Kuroda, Junichiro et al. (2011): Lead isotopic record of Barremian-Aptian marine sediments; implications for large igneous provinces and the Aptian climatic crisis

Leg/Site/Hole:
ODP 198
ODP 198 1207
Identifier:
2011-070921
georefid

10.1016/j.epsl.2011.04.021
doi

Creator:
Kuroda, Junichiro
Japan Agency for Marine-Earth Science and Technology, Institute for Research on Earth Evolution, Yokosuka, Japan
author

Tanimizu, Masaharu
Kochi University, Japan
author

Hori, Rie S.
Ehime University, Japan
author

Suzuki, Katsuhiko
University of Tasmania, Australia
author

Ogawa, Nanako O.
Universita di Urbino, Italy
author

Tejada, Maria L. G.
Universita di Milano, Italy
author

Coffin, Millard F.
author

Coccioni, Rodolfo
author

Erba, Elisabetta
author

Ohkouchi, Naohiko
author

Identification:
Lead isotopic record of Barremian-Aptian marine sediments; implications for large igneous provinces and the Aptian climatic crisis
2011
Earth and Planetary Science Letters
Elsevier, Amsterdam, Netherlands
307
1-2
126-134
We present initial isotopic ratios of lead for Early Cretaceous (Barremian-Aptian) sections from Shatsky Rise (Pacific) and Gorgo a Cerbara (Italy). Our Pb isotopic data track an interval representing Oceanic Anoxic Event (OAE)-1a, which is characterized by quasi-global deposition of organic carbon-rich black shale. Pb isotopic compositions of sediments from Shatsky Rise decrease at the end of Barremian time, from radiogenic continental values to unradiogenic values, and subsequently remained less radiogenic until the end of early Aptian time. We explain the isotopic shift by a significant increase in supply rate of unradiogenic Pb, most likely due to massive volcanism. In contrast, the Pb isotopic compositions from the Italian section, which was situated at the western end of Tethys, are mostly identical to those of upper continental crust, showing no significant change in supply rate of unradiogenic Pb. The discrepancy between two sites is attributed to quiescent deep-submarine eruptions of Pacific large igneous provinces (LIPs) such as the Ontong Java Plateau (OJP), which severely limited dispersion of Pb-carrying particles out of the Pacific Ocean. Published Os isotopic data from the Italian section indicate two episodes of massive eruptions of OJP or contemporaneous Manihiki and Hikurangi plateaus starting from earliest Aptian time, slightly later than that indicated by the sedimentary Pb isotopic record from Shatsky Rise. Differences in isotopic variations between Pb and Os likely reflect differences in their chemical behaviors in the oceans, i.e., Pb isotopic compositions would have varied in response to local or regional changes in sediment provenances, whereas large-scale changes in Os inputs are required to explain variations in seawater Os isotopic compositions. Our Pb isotopic data, together with the published Os isotopic record, provide new evidence for the eruptive history of OJP together with contemporaneous Pacific plateaus and its environmental consequences, starting from end-Barremian time and extending through early Aptian time.
English
Serial
Coverage:Geographic coordinates:
North:43.4200
West:12.3400East: 162.4600
South:37.4700

Isotope geochemistry; Stratigraphy; Apennines; Aptian; Barremian; black shale; carbon; clastic rocks; climate; continental crust; Corgo a Cerbara section; correlation; Cretaceous; crust; Europe; isotopes; Italy; large igneous provinces; lead; Leg 198; Lower Cretaceous; Marches Italy; marine sediments; Mesozoic; metals; North Pacific; Northwest Pacific; Ocean Drilling Program; oceanic anoxic events; ODP Site 1207; Ontong Java Plateau; organic carbon; osmium; Pacific Ocean; paleoclimatology; paleoenvironment; paleogeography; platinum group; sedimentary rocks; sediments; Shatsky Rise; Southern Europe; Tethys; Umbria Italy; West Pacific;

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