Klaudia F. Kuiper spends much of her time researching Paleontology, Stage, Geologic time scale, Astrochronology and Cretaceous. Her Paleontology study combines topics from a wide range of disciplines, such as Mediterranean climate and Peninsula. Her Astrochronology research is multidisciplinary, incorporating elements of Canyon and Geochronology.
Her Geochronology research integrates issues from Tephra and Zircon. Klaudia F. Kuiper interconnects Gondwana and Continental margin in the investigation of issues within Cretaceous. The study incorporates disciplines such as Bolide and Radiometric dating in addition to Structural basin.
Klaudia F. Kuiper focuses on Paleontology, Structural basin, Geochronology, Geochemistry and Geologic time scale. Her study in Paleontology focuses on Neogene, Cretaceous, Sedimentary rock, Magnetostratigraphy and Biostratigraphy. In her study, Stratigraphy is inextricably linked to Chronology, which falls within the broad field of Structural basin.
Her Geochronology research is multidisciplinary, incorporating elements of Earth history, Canyon and Cenozoic. In the field of Geochemistry, her study on Rhyolite, Provenance and Volcano overlaps with subjects such as Yangtze river. Her research in Geologic time scale intersects with topics in Astrochronology and Paleogene.
Her main research concerns Paleontology, Geochemistry, Structural basin, Geochronology and Provenance. Paleontology and Earth's magnetic field are two areas of study in which Klaudia F. Kuiper engages in interdisciplinary research. The various areas that Klaudia F. Kuiper examines in her Structural basin study include Mediterranean climate, Flooding, Pleistocene and Scale.
She combines subjects such as Rhyolite, Volcano and Sea level with her study of Geochronology. Her Sea level research includes themes of Sedimentary depositional environment and Geologic time scale. Her Provenance course of study focuses on Sediment and Cenozoic, Tephra, Water cycle, Climate change and Orbital forcing.
Klaudia F. Kuiper mainly focuses on Paleontology, Sedimentary rock, Geochemistry, Marine transgression and Structural basin. Her Paleontology study frequently links to adjacent areas such as Surge. Her Sedimentary rock research incorporates elements of Biostratigraphy, Tectonic uplift, Magnetostratigraphy and Marl.
Her Geochemistry research also works with subjects such as
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Synchronizing Rock Clocks of Earth History
K. F. Kuiper;K. F. Kuiper;A. Deino;F. J. Hilgen;W. Krijgsman.
Time Scales of Critical Events Around the Cretaceous-Paleogene Boundary
Paul R. Renne;Paul R. Renne;Alan L. Deino;Frederik J. Hilgen;Klaudia F. Kuiper.
Homo erectus at Trinil on Java used shells for tool production and engraving
Josephine C. A. Joordens;Josephine C. A. Joordens;Francesco d’Errico;Francesco d’Errico;Frank P. Wesselingh;Stephen Munro;Stephen Munro.
Age of the Badenian salinity crisis; impact of Miocene climate variability on the circum-Mediterranean region
A. De Leeuw;Krzysztof Bukowski;W. Krijgsman;K. F. Kuiper.
Astronomical tuning as the basis for high resolution chronostratigraphy: the intricate history of the Messinian Salinity Crisis
F.J. Hilgen;K.F. Kuiper;W Krijgsman;E. Snel.
Newsletters on Stratigraphy (2007)
A Refined Astronomically Calibrated 40Ar/39Ar Age for Fish Canyon Sanidine
Tiffany A. Rivera;Michael Storey;Christian Zeeden;Frederik J. Hilgen.
Earth and Planetary Science Letters (2011)
Jurassic arc volcanism on Crimea (Ukraine): Implications for the paleo-subduction zone configuration of the Black Sea region
M.J.M. Meijers;M.J.M. Meijers;B. Vrouwe;D.J.J. van Hinsbergen;D.J.J. van Hinsbergen;K.F. Kuiper;K.F. Kuiper.
Evaluation of the astronomical time scale for the Paleocene and earliest Eocene
Frederik J. Hilgen;Klaudia F. Kuiper;Klaudia F. Kuiper;Lucas J. Lourens.
Earth and Planetary Science Letters (2010)
Stratigraphic continuity and fragmentary sedimentation: the success of cyclostratigraphy as part of integrated stratigraphy
Frederik J. Hilgen;Linda A. Hinnov;Hayfaa Abdul Aziz;Hemmo A. Abels.
Geological Society, London, Special Publications (2015)
The Global boundary Stratotype Section and Point (GSSP) of the Tortonian Stage (Upper Miocene) at Monte Dei Corvi
F. J. Hilgen;H. Abdul Aziz;D. Bice;S. Iaccarino.
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