Quantification of the spatial enhancement of ocean anoxia during OAE2 and T-OAE using Mo and U isotope signatures

Author(s): Montoya-Pino, C.; Weyer, S.; Anbar, A. D.; van de Schootbruggie, B.; Oschmann, W.; Pross, J.; Arz, H. W.
Author Affiliation(s): Primary:
Goethe Universitat, Institut für Geowissenschaften, Frankfurt, Germany
Universität Köln, Germany
Arizona State University, United States
Deutsches GeoForchungsZentrum, Germany
Volume Title: IODP-ICDP Kolloquium 2010
Source: p.100-103; IODP-ICDP Kolloquium 2010, Frankfurt, Germany, March 9-11, 2010. Publisher: Deutsche Forschungsgemeinschaft, Bonn, Germany
Note: In English. 15 refs.; illus.
Year of Publication: 2010
Research Program: ODP Ocean Drilling Program
Key Words: 02 Geochemistry; 12 Stratigraphy, Historical Geology and Paleoecology; Actinides; Anaerobic environment; Atlantic Ocean; Black Sea; Black shale; Case studies; Cenomanian; Chemical ratios; Clastic rocks; Cretaceous; Demerara Rise; East Mediterranean; Eh; Equatorial Atlantic; Europe; Geochemistry; Global; Isotope fractionation; Isotope ratios; Isotopes; Jurassic; Leg 207; Lower Jurassic; Marine environment; Mediterranean Sea; Mesozoic; Metals; Mo-97/Mo-95; Modern analogs; Molybdenum; North Atlantic; Northwest Atlantic; ODP Site 1261; Ocean Drilling Program; Oceanic anoxic events; Organic compounds; Paleoenvironment; Radioactive isotopes; Sapropel; Sedimentary rocks; Stable isotopes; Toarcian; Trace metals; Turonian; U-238/U-235; Upper Cretaceous; Upper Liassic; Uranium; West Atlantic
Coordinates: N090300 N090300 W0541900 W0541900
Record ID: 2012006430
Copyright Information: GeoRef, Copyright 2019 American Geosciences Institute.