ore deposit.From Romania the following minerals are identified: conichalcite (with high Pb content, conichalcite–duftite solid solution), duftite and mottramite–duftite solid-solutions from the Băiţa Bihor ore deposit, pseudomalachite pseudomorph after azurite as well as vauquelinite from the Ocna de Fier ore deposit.From Slovakia the following minerals are described: axinite-(Fe) from the Maglovec diorite-porphyrite quarry, bultfonteinite from the Vechec andesite quarry and botallackite from the Dobšiná ore deposit.
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Neubauer, F., S. Cloetingh, C. Dinu, and V. Mocanu. "Tectonics of the Alpine-Carpathian-Pannonian region: introduction." Tectonophysics 272, no. 2-4 (1997): 93–96. http://dx.doi.org/10.1016/s0040-1951(96)00253-3.

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Dissertations / Theses on the topic "Pannonian region"

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Dando, Benjamin David Edward. "Seismological structure of the Carpathian-Pannonian region of central Europe." Thesis, University of Leeds, 2010. http://etheses.whiterose.ac.uk/1440/.

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The extensional Pannonian Basin is set within the convergent arc of the Alpine-Carpathian mountain system in central Europe. Various models have been proposed as mechanisms to drive extension within this collisional setting. As part of the Carpathian Basins Project(CBP), a temporary network of 56 broadband seismometers was deployed. With a further 44 permanent broadband seismometers, tomographic inversion of P and S-wave relative arrival-time residuals from teleseismic earthquakes, reveal the velocity structure of the mantle to a depth of 850 km throughout the Carpathian-Pannonian region. The tomographic models reduce the P-wave rms residual by 71% from 0.446 s to 0.130 s, and the S-wave rms residual by 59% from 1.513 s to 0.624 s. The effect of applying a deterministic crustal correction on the relative arrival-time residuals is tested using a crustal velocity model derived from previous crustal seismic experiments, but I show that the use of a station term parameter in the inversion provides a robust method of correcting for near-surface velocity variations in this experiment. At shallow sub-lithospheric depths several localised slower regions are imaged, which correlate with extensional depocentres and regional volcanics, and are interpreted as upwelling asthenosphere. Beneath the Eastern Alps, I image a high velocity structure, which continues east beneath the Pannonian Basin with depth and into the mantle transition zone (MTZ). The fast anomaly in the MTZ is distributed laterally as far as the Carpathians, the Dinarides and the Eastern Alps. The high velocity mantle material linking the structure beneath the Pannonian Basin with the Eastern Alps indicates a once continuous continental collision zone. Eastward extrusion from the Adria collision and detachment of the continental lithosphere beneath the Carpathians resulted in asthenospheric upwelling, which may have provided the driving force for extension of the Pannonian Basin.
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Pana, Dinu Ion. "Petrogenesis and tectonics of the basement rocks of the Apuseni Mountains, significance for the alpine tectonics of the carpathian-pannonian region." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape17/PQDD_0013/NQ34818.pdf.

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Grinc, Michal. "Lithospheric structure in Central Europe : integrated geophysical modelling." Phd thesis, Université Paris Sud - Paris XI, 2013. http://tel.archives-ouvertes.fr/tel-00921044.

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The main aim of this thesis is to gain new knowledge about the lithospherical structure and tectonics of the Carpathian-Pannonian Basin region. We applied three different methods: 1Dautomatic modelling, 2D integrated geophysical modelling and 3D inversion to achieve this goal.These methods are similar concerning the used databases but differ by used processing andinterpretation. At first we apply 1D automatic modelling to get a very first overview of thestudied region. Secondly, we apply 2D integrated modelling of the lithosphere which combines the interpretation of surface heat flow, geoid, gravity, and topography data in the Carpathian-Pannonian Basin region and surrounding areas. This approach is able to constrain the complicated lithospheric structures of the studied region better than interpreting each data set onits own. We present four 2D integrated models of the lithosphere in the Carpathian-PannonianBasin region and surrounding areas. Finally, based on the 3D Inversion algorithm, we present the geophysical models of the lithosphere in the Carpathian-Pannonian region. The algorithm returns the density structure of the lithosphere from joint inversion of free air gravity, geoid andtopography data based on a Bayesian approach. The models are based on different input data sets and constrained by different a priori data. Based on our modelling we cannot confirm theextreme thinning (less than 70 km) of the Pannonian Basin lithosphere proposed by other authors.On the other hand, the results show the increasing trend of the lithospherical thickness of theCarpathian Arc from the Western Carpathians toward the Eastern Carpathians which confirms theprevious theories about the propagation of subduction process. We got some controversial resultsin the area of the Southern Carpathians. The results based on 3D inversion show extremely thinlithosphere in the area; on the other hand, the results based on 2D integrated modelling do notsupport such thinning. However both methods indicate that it is probable that the MoesianPlatform is bend and underthrusted underneath the Southern Carpathians. The south-eastern edge of the Pannonian Basin based on 3D inversion shows unexpected and surprisingly thinlithosphere. Since the area is quite large, we could exclude an effect of flexure, therefore this area might be potentially interesting for further investigation.
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Books on the topic "Pannonian region"

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Panza, Giuliano F., Mircea Radulian, and Cezar-Ioan Trifu, eds. Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0.

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Vozár, Jozef. Variscan and Alpine terranes of the Circum-Pannonian region. Slovak Academy of Sciences, Geological Institute, 2010.

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Hajnóczy, Julius Gy. Pannónia római romjai. Műszaki Könyvkiadó, 1987.

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Theuer, Franz. Der Raub der Stephanskrone: Der Kampf der Luxemburger, Habsburger, Jagiellonen, Cillier und Hunyaden um die Vorherrschaft im pannonischen Raum. Edition Roetzer, 1994.

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Panza, Giuliano F., Mircea Radulian, and Czear-I. Trifu. Seismic Hazard of the Circum-Pannonian Region. Birkhauser Verlag, 2013.

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(Editor), Giuliano F. Panza, Mircea Radulian (Editor), and Cezar-Ioan Trifu (Editor), eds. Seismic Hazard of the Circum-Pannonian Region (Pageoph Topical Volumes). Birkhauser, 2000.

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(Editor), Giuliano F. Panza, Mircea Radulian (Editor), and Czear-I. Trifu (Editor), eds. Seismic Hazard of the Circum-Pannonian Region (Pageoph Topical Volumes). Birkhauser, 2000.

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Hungary's neighbors as kin-states: Political, scholarly and scientific relations between Hungary's neighbors and their respective minorities. Hungarian Academy of Sciences, Hungarian Science Abroad Presidential Committee, 2016.

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First Farmers of the Carpathian Basin: Changing Patterns in Subsistence, Ritual and Monumental Figurines. Oxbow Books, Limited, 2019.

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Le vie di Roma nella X Regio: Le strade per la Venetia, la Raetia, il Noricum, la Pannonia e l'Illyricum. 21mo secolo, 2022.

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Book chapters on the topic "Pannonian region"

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Panza, G. F., and F. Vaccari. "Introduction." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_1.

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Živčić, Mladen, Peter Suhadolc, and Franco Vaccari. "Seismic Zoning of Slovenia Based on Deterministic Hazard Computations." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_10.

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Markušić, S., P. Suhadolc, M. Herak, and F. Vaccari. "A Contribution to Seismic Hazard Assessment in Croatia from Deterministic Modeling." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_11.

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Bus, Zoltán, Gyözö Szeidovitz, and Franco Vaccari. "Synthetic Seismogram Based Deterministic Seismic Zoning for the Hungarian Part of the Pannonian Basin." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_12.

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Radulian, M., F. Vaccari, N. Mândrescu, G. F. Panza, and C. L. Moldoveanu. "Seismic Hazard of Romania: Deterministic Approach." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_13.

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Moldoveanu, C. L., Gh Marmureanu, G. F. Panza, and F. Vaccari. "Estimation of Site Effects in Bucharest Caused by the May 30–31, 1990, Vrancea Seismic Events." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_14.

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Marmureanu, Gh, D. Bratosin, and C. O. Cioflan. "The Dependence of Q with Seismic-induced Strains and Frequencies for Surface Layers from Resonant Columns." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_15.

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Meletti, Carlo, Etta Patacca, and Paolo Scandone. "Construction of a Seismotectonic Model: The Case of Italy." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_2.

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Poljak, Marijan, Mladen Živčić, and Polona Zupančič. "The Seismotectonic Characteristics of Slovenia." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_3.

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Radulian, M., N. Mândrescu, G. F. Panza, E. Popescu, and A. Utale. "Characterization of Seismogenic Zones of Romania." In Seismic Hazard of the Circum-Pannonian Region. Birkhäuser Basel, 2000. http://dx.doi.org/10.1007/978-3-0348-8415-0_4.

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Conference papers on the topic "Pannonian region"

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Bogicevic, Goran, Ivan Dulic, and Janko Sovilj. "3D Petroleum System Model of Southeastern Part of Pannonian Basin." In 2019 AAPG Europe Region Regional Conference: Paratethys Petroleum Systems Between Central Europe and the Caspian Region. American Association of Petroleum Geologists, 2019. http://dx.doi.org/10.1306/11306bogicevic2020.

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Cristea, Dragos. "Petroleum Systems and Reservoir Distribution Laws in the Pannonian Basin - Romanian Sector." In 2019 AAPG Europe Region Regional Conference: Paratethys Petroleum Systems Between Central Europe and the Caspian Region. American Association of Petroleum Geologists, 2019. http://dx.doi.org/10.1306/11305cristea2020.

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Bada, G., and L. Fodor. "Tertiary stress field evolution in the Pannonian Region - Data and models." In 58th EAEG Meeting. EAGE Publications BV, 1996. http://dx.doi.org/10.3997/2214-4609.201409146.

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Bartha, Attila, Attila Balázs, and Árpád Szalay. "New Insights into the Tectono-Stratigraphic Evolution and Hydrocarbon Systems of the Pannonian Basin: A 2D Basin Modeling Study*." In 2019 AAPG Europe Region Regional Conference: Paratethys Petroleum Systems Between Central Europe and the Caspian Region. American Association of Petroleum Geologists, 2019. http://dx.doi.org/10.1306/11349bartha2020.

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Botka, Dániel, Vivien Csoma, Michal Šujan, et al. "A Key Section for the Early Pannonian (Late Miocene) of the Transylvanian Basin (Romania): Integrated Stratigraphic Results from the Guşteriţa Clay Pit." In 2019 AAPG Europe Region Regional Conference: Paratethys Petroleum Systems Between Central Europe and the Caspian Region. American Association of Petroleum Geologists, 2019. http://dx.doi.org/10.1306/11329botka2020.

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Lemberkovics, Viktor, Edina Kissné Pável, Balázs Badics, and Katalin Lőrincz. "Petroleum System Analysis of Small Scale Miocene Troughs in the Pannonian Basin, Results of a 3D Basin Modeling Case Study from Southern Hungary." In 2019 AAPG Europe Region Regional Conference: Paratethys Petroleum Systems Between Central Europe and the Caspian Region. American Association of Petroleum Geologists, 2019. http://dx.doi.org/10.1306/30674lemberkovics2020.

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Mallarino, G., A. É. Csoma, K. Milota, A. Sóron, and Á. Szabó. "Pore Imaging of Late Miocene Calcareous Marl from the Pannonian Basin (Tótkomlós Member, Endrőd Formation) and Comparison with North America Productive Calcareous Marls." In 2019 AAPG Europe Region Regional Conference: Paratethys Petroleum Systems Between Central Europe and the Caspian Region. American Association of Petroleum Geologists, 2019. http://dx.doi.org/10.1306/51664mallarino2020.

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Stevanovic, J., N. Vukovic, D. Gross, et al. "Search for the Source Rocks in the Turija Oil Field Region (Se Pannonian Basin, Serbia)." In IMOG 2023. European Association of Geoscientists & Engineers, 2023. http://dx.doi.org/10.3997/2214-4609.202333175.

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Liptai, Nora, Thomas Lange, Levente Patkó, et al. "Infrared spectroscopy of amphibole lamellae in pyroxenes from mantle xenoliths of the Carpathian-Pannonian region." In Goldschmidt2021. European Association of Geochemistry, 2021. http://dx.doi.org/10.7185/gold2021.5706.

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Liptai, Nóra, Levente Patkó, Thomas Pieter Lange, et al. "Distribution of ‘water’ in the Lithospheric Mantle of the Carpathian-Pannonian Region and its Effect on Rheology." In Goldschmidt2020. Geochemical Society, 2020. http://dx.doi.org/10.46427/gold2020.1576.

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