Add to ORKGThe climatic transition between Eocene and Oligocene (EOT) is marked by the change from a greenhouse to an icehouse climatic mode that affects both the marine and terrestrial realms. Terrestrial ecosystems are more sensitive to climate changes but suffer from the lack of continuous records. Recently, the BRGM retrieved a 340 m-long core from the Rennes Basin, which includes a lacustrine sedimentary series that covers the EOT. In order to decipher the climatic evolution during the EOT and its impacts on ecosystems, we analyzed molecular biomarkers and their isotopic composition. Indices calculated from branched GDGT concentrations allowed us estimating the evolution of mean annual air temperature. The paleohydrological reconstruction relied ...
International audienceBiomes and climate reconstructions are based on variations of the pollen conte...
International audienceThe Paleocene-Eocene Thermal Maximum (PETM, 55.8 Ma, Aubry et al., 2007) is re...
International audienceAbstract. The Eocene-Oligocene Transition (EOT) marks the onset of the Antarct...
The climatic transition between Eocene and Oligocene (EOT) is marked by the change from a greenhouse...
International audienceA unique high resolution record of climate and vegetation changes during the E...
International audienceThe Eocene–Oligocene transition (EOT, ~34 Ma) is the largest global cooling of...
International audienceThe Eocene/Oligocene transition is one of the main climatic events to which mo...
The study of past climate changes on the terrestrial realm provides clues to understand the mechanis...
On behalf the CINERGY project, a 675m-long borehole was cored through the sedimentary column (405 m)...
International audienceThe Priabonian (38-33.9 Ma), is a critical period for the evolution of terrest...
The Eocene – Oligocene transition (EOT; ca. 34–33.5 Ma) is widely considered to be the biggest step ...
International audienceBiomes and climate reconstructions are based on variations of the pollen conte...
International audienceThe Paleocene-Eocene Thermal Maximum (PETM, 55.8 Ma, Aubry et al., 2007) is re...
International audienceAbstract. The Eocene-Oligocene Transition (EOT) marks the onset of the Antarct...
The climatic transition between Eocene and Oligocene (EOT) is marked by the change from a greenhouse...
International audienceA unique high resolution record of climate and vegetation changes during the E...
International audienceThe Eocene–Oligocene transition (EOT, ~34 Ma) is the largest global cooling of...
International audienceThe Eocene/Oligocene transition is one of the main climatic events to which mo...
The study of past climate changes on the terrestrial realm provides clues to understand the mechanis...
On behalf the CINERGY project, a 675m-long borehole was cored through the sedimentary column (405 m)...
International audienceThe Priabonian (38-33.9 Ma), is a critical period for the evolution of terrest...
The Eocene – Oligocene transition (EOT; ca. 34–33.5 Ma) is widely considered to be the biggest step ...
International audienceBiomes and climate reconstructions are based on variations of the pollen conte...
International audienceThe Paleocene-Eocene Thermal Maximum (PETM, 55.8 Ma, Aubry et al., 2007) is re...
International audienceAbstract. The Eocene-Oligocene Transition (EOT) marks the onset of the Antarct...