Late Eocene to Early Miocene environments, vegetation and climate in Southeastern France documented by palynology

• Published in: Palaeogeography, palaeoclimatology, palaeoecology Vol. 659; p. 112625
• Main Authors: Suc, Jean-Pierre, Fauquette, Séverine, Popescu, Speranta-Maria, Melinte-Dobrinescu, Mihaela Carmen, Huet, Bastien, Sorrel, Philippe, Semmani, Nazim, Fournier, François, Bessedik, Mostefa, Zheng, Zhuo, Truc, Georges, Ferry, Serge, Rubino, Jean-Loup, Girard, Vincent, Séranne, Michel
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2025; Elsevier
• Subjects: climate; climate change; domain; Environmental Sciences; Eocene epoch; Eocene–Oligocene Transition; Ephedra; flora; France; Late Eocene–Early Miocene; Mediterranean Sea; Miocene epoch; Palaeoclimate; Palaeogeography; Palaeovegetation; paleoclimatology; paleoecology; Palynology; pollen; rain; Sciences of the Universe; SE France; shrublands; temperature; Tetraclinis; France; Mediterranean Sea; Late Eocene–Early Miocene; Palynology; Palaeogeography; Eocene–Oligocene Transition; SE France; Palaeoclimate; Palaeovegetation; Eocene-Oligocene Transition; Late Eocene-Early Miocene
• ISSN: 0031-0182; 1872-616X
• DOI: 10.1016/j.palaeo.2024.112625

The Eocene–Oligocene Transition (EOT) is crucial for understanding the climate evolution of the Earth but is poorly documented in the terrestrial domains. A pollen record from the early Priabonian to the late Aquitanian encompassing the EOT was produced for thirty-three locations in Southeastern France. Changes in lowland flora and vegetation were documented based on the shift from dense forests with tropical-subtropical plants to open shrublands rich in xeric plants, paving the way for the future Mediterranean landscapes. Cupressaceae, particularly Tetraclinis, and Ephedra, occupied a proeminent place in the newly structured vegetation. Palaeolimatic fluctuations were quantified using the Climatic Amplitude Method, revealing the fact that the EOT was mainly characterized by a decrease of 7–9 °C in winter temperatures and by an increase in overall temperature and rainfall seasonality. Using the climatostratigraphic approach further improved the regional chronostratigraphy. This climate change occurred during a period and in a region marked by an extensive geodynamic upheaval. This work documents the pathways of some influential marine incursions of the Mediterranean Sea earlier than is usually considered. Finally, the deposition of evaporites in lakes is interpreted as the result of a combination of different factors, including the entrance of marine waters in the terrestrial realm, a decrease in regional rainfall, a decrease in the supply of water by rivers and increased seasonality. Palaeoelevations of nearby mountains were also estimated using pollen grains transported from highlands and reconstructed palaeotemperature of the lowlands. [Display omitted] •The Eocene–Oligocene Transition was not a severe climatic event.•The Eocene–Oligocene Transition was marked by the onset of enhanced seasonality.•Open shrublands replaced Eocene forests and characterize the Oligocene vegetation.•Marine incursions are identified in Southeastern France since the Late Eocene.