Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events

© 2011 by the American Geophysical Union. The NBP0602A-3C SHALDRIL section collected in the Weddell Sea recovered a key stratigraphic interval that captured the response of plants and organic-walled phytoplankton during the first marked increase in d18O followed by the large reduction in atmospheric...

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Main Authors:	Warny, Sophie, Askin, Rosemary
Format:	Text
Language:	unknown
Published:	LSU Digital Commons 2013
Subjects:	Antarctic Peninsula Antarctica Eocene Oligocene Palynology SHALDRIL Antarctic The Antarctic Weddell Sea Weddell Seymour Seymour Island Antarc*
Online Access:	https://digitalcommons.lsu.edu/geo_pubs/1056 https://doi.org/10.1029/2010SP000965

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spelling	ftlouisianastuir:oai:digitalcommons.lsu.edu:geo_pubs-2055 2023-06-11T04:06:38+02:00 Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events Warny, Sophie Askin, Rosemary 2013-03-21T07:00:00Z https://digitalcommons.lsu.edu/geo_pubs/1056 https://doi.org/10.1029/2010SP000965 unknown LSU Digital Commons https://digitalcommons.lsu.edu/geo_pubs/1056 doi:10.1029/2010SP000965 Faculty Publications Antarctic Peninsula Antarctica Eocene Oligocene Palynology SHALDRIL text 2013 ftlouisianastuir https://doi.org/10.1029/2010SP000965 2023-05-28T18:17:27Z © 2011 by the American Geophysical Union. The NBP0602A-3C SHALDRIL section collected in the Weddell Sea recovered a key stratigraphic interval that captured the response of plants and organic-walled phytoplankton during the first marked increase in d18O followed by the large reduction in atmospheric CO2 in the late Eocene around 36 Ma. Well-preserved palynomorphs recovered from in situ shelf sediments provide evidence of a cooling event followed by a marked sea level drop around 36 Ma. Terrestrial palynomorphs indicate that at the time of deposition, southern beech-dominated and conifer forest vegetation was abundant but with lower diversity and signifying colder climates than for most of the La Meseta Formation on Seymour Island. The marine palynomorph assemblage is dominated by Vozzhennikovia apertura. This low-diversity, high-dominance dinoflagellate cyst assemblage is also a sign of deteriorating conditions. Particularly notable is the marked increase in the uppermost Eocene samples of reworked dinoflagellates and acritarchs of Cretaceous age. This suggests significant erosion and redeposition of nearby Campanian-Maastrichtian sections during a marked drop in sea level. Based on the biostratigraphy and a single isotopic date, it is likely that the cooling and subsequent lowering of sea level can be correlated to the brief spike in d18O-enriched values shown by the Zachos et al. (2001) curve in the Priabonian. According to Zachos et al. (2008), this event occurs at a time when lowest carbon dioxide atmospheric concentrations were between 600 and 980 ppmv, giving us some perspectives as to what could be expected when the current CO2 atmospheric concentration is at least doubled. Text Antarc* Antarctic Antarctic Peninsula Antarctica Seymour Island Weddell Sea LSU Digital Commons (Louisiana State University) Antarctic The Antarctic Antarctic Peninsula Weddell Sea Weddell Seymour ENVELOPE(-56.767,-56.767,-64.283,-64.283) Seymour Island ENVELOPE(-56.750,-56.750,-64.283,-64.283) 193 210
institution	Open Polar
collection	LSU Digital Commons (Louisiana State University)
op_collection_id	ftlouisianastuir
language	unknown
topic	Antarctic Peninsula Antarctica Eocene Oligocene Palynology SHALDRIL
spellingShingle	Antarctic Peninsula Antarctica Eocene Oligocene Palynology SHALDRIL Warny, Sophie Askin, Rosemary Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events
topic_facet	Antarctic Peninsula Antarctica Eocene Oligocene Palynology SHALDRIL
description	© 2011 by the American Geophysical Union. The NBP0602A-3C SHALDRIL section collected in the Weddell Sea recovered a key stratigraphic interval that captured the response of plants and organic-walled phytoplankton during the first marked increase in d18O followed by the large reduction in atmospheric CO2 in the late Eocene around 36 Ma. Well-preserved palynomorphs recovered from in situ shelf sediments provide evidence of a cooling event followed by a marked sea level drop around 36 Ma. Terrestrial palynomorphs indicate that at the time of deposition, southern beech-dominated and conifer forest vegetation was abundant but with lower diversity and signifying colder climates than for most of the La Meseta Formation on Seymour Island. The marine palynomorph assemblage is dominated by Vozzhennikovia apertura. This low-diversity, high-dominance dinoflagellate cyst assemblage is also a sign of deteriorating conditions. Particularly notable is the marked increase in the uppermost Eocene samples of reworked dinoflagellates and acritarchs of Cretaceous age. This suggests significant erosion and redeposition of nearby Campanian-Maastrichtian sections during a marked drop in sea level. Based on the biostratigraphy and a single isotopic date, it is likely that the cooling and subsequent lowering of sea level can be correlated to the brief spike in d18O-enriched values shown by the Zachos et al. (2001) curve in the Priabonian. According to Zachos et al. (2008), this event occurs at a time when lowest carbon dioxide atmospheric concentrations were between 600 and 980 ppmv, giving us some perspectives as to what could be expected when the current CO2 atmospheric concentration is at least doubled.
format	Text
author	Warny, Sophie Askin, Rosemary
author_facet	Warny, Sophie Askin, Rosemary
author_sort	Warny, Sophie
title	Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events
title_short	Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events
title_full	Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events
title_fullStr	Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events
title_full_unstemmed	Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events
title_sort	vegetation and organic-walled phytoplankton at the end of the antarctic greenhouse world: latest eocene cooling events
publisher	LSU Digital Commons
publishDate	2013
url	https://digitalcommons.lsu.edu/geo_pubs/1056 https://doi.org/10.1029/2010SP000965
long_lat	ENVELOPE(-56.767,-56.767,-64.283,-64.283) ENVELOPE(-56.750,-56.750,-64.283,-64.283)
geographic	Antarctic The Antarctic Antarctic Peninsula Weddell Sea Weddell Seymour Seymour Island
geographic_facet	Antarctic The Antarctic Antarctic Peninsula Weddell Sea Weddell Seymour Seymour Island
genre	Antarc* Antarctic Antarctic Peninsula Antarctica Seymour Island Weddell Sea
genre_facet	Antarc* Antarctic Antarctic Peninsula Antarctica Seymour Island Weddell Sea
op_source	Faculty Publications
op_relation	https://digitalcommons.lsu.edu/geo_pubs/1056 doi:10.1029/2010SP000965
op_doi	https://doi.org/10.1029/2010SP000965
container_start_page	193
op_container_end_page	210
_version_	1768378667961942016

Vegetation and Organic-Walled Phytoplankton at the End of the Antarctic Greenhouse World: Latest Eocene Cooling Events

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