Blaettler, Clara L. et al. (2011): Significant increases in global weathering during Oceanic Anoxic Events 1a and 2 indicated by calcium isotopes

Leg/Site/Hole:
ODP 143
ODP 143 866
Identifier:
2011-102554
georefid

10.1016/j.epsl.2011.06.029
doi

Creator:
Blaettler, Clara L.
University of Oxford, Department of Earth Sciences, Oxford, United Kingdom
author

Jenkyns, Hugh C.
author

Reynard, Linda M.
author

Henderson, Gideon M.
author

Identification:
Significant increases in global weathering during Oceanic Anoxic Events 1a and 2 indicated by calcium isotopes
2011
Earth and Planetary Science Letters
Elsevier, Amsterdam, Netherlands
309
1-2
77-88
Calcium-isotope ratios (delta (super 44/42) Ca) were measured in carbonate-rich sedimentary sections deposited during Oceanic Anoxic Events 1a (Early Aptian) and 2 (Cenomanian-Turonian). In sections from Resolution Guyot, Mid-Pacific Mountains; Coppitella, Italy; and the English Chalk at Eastbourne and South Ferriby, UK, a negative excursion in delta (super 44/42) Ca of approximately 0.20 ppm and approximately 0.10 ppm is observed for the two events. These delta (super 44/42) Ca excursions occur at the same stratigraphic level as the carbon-isotope excursions that define the events, but do not correlate with evidence for carbonate dissolution or lithological changes. Diagenetic and temperature effects on the calcium-isotope ratios can be discounted, leaving changes in global seawater composition as the most probable explanation for delta (super 44/42) Ca changes in four different carbonate sections. An oceanic box model with coupled strontium- and calcium-isotope systems indicates that a global weathering increase is likely to be the dominant driver of transient excursions in calcium-isotope ratios. The model suggests that contributions from hydrothermal activity and carbonate dissolution are too small and short-lived to affect the oceanic calcium reservoir measurably. A modelled increase in weathering flux, on the order of three times the modern flux, combined with increased hydrothermal activity due to formation of the Ontong-Java Plateau (OAE1a) and Caribbean Plateau (OAE2), can produce trends in both calcium and strontium isotopes that match the signals recorded in the carbonate sections. This study presents the first major-element record of a weathering response to Oceanic Anoxic Events.
English
Serial
Coverage:Geographic coordinates:
North:53.4200
West:-0.3000East: 174.1853
South:21.1957

Stratigraphy; alkaline earth metals; Ca-44/Ca-42; calcium; carbonates; Cenomanian; Chalk Aquifer; Coppitella Italy; Cretaceous; Eastbourne England; England; Europe; global; Great Britain; isotope ratios; isotopes; Italy; Leg 143; Lincolnshire England; marine sediments; Mesozoic; metals; Mid-Pacific Mountains; North Pacific; Ocean Drilling Program; oceanic anoxic events; ODP Site 866; Ontong Java Plateau; Pacific Ocean; paleoenvironment; Resolution Seamount; sediments; South Ferriby Quarry; Southern Europe; Turonian; United Kingdom; Upper Cretaceous; weathering; weathering rates; West Pacific; Western Europe; stable isotopes; radioactive isotopes;

.