The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes

Institut for Geovidenskab og Naturforvaltning

The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes

Publikation: Bidrag til tidsskrift › Konferenceabstrakt i tidsskrift › Forskning › fagfællebedømt

Standard

The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes. / Thibault, Nicolas Rudolph; Galbrun, Bruno ; Gardin, Silvia; Minoletti, Fabrice; LeCallonnec, Laurence.

I: Geophysical Research Abstracts, Bind 16, 8456, 2014.

Publikation: Bidrag til tidsskrift › Konferenceabstrakt i tidsskrift › Forskning › fagfællebedømt

Harvard

Thibault, NR, Galbrun, B, Gardin, S, Minoletti, F & LeCallonnec, L 2014, 'The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes', Geophysical Research Abstracts, bind 16, 8456.

APA

Thibault, N. R., Galbrun, B., Gardin, S., Minoletti, F., & LeCallonnec, L. (2014). The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes. Geophysical Research Abstracts, 16, [8456].

Vancouver

Thibault NR, Galbrun B, Gardin S, Minoletti F, LeCallonnec L. The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes. Geophysical Research Abstracts. 2014;16. 8456.

Author

Thibault, Nicolas Rudolph ; Galbrun, Bruno ; Gardin, Silvia ; Minoletti, Fabrice ; LeCallonnec, Laurence. / The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes. I: Geophysical Research Abstracts. 2014 ; Bind 16.

Bibtex

@article{17435644f7864ea5a0675f3d1ba040b8,

title = "The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes",

abstract = "An integrated study of magnetic mass susceptibility (MS), bulk stable isotopes and nannofossil paleoecological changes has been performed on the late Maastrichtian of the Elles section, central Tunisia, spanning the last 1.2 Myr of the Cretaceous. A cyclostratigraphic analysis of MS variations reveal the presence of Milankovitch and sub-Milankovitch frequencies. Orbital tuning is used to provide ages of important stratigraphic events, relative to the age of the Cretaceous-Paleogene boundary (K-PgB). Principal Component Analysis (PCA) performed on the nannofossil assemblage reveal two main factors, PCA1 and PCA2, which match changes in bulk Delta13C and Delta18O, respectively, and allow building a nannofossil fertility (NFI) and a nannofossil temperature index (NTI). The NTI, the variations in abundances of high-latitude taxa and the warm-water species Micula murus, and variations in bulk and foraminifer Delta18O point to a common paleoclimatic interpretation. Sea-surface paleotemperatures were mild and variable between 67.2 and 66.5 Ma with an enhanced cooling event between 66.7 and 66.5 Ma. The end-Maastrichtian greenhouse warming is recorded between 66.5 and 66.15 Ma. Cooling resumed between 66.15 and 66.05 Ma while the last 50 kyr of the Maastrichtian are marked by an additional warming event. An overall decrease in surface-water nutriency is indicated by the NFI and suggests that the concomitant decrease in bulk Delta13C was mainly due to a drop in overall plankton productivity. The previously published species richness of intermediate-dwelling planktic foraminifera parallels the trends in the NFI, indicating a direct link between the drop in surface-water nutriency and stressful environmental conditions within the nutricline. Nannofossil species richness is slightly lower during warming episodes. This suggests stressful conditions accompanying greenhouse warming pulses. However, nannofossil species richness remained on average very high across the last 1.2 Myr of the Cretaceous, indicating a relatively weak impact of Cretaceous Deccan volcanism on the nannoplankton community in the Elles section before their mass exctinction at the K-PgB.",

author = "Thibault, {Nicolas Rudolph} and Bruno Galbrun and Silvia Gardin and Fabrice Minoletti and Laurence LeCallonnec",

year = "2014",

language = "English",

volume = "16",

journal = "Geophysical Research Abstracts",

issn = "1607-7962",

publisher = "Copernicus GmbH",

note = "EGU General Assembly 2014 ; Conference date: 27-04-2014 Through 03-05-2014",

}

RIS

TY - ABST

T1 - The last 1.2 Myr of the Cretaceous in the southwestern Tethys (Elles, Tunisia): orbital calibration, climate change and calcareous nannofossil palaeoecological changes

AU - Thibault, Nicolas Rudolph

AU - Galbrun, Bruno

AU - Gardin, Silvia

AU - Minoletti, Fabrice

AU - LeCallonnec, Laurence

PY - 2014

Y1 - 2014

N2 - An integrated study of magnetic mass susceptibility (MS), bulk stable isotopes and nannofossil paleoecological changes has been performed on the late Maastrichtian of the Elles section, central Tunisia, spanning the last 1.2 Myr of the Cretaceous. A cyclostratigraphic analysis of MS variations reveal the presence of Milankovitch and sub-Milankovitch frequencies. Orbital tuning is used to provide ages of important stratigraphic events, relative to the age of the Cretaceous-Paleogene boundary (K-PgB). Principal Component Analysis (PCA) performed on the nannofossil assemblage reveal two main factors, PCA1 and PCA2, which match changes in bulk Delta13C and Delta18O, respectively, and allow building a nannofossil fertility (NFI) and a nannofossil temperature index (NTI). The NTI, the variations in abundances of high-latitude taxa and the warm-water species Micula murus, and variations in bulk and foraminifer Delta18O point to a common paleoclimatic interpretation. Sea-surface paleotemperatures were mild and variable between 67.2 and 66.5 Ma with an enhanced cooling event between 66.7 and 66.5 Ma. The end-Maastrichtian greenhouse warming is recorded between 66.5 and 66.15 Ma. Cooling resumed between 66.15 and 66.05 Ma while the last 50 kyr of the Maastrichtian are marked by an additional warming event. An overall decrease in surface-water nutriency is indicated by the NFI and suggests that the concomitant decrease in bulk Delta13C was mainly due to a drop in overall plankton productivity. The previously published species richness of intermediate-dwelling planktic foraminifera parallels the trends in the NFI, indicating a direct link between the drop in surface-water nutriency and stressful environmental conditions within the nutricline. Nannofossil species richness is slightly lower during warming episodes. This suggests stressful conditions accompanying greenhouse warming pulses. However, nannofossil species richness remained on average very high across the last 1.2 Myr of the Cretaceous, indicating a relatively weak impact of Cretaceous Deccan volcanism on the nannoplankton community in the Elles section before their mass exctinction at the K-PgB.

AB - An integrated study of magnetic mass susceptibility (MS), bulk stable isotopes and nannofossil paleoecological changes has been performed on the late Maastrichtian of the Elles section, central Tunisia, spanning the last 1.2 Myr of the Cretaceous. A cyclostratigraphic analysis of MS variations reveal the presence of Milankovitch and sub-Milankovitch frequencies. Orbital tuning is used to provide ages of important stratigraphic events, relative to the age of the Cretaceous-Paleogene boundary (K-PgB). Principal Component Analysis (PCA) performed on the nannofossil assemblage reveal two main factors, PCA1 and PCA2, which match changes in bulk Delta13C and Delta18O, respectively, and allow building a nannofossil fertility (NFI) and a nannofossil temperature index (NTI). The NTI, the variations in abundances of high-latitude taxa and the warm-water species Micula murus, and variations in bulk and foraminifer Delta18O point to a common paleoclimatic interpretation. Sea-surface paleotemperatures were mild and variable between 67.2 and 66.5 Ma with an enhanced cooling event between 66.7 and 66.5 Ma. The end-Maastrichtian greenhouse warming is recorded between 66.5 and 66.15 Ma. Cooling resumed between 66.15 and 66.05 Ma while the last 50 kyr of the Maastrichtian are marked by an additional warming event. An overall decrease in surface-water nutriency is indicated by the NFI and suggests that the concomitant decrease in bulk Delta13C was mainly due to a drop in overall plankton productivity. The previously published species richness of intermediate-dwelling planktic foraminifera parallels the trends in the NFI, indicating a direct link between the drop in surface-water nutriency and stressful environmental conditions within the nutricline. Nannofossil species richness is slightly lower during warming episodes. This suggests stressful conditions accompanying greenhouse warming pulses. However, nannofossil species richness remained on average very high across the last 1.2 Myr of the Cretaceous, indicating a relatively weak impact of Cretaceous Deccan volcanism on the nannoplankton community in the Elles section before their mass exctinction at the K-PgB.

M3 - Conference abstract in journal

VL - 16

JO - Geophysical Research Abstracts

JF - Geophysical Research Abstracts

SN - 1607-7962

M1 - 8456

T2 - EGU General Assembly 2014

Y2 - 27 April 2014 through 3 May 2014

ER -

ID: 140580703