Oxygen isotope stratigraphy and calcareous nannofossil biostratigraphy of the Lower Pleistocene in the Boso Peninsula, central Japan

Daisuke Kuwano; Yoshimi Kubota; Kanako Mantoku; Koji Kameo

doi:10.29041/strat.18.2.02

Oxygen isotope stratigraphy and calcareous nannofossil biostratigraphy of the Lower Pleistocene in the Boso Peninsula, central Japan

Stratigraphy ◽

10.29041/strat.18.2.02 ◽

2021 ◽

Vol 18 (2) ◽

Cited By ~ 1

Author(s):

Daisuke Kuwano ◽

Yoshimi Kubota ◽

Kanako Mantoku ◽

Koji Kameo

Keyword(s):

Oxygen Isotope ◽

Northwestern Pacific ◽

Calcareous Nannofossil ◽

Boso Peninsula ◽

Oxygen Isotope Stratigraphy ◽

Age Model ◽

Calcareous Nannofossil Biostratigraphy ◽

Isotope Stratigraphy ◽

Pacific Coast Of Japan ◽

Cyclic Changes

ABSTRACT: Oxygen isotope stratigraphy and calcareous nannofossil biostratigraphy in the upper part of the Kiwada Formation, which is part of the Kazusa Group in the Boso Peninsula in the central part of the Pacific coast of Japan, were examined to establish a high-resolution age model and estimate the age of the lower part of Pleistocene nannofossil biohorizons in the northwestern Pacific region. The new age model indicates that the upper part of the Kiwada Formation corresponds to Marine Isotope Stage (MIS) 41 through MIS 36. Two nannofossil biohorizons, the last occurrences of large forms of Gephyrocapsa (>5.5 micrometers) and Helicosphaera sellii,were recorded in the examined section. The LO of large Gephyrocapsa spp. coincides with the MIS 37/38 boundary which is 1241.2 plus or minus 0.4 ka. The LO of H. sellii is located in late MIS 40 and has a calculated age of 1291.4 plus or minus 1.4 ka. These biohorizons are traceable even though the LO of H. sellii is a diachronous event. Size variations of Gephyrocapsa from approximately 1250 ka are discussed and fluctuations of small size Gephyrocapsa could represent cyclic changes of the Kuroshio and Oyashio currents.

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Age Model and Oxygen Isotope Stratigraphy of Site ODP1202 in the Southern Okinaw a Trough, Northwestern Pacific

Terrestrial Atmospheric and Oceanic Sciences ◽

10.3319/tao.2005.16.1.1(ot) ◽

2005 ◽

Vol 16 (1) ◽

pp. 001 ◽

Cited By ~ 23

Author(s):

Kuo-Yen Wei ◽

Horng-Sheng Mii ◽

Chi-Yue Huang

Keyword(s):

Oxygen Isotope ◽

Northwestern Pacific ◽

Oxygen Isotope Stratigraphy ◽

Age Model ◽

Isotope Stratigraphy

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The lower Maastrichtian Hvidskud succession, Møns Klint, Denmark: calcareous nannofossil biostratigraphy, carbon isotope stratigraphy, and bulk and brachiopod oxygen isotopes.

Bulletin of the Geological Society of Denmark ◽

10.37570/bgsd-2014-62-05 ◽

2014 ◽

Vol 62 ◽

pp. 89-104

Author(s):

Mads Engholm Jelby ◽

Nicolas Thibault ◽

Finn Surlyk ◽

Clemens V. Ullmann ◽

Rikke Harlou ◽

...

Keyword(s):

Western Europe ◽

Stratigraphic Correlation ◽

Free World ◽

Calcareous Nannofossil ◽

Stratigraphic Framework ◽

Lower Maastrichtian ◽

Age Model ◽

Calcareous Nannofossil Biostratigraphy ◽

Isotope Stratigraphy ◽

North Western

A new calcareous nannofossil and δ13C stratigraphy is established for the chalk exposed in the lower Maastrichtian Hvidskud succession, Møns Klint, Denmark. It is based on 21 nannofossil samples and analysis of 82 stable isotope samples, allowing correlation with a previously established brachiopod zonation. The succession, which belongs to the brachiopod spinosa-subtilis to pulchellus-pulchellus zones, extends upwards from calcareous nannofossil subzone UC16ii to UC19ii and encompasses δ13C events M1+ to M2+. A new chronostratigraphic and geochronological age model is proposed based on correlation with the cored boreholes Stevns-1 (Denmark) and ODP Site 762C (Indian Ocean). Hvidskud encompasses the 405 kyr eccentricity cycles Ma40513 – Ma40511 within magnetochron C31r. A sedimentation rate of 5.0 cm kyr-1 can be inferred from correlation to geochronological tie-points in ODP 762C, suggesting an age of ~70.9 Ma for the base of the succession and a duration of >680 kyr for the investigated interval. The Hvidskud succession is well-exposed, easily accessible, and the new stratigraphic framework and precise age model suggest that it can be used as a key locality for stratigraphic correlation of the lower Maastrichtian in north-western Europe. Information on palaeo-seawater temperatures can be drawn from oxygen isotope records obtained from bulk rock samples and 24 micromorphic brachiopod specimens (Terebratulina faujasii). The brachiopod data show a clear diagenetic trend but point to an upper range of unaltered values between –0.4 and –0.6‰. Assuming a δ18O value of –1‰ for seawater in a Cretaceous ice-free world, this would indicate bottom water temperatures of 13.6 to 14.3°C of the Danish Chalk Sea (45°N) during the early Maastrichtian cooling.

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Distribution of the calcareous nannofossil Reticulofenestra asanoi within the Early-Middle Pleistocene transition in the Mediterranean Sea and Atlantic Ocean: correlation with magneto- and oxygen isotope stratigraphy

Geological Society London Special Publications ◽

10.1144/gsl.sp.2005.247.01.06 ◽

2005 ◽

Vol 247 (1) ◽

pp. 117-130 ◽

Cited By ~ 4

Author(s):

Viviana Reale ◽

Simonetta Monechi

Keyword(s):

Atlantic Ocean ◽

Mediterranean Sea ◽

Oxygen Isotope ◽

Middle Pleistocene ◽

Calcareous Nannofossil ◽

Oxygen Isotope Stratigraphy ◽

Middle Pleistocene Transition ◽

Isotope Stratigraphy ◽

The Mediterranean

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Carbon and Oxygen Isotope Stratigraphy of the Upper Maastrichtian, Zumaya, Spain: A Record of Oceanographic and Biologic Changes at the End of the Cretaceous Period

Palaios ◽

10.2307/3514464 ◽

1986 ◽

Vol 1 (1) ◽

pp. 87 ◽

Cited By ~ 34

Author(s):

Jeffrey F. Mount ◽

Stanley V. Margolis ◽

William Showers ◽

Peter Ward ◽

Eric Doehne

Keyword(s):

Oxygen Isotope ◽

Oxygen Isotope Stratigraphy ◽

Carbon And Oxygen Isotope ◽

Isotope Stratigraphy ◽

Cretaceous Period ◽

Upper Maastrichtian

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Calcareous nannofossil biostratigraphy of Eocene oil shales from central Jordan

GeoArabia ◽

10.2113/geoarabia1901117 ◽

2014 ◽

Vol 19 (1) ◽

pp. 117-140 ◽

Cited By ~ 3

Author(s):

Mohammad Alqudah ◽

Mohammad Ali Hussein ◽

Olaf G. Podlaha ◽

Sander van den Boorn ◽

Sadat Kolonic ◽

...

Keyword(s):

Middle Eocene ◽

Tectonic Setting ◽

Planktonic Foraminifera ◽

Calcareous Nannofossil ◽

Current Analysis ◽

Accommodation Space ◽

Central Jordan ◽

Age Model ◽

Calcareous Nannofossil Biostratigraphy ◽

Oil Shales

ABSTRACT Cretaceous and Paleogene marls, rich in total organic carbon, are widespread throughout Jordan and adjoining areas. Based on planktonic foraminifera these oil shales have been assigned a late Campanian–Paleocene age in previous studies. For the current analysis a total of 283 smear slides from five wells in central Jordan have been investigated for calcareous nannofossil biostratigraphy. Findings suggest a much more differentiated age model of the oil shales than previously proposed. The oil shales studied contain abundant calcareous nannofossil taxa of Eocene age along with varying abundances of Maastrichtian and Paleocene taxa. The encountered marker species Rhomboaster cuspis, Tribrachiatus bramlettei, Tribrachiatus orthostylus, Discoaster lodoensis, Coccolithus crassus, Discoaster sublodoensis, Nannotetrina quadrata, Reticulofenestra umbilicus and Chiasmolithus solitus, indicate an Early to Middle Eocene age, while the presence of Maastrichtian and Paleocene forms suggests major reworking. The presence of Cretaceous taxa reflects either subaerial erosive input from the hinterland or submarine reworking of Cretaceous strata within the basin. The highly variable amount of reworked material and associated deposition rates in the basin may represent changes in the tectonic setting during the Eocene. We propose that the high abundances of Cretaceous and Paleocene taxa reflect an increase in accommodation space by active graben flank movements. A dominance of Eocene taxa, on the other hand, indicates either periods of little accommodation space due to graben infill or inversion-type movements of the graben itself. In any case, the youngest Eocene and autochthonous taxa represent shallower or low topography graben phases.

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