The scientist’s investigation covers issues in Paleontology, Isotopes of carbon, Belemnites, Isotopes of oxygen and Cretaceous. The Paleontology study combines topics in areas such as Sea level and Paleoclimatology. His Isotopes of carbon research is multidisciplinary, incorporating elements of Ecology, Total organic carbon, Isotopic ratio, Radiocarbon dating and Bog.
His study brings together the fields of Phanerozoic and Belemnites. His studies deal with areas such as Ikaite, Arctic, Diagenesis, Pseudomorph and Petrography as well as Isotopes of oxygen. The concepts of his Cretaceous study are interwoven with issues in Westerlies, Glacial period, Biodiversity and Archipelago.
His primary scientific interests are in Paleontology, Cretaceous, Belemnites, Isotopes of carbon and Isotopes of oxygen. His research brings together the fields of Foraminifera and Paleontology. His Cretaceous research is multidisciplinary, relying on both Seawater, Oceanography, Arctic and Marl.
His Belemnites study integrates concerns from other disciplines, such as Isotope analysis, Bay, Petrography and Calcite. His Isotopes of carbon study combines topics in areas such as Total organic carbon, Carbon cycle, Paleoclimatology and Cretaceous Thermal Maximum. Gregory D. Price works mostly in the field of Isotopes of oxygen, limiting it down to topics relating to δ18O and, in certain cases, δ13C, as a part of the same area of interest.
Gregory D. Price mainly focuses on Paleontology, Cretaceous, Belemnites, Seawater and Structural basin. His study in Paleontology is interdisciplinary in nature, drawing from both Benthic zone and Arctic. His work deals with themes such as δ13C and Isotopes of carbon, which intersect with Arctic.
His Belemnites research integrates issues from Environmental chemistry and Polar amplification. His Seawater study combines topics from a wide range of disciplines, such as δ18O, Isotopes of oxygen and Calcite. His research in Isotopes of oxygen intersects with topics in Dissolved organic carbon and Bay.
His main research concerns Paleontology, Cretaceous, Isotopes of oxygen, High latitude and Duration. His studies link Ecological succession with Paleontology. The various areas that he examines in his Cretaceous study include Boreal, δ18O, Seawater, Oceanography and TEX86.
His Isotopes of oxygen research incorporates themes from Dissolved organic carbon and Mineralogy. He merges many fields, such as Duration and Magnitude, in his writings.
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The evidence and implications of polar ice during the Mesozoic
Gregory D Price.
Earth-Science Reviews (1999)
Isotopic evidence for Late Jurassic-Early Cretaceous climate change
Darren R Gröcke;Darren R Gröcke;Gregory D Price;Alastair H Ruffell;Jörg Mutterlose.
Palaeogeography, Palaeoclimatology, Palaeoecology (2003)
Purbeck–Wealden (early Cretaceous) climates
P. Allen;K.L. Alvin;J.E. Andrews;D.J. Batten.
PROCEEDINGS OF THE GEOLOGISTS ASSOCIATION , 109 pp. 197-236. (1998) (1998)
The Upper Valanginian (Early Cretaceous) positive carbon–isotope event recorded in terrestrial plants
Darren R. Gröcke;Gregory D. Price;Stuart A. Robinson;Evgenij Y. Baraboshkin.
Earth and Planetary Science Letters (2005)
An isotopic appraisal of the Late Jurassic greenhouse phase in the Russian Platform
Gregory D. Price;Mikhail A. Rogov.
Palaeogeography, Palaeoclimatology, Palaeoecology (2009)
Valanginian isotope variation in glendonites and belemnites from Arctic Svalbard: Transient glacial temperatures during the Cretaceous greenhouse
Gregory D. Price;Elizabeth V. Nunn.
Pennsylvanian-Early Triassic stratigraphy in the Alborz Mountains (Iran)
Maurizio Gaetani;Lucia Angiolini;Katsumi Ueno;Alda Nicora.
Geological Society, London, Special Publications (2009)
Isotopic signals from late Jurassic–early Cretaceous (Volgian–Valanginian) sub-Arctic belemnites, Yatria River, Western Siberia
G.D. Price;J. Mutterlose.
Journal of the Geological Society (2004)
Isotopic evidence for temperature variation during the early Cretaceous (late Ryazanian-mid-Hauterivian)
Gregory D. Price;Alastair H. Ruffell;Charles E. Jones;Robert M. Kalin.
Journal of the Geological Society (2000)
“Warm” palaeotemperatures from high Late Jurassic palaeolatitudes (Falkland Plateau): Ecological, environmental or diagenetic controls?
G.D. Price;B.W. Sellwood.
Palaeogeography, Palaeoclimatology, Palaeoecology (1997)
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