(Table S1, S4) Campanian-Maastrichtian benthic foraminifera from ODP Hole 113-690C

During the latest Cretaceous cooling phase, a positive shift in benthic foraminiferal d18O values lasting about 1.5 Myr (71.5-70 Ma) can be observed at a global scale (Campanian-Maastrichtian Boundary Event, CMBE). This d18O excursion is interpreted as being influenced by a change in intermediate- t...

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Bibliographic Details
Main Authors:	Koch, Mirjam C, Friedrich, Oliver
Format:	Dataset
Language:	English
Published:	PANGAEA 2012
Subjects:	113-690C AGE Alabamina sp. Allomorphina cf. navarroana Allomorphina minuta Allomorphina sp. Allomorphina trochoides Angulogavelinella sp. Aragonia velascoensis Arenobulimina preslii Arenobulimina sp. Astacolus cretaceus Astacolus sp. Ataxophragmium rimosum Biedafranciszkina polonica Bolivina incrassata Bolivina sp. Bolivina witwickae Bolivinoides paleocenicus Bulimina sp. Buliminella cf. excavata Chrysalogonium tenuistriatum Cibicides cf. excavata Cibicidoides bembix Cibicidoides sp. Cibicidoides velascoensis Cibicidoides voltzianus Counting >125 µm fraction Cuneus minutus Cuneus trigona Dentalina sp. Dentalina sulcata DEPTH sediment/rock Dorothia oxycona Dorothia pupa DRILL Drilling/drill rig DSDP/ODP/IODP sample designation Ellipsodimorphina hrubieszowcensis Ellipsodimorphina sp. Ellipsodimorphina variabilis Ellipsoidella gracillima Ellipsoidella kugleri Ellipsoidella pleurostomelloides Ellipsoidella polonica Ellipsoidella sp. Ellipsoidella variabilis Epistominella alata Eponides beisseli Antarc* Antarctic Antarctica
Online Access:	https://doi.pangaea.de/10.1594/PANGAEA.825712 https://doi.org/10.1594/PANGAEA.825712

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Summary:	During the latest Cretaceous cooling phase, a positive shift in benthic foraminiferal d18O values lasting about 1.5 Myr (71.5-70 Ma) can be observed at a global scale (Campanian-Maastrichtian Boundary Event, CMBE). This d18O excursion is interpreted as being influenced by a change in intermediate- to deep-water circulation or by temporal build-up of Antarctic ice sheets. Here we test whether benthic foraminiferal assemblages from a southern high-latitudinal site near Antarctica (ODP Site 690) are influenced by the CMBE. If the d18O transition reflects a change in intermediate- to deep-water circulation from low-latitude to high-latitude water masses, then this change would result in cooler temperatures, higher oxygen concentration, and possibly lower organic-matter flux at the seafloor, resulting in a major benthic foraminiferal assemblage change. If, however, the d18O transition was mainly triggered by ice formation, no considerable compositional difference in benthic foraminiferal assemblages would be expected. Our data show a separation of the studied succession into two parts with distinctly different benthic foraminiferal assemblages. Species dominating the older part (73.0-70.5 Ma) tolerate less bottom water oxygenation and are typical components of low-latitude assemblages. In contrast, the younger part (70.0-68.0 Ma) is characterized by species that indicate well-oxygenated bottom waters and species common in high-latitude assemblages. We interpret the observed change in benthic foraminiferal assemblages toward a well-oxygenated environment to reflect the onset of a shift from low-latitude toward high-latitude dominated intermediate- to deep-water sources. This implies that a change in oceanic circulation was at least a major component of the CMBE.

(Table S1, S4) Campanian-Maastrichtian benthic foraminifera from ODP Hole 113-690C

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