His scientific interests lie mostly in Paleontology, Fission track dating, Zircon, Tectonics and Geochemistry. His Sedimentary rock, Neogene, Penninic and Foreland basin study in the realm of Paleontology interacts with subjects such as Metamorphic core complex. His work deals with themes such as Siliciclastic, Cenozoic, Molasse, Paleogene and Greenschist, which intersect with Fission track dating.
His research in the fields of Thermochronology overlaps with other disciplines such as Population. His Tectonics research incorporates elements of Structural basin, Late Miocene and Window. His research in Geochemistry tackles topics such as Geomorphology which are related to areas like Shear zone.
István Dunkl spends much of his time researching Paleontology, Geochemistry, Fission track dating, Zircon and Thermochronology. His work in Cretaceous, Tectonics, Sedimentary rock, Paleogene and Late Miocene are all subfields of Paleontology research. His work carried out in the field of Tectonics brings together such families of science as Neogene and Window, Geomorphology.
In Fission track dating, István Dunkl works on issues like Nappe, which are connected to Flysch. His biological study spans a wide range of topics, including Andesite, Volcanic rock, Penninic, Mesozoic and Silicic. The various areas that István Dunkl examines in his Thermochronology study include Foreland basin and Fault.
István Dunkl focuses on Geochemistry, Paleontology, Thermochronology, Zircon and Provenance. His research investigates the link between Geochemistry and topics such as Magmatism that cross with problems in Plate tectonics, Extensional tectonics and Porphyritic. His work on Cretaceous, Tectonics, Late Miocene and Graben as part of general Paleontology research is frequently linked to High angle, bridging the gap between disciplines.
His study connects Fission track dating and Thermochronology. His studies deal with areas such as Cenozoic, Flysch, Permian, Basement and Carboniferous as well as Fission track dating. His Zircon research includes themes of Rhyolite and Basalt.
Geochemistry, Paleontology, Fission track dating, Zircon and Sedimentary rock are his primary areas of study. Metamorphic rock and Carbonate platform is closely connected to Ophiolite in his research, which is encompassed under the umbrella topic of Geochemistry. His work on Tectonics and Permian as part of general Paleontology research is often related to High angle, thus linking different fields of science.
His work on Continental margin, Stratigraphy and Molasse as part of general Tectonics study is frequently connected to Front, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. His work in Fission track dating tackles topics such as Cretaceous which are related to areas like Basement. The concepts of his Sedimentary rock study are interwoven with issues in Heavy mineral, Provenance and Siliciclastic.
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Trackkey: a windows program for calculation and graphical presentation of fission track data
Computers & Geosciences (2002)
Palinspastic reconstruction and topographic evolution of the Eastern Alps during late Tertiary tectonic extrusion
Wolfgang Frisch;Joachim Kuhlemann;István Dunkl;Achim Brügel.
Post-collisional orogen-parallel large-scale extension in the Eastern Alps
W Frisch;I Dunkl;J Kuhlemann.
Lithospheric structure of the Pannonian basin derived from seismic, gravity and geothermal data
Gábor Tari;Péter Dövényi;István Dunkl;Frank Horváth.
Geological Society, London, Special Publications (1999)
Assessing the sediment factory: The role of single grain analysis
Hilmar von Eynatten;István Dunkl.
Earth-Science Reviews (2012)
Post-collisional sediment budget history of the Alps:tectonic versus climatic control
J. Kuhlemann;W. Frisch;B. Székely;I. Dunkl.
International Journal of Earth Sciences (2002)
Late Cretaceous exhumation of the metamorphic Gleinalm dome, Eastern Alps: kinematics, cooling history and sedimentary response in a sinistral wrench corridor
Franz Neubauer;Franz Neubauer;R. David Dallmeyer;R. David Dallmeyer;Istvan Dunkl;Istvan Dunkl;Dieter Schirnik;Dieter Schirnik.
Peneplain formation in southern Tibet predates the India-Asia collision and plateau uplift
R. Hetzel;I. Dunkl;V. Haider;M. Strobl.
Quantifying tectonic versus erosive denudation by the sediment budget: the Miocene core complexes of the Alps
J. Kuhlemann;W. Frisch;I. Dunkl;B. Székely.
Zircon geochronology and geochemistry to constrain the youngest eruption events and magma evolution of the Mid-Miocene ignimbrite flare-up in the Pannonian Basin, eastern central Europe
Réka Lukács;Réka Lukács;Szabolcs Harangi;Olivier Bachmann;Marcel Guillong.
Contributions to Mineralogy and Petrology (2015)
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