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Pacific 187 Os/188 Os isotope chemistry and U–Pb geochronology: synchroneity of global Os isotope change across OAE 2

Du Vivier, A.D.C.; Selby, D.; Condon, D.J.; Takashima, R.; Nishi, H.. 2015 Pacific 187 Os/188 Os isotope chemistry and U–Pb geochronology: synchroneity of global Os isotope change across OAE 2. Earth and Planetary Science Letters, 428. 204-216. 10.1016/j.epsl.2015.07.020

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Abstract/Summary

Studies of OAE 2 sections beyond the Atlantic Ocean, Western Interior Seaway (WIS) and European pelagic shelf are limited. Here, we present initial osmium isotope stratigraphy (187Os/188Os–OsiOsi) from two proto-Pacific sites that span the Cenomanian–Turonian boundary interval (CTBI): the Yezo Group (YG) section, Hokkaido, Japan, and the Great Valley Sequence (GVS), California, USA; to evaluate the 187Os/188Os seawater chemistry of the proto-Pacific. Additionally we combine new 206Pb/238U zircon CA-ID-TIMS geochronology from five volcanic tuff horizons of the Yezo Group section to test and facilitate inter-basinal integration with the WIS using radio-isotopically constrained age–depth models for both sections, and quantitatively constrain the absolute timing and duration of events across the CTBI. The YG shows an almost identical OsiOsi profile to that of the WIS, and very similar to that of other sites of the proto-Atlantic and European pelagic oceans (Turgeon and Creaser, 2008 and Du Vivier et al., 2014). The characteristics of the OsiOsi profile are radiogenic and heterogeneous (∼0.55–0.85) prior to the OAE 2, and synchronous with the inferred OAE 2 onset the OsiOsi abruptly become unradiogenic and remain relatively homogeneous (∼0.20–0.30) before showing a gradual return to more radiogenic View the MathML sourceOsi(∼0.70) throughout the middle to late OAE 2. A206A206Pb/238U zircon age of an interbedded tuff (HK017) in the adjacent horizon to the first unradiogenic OsiOsi value constrains the age of the OsiOsi inflection at 94.44±0.14 Ma94.44±0.14 Ma. This age, including uncertainty, agrees with the interpolated age of the same point in the OsiOsi profile (94.28±0.25 Ma94.28±0.25 Ma) in the only other dated OAE 2 section, the WIS; indicating a coeval shift in seawater chemistry associated with volcanism at the OAE 2 onset at the levels of temporal resolution (ca. 0.1 Myr). Further, prior to the onset of OAE 2 an enhanced radiogenic inflection in the OsiOsi profile of the YG is correlative, within uncertainty, with a similar trend in the WIS based on the U–Pb age–depth model. The interpolated ages, 94.78±0.12 Ma94.78±0.12 Ma and 94.66±0.25 Ma94.66±0.25 Ma for this OsiOsi inflection in the YG and WIS, respectively, indicate that palaeocirculation was sufficient to simultaneously influence transbasinal seawater chemistry. In contrast, the pre-OAE 2 OsiOsi profile for the GVS is disparate to that of the YG and those of the proto-Atlantic and European pelagic shelf locations. We interpret the pre OAE 2 heterogeneous OsiOsi values (0.30–0.95) to record a palaeobasin that was regionally influenced interchangeably by both unradiogenic (hydrothermal flux) and radiogenic (continental flux) Os. We conclude that the OsiOsi profiles from the proto-Pacific sections record both trends that are consistent globally (OAE 2 onset, syn and post OAE 2), but also show regional differences (pre OAE 2) between OAE 2 sections worldwide. As such the OsiOsi profiles coupled with U–Pb geochronology facilitate the correlation of OAE 2 stratigraphy, and demonstrate both regional and global ocean dynamics.

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1016/j.epsl.2015.07.020
ISSN: 0012821X
Date made live: 13 Oct 2015 09:50 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/512008

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