Your search keyword '"Huret, Emilia"' showing total 3 results

1. Astronomical duration of polarity Chron C31r (Lower Maastrichtian): cyclostratigraphy of ODP Site 762 (Indian Ocean) and the Contessa Highway section (Gubbio, Italy).

Author

HUSSON, DOROTHEE, GALBRUN, BRUNO, THIBAULT, NICOLAS, GARDIN, SILVIA, HURET, EMILIA, and COCCIONI, RODOLFO

Subjects

CYCLOSTRATIGRAPHY, ASTRONOMY, SEDIMENTATION & deposition

Abstract

The duration of polarity Chron C31r is estimated with a cyclostratigraphic approach. Two sites are investigated: ODP Site 762 (Indian Ocean) and the Contessa Highway section (Gubbio, Italy). Cyclostratigraphic analysis is performed on greyscale variations (Site 762) and magnetic susceptibility variations (Contessa section). Both sites reveal an astronomical control of the sedimentation, highlighted by the identification of all the orbital periodicities. Cyclostratigraphic signals are tuned on 405 ka eccentricity cycles extracted from the La04 astronomical solution. In both sites, cycle counting gives an estimate of the duration of polarity Chron C31r of about 2.09 ± 0.03 Ma. [ABSTRACT FROM AUTHOR]

Published

2012

2. Astronomical calibration of the Toarcian Stage: Implications for sequence stratigraphy and duration of the early Toarcian OAE.

Author

Boulila, Slah, Galbrun, Bruno, Huret, Emilia, Hinnov, Linda A., Rouget, Isabelle, Gardin, Silvia, and Bartolini, Annachiara

Subjects

*CALIBRATION, *STRATIGRAPHIC geology, *ASTRONOMY, *SEQUENCE stratigraphy, *CARBON isotopes, *MAGNETIC susceptibility measurement

Abstract

Abstract: The Toarcian Oceanic Anoxic Event (T-OAE) of the early Jurassic period involves one of the largest perturbations of the carbon cycle in the past 250 Ma, recorded by a pronounced negative carbon-isotope excursion (CIE). Numerous studies have focused on potential causes of the T-OAE and CIE, but are hampered by an uncertain timescale. Here we present high-resolution ( ) magnetic susceptibility (MS) measurements from the marine marls of the Sancerre-Couy drill-core, southern Paris Basin, spanning the entire Toarcian Stage. The MS variations document a rich series of sub-Milankovitch to Milankovitch frequencies (precession, obliquity and eccentricity) with the periodic g2–g5 (405 kyr) and quasi-periodic g4–g3 ( Cenozoic mean periodicity) eccentricity terms being the most prominent. The MS-related g4–g3 variation reflects third-order eustatic sequences, and constrains the sequence stratigraphic framework of the Toarcian Stage. In addition, MS variations reveal a modulation of g2–g5 by g4–g3 eccentricity related cycles, suggesting that sea-level change was the main control on the deposition of the Toarcian Sancerre marls, in tune with the astro-climatic frequencies. The stable 405 kyr cyclicity constrains a minimum duration of the Toarcian Stage to , and the well documented CIE, associated with the T-OAE, to ∼300 to 500 kyr. The 405 kyr MS timescale calibrates the periodicity of the prominent high-frequency cycles that occur in the decreasing part of the CIE to 30 to 34 kyr, consistent with the Toarcian obliquity period predicted for an Earth experiencing sustained tidal dissipation. [Copyright &y& Elsevier]

Published

2014

3. Astronomical calibration of upper Campanian–Maastrichtian carbon isotope events and calcareous plankton biostratigraphy in the Indian Ocean (ODP Hole 762C): Implication for the age of the Campanian–Maastrichtian boundary

Author

Thibault, Nicolas, Husson, Dorothée, Harlou, Rikke, Gardin, Silvia, Galbrun, Bruno, Huret, Emilia, and Minoletti, Fabrice

Subjects

*ASTRONOMY, *CAMPANIAN-Maastrichtian boundary, *CARBON isotopes, *CORALLINE algae, *PLANKTON, *BIOSTRATIGRAPHY, *PALEOMAGNETISM

Abstract

Abstract: An integrated framework of magnetostratigraphy, calcareous microfossil bio-events, cyclostratigraphy and δ 13C stratigraphy is established for the upper Campanian–Maastrichtian of ODP Hole 762C (Exmouth Plateau, Northwestern Australian margin). Bulk-carbonate δ 13C events and nannofossil bio-events have been recorded and plotted against magnetostratigraphy, and provided absolute ages using the results of the cyclostratigraphic study and the recent astronomical calibration of the Maastrichtian. Thirteen carbon-isotope events and 40 nannofossil bio-events are recognized and calibrated with cyclostratigraphy, as well as 14 previously published foraminifer events, thus constituting a solid basis for large-scale correlations. Results show that this site is characterized by a nearly continuous sedimentation from the upper Campanian to the K-Pg boundary, except for a 500kyr gap in magnetochron C31n. Correlation of the age-calibrated δ 13C profile of ODP Hole 762C to the δ 13C profile of the Tercis les Bains section, Global Stratotype Section and Point of the Campanian–Maastrichtian boundary (CMB), allowed a precise recognition and dating of this stage boundary at 72.15±0.05Ma. This accounts for a total duration of 6.15±0.05Ma for the Maastrichtian stage. Correlation of the boundary level with northwest Germany shows that the CMB as defined at the GSSP is ~800kyr younger than the CMB as defined by Belemnite zonation in the Boreal realm. ODP Hole 762C is the first section to bear at the same time an excellent recovery of sediments throughout the upper Campanian–Maastrichtian, a precise and well-defined magnetostratigraphy, a high-resolution record of carbon isotope events and calcareous plankton biostratigraphy, and a cyclostratigraphic study tied to the La2010a astronomical solution. This section is thus proposed as an excellent reference for the upper Campanian–Maastrichtian in the Indian Ocean. [Copyright &y& Elsevier]

Published

2012