Environmental and climate changes in Antarctica in the Geological Past

In the Cretaceous time, Antarctica was characterized by subtropical and tropical climate. The Early Eocene was warmest in the Antarctic history but this Climatic Optimum terminated with a long-term cooling trend that culminated in continental-scale glaciation of Antarctica at about 34 Ma ago. There...

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Bibliographic Details
Published in:Ice and Snow
Main Authors: G. Leitchenkov L., Г. Лейченков Л.
Format: Article in Journal/Newspaper
Language:Russian
Published: IGRAS 2015
Subjects:
Antarctica;climate change;environment;geological and geophysical data;ice sheet
Антарктида;геолого-геофизические данные;изменение климата;ледниковый покров;природная среда
Antarctic
The Antarctic
Wilkes Land
D'Urville Sea
Cooperation Sea
Annals of Glaciology
Antarc*
Antarctic Science
Antarctica
Ice Sheet
Polar Research
The Cryosphere
Антарктида
Online Access:https://ice-snow.igras.ru/jour/article/view/74
https://doi.org/10.15356/2076-6734-2014-4-107-116
Description
Summary:In the Cretaceous time, Antarctica was characterized by subtropical and tropical climate. The Early Eocene was warmest in the Antarctic history but this Climatic Optimum terminated with a long-term cooling trend that culminated in continental-scale glaciation of Antarctica at about 34 Ma ago. There is indirect evidence that small ice caps developed within central Antarctica in the Late Eocene (42−34 Ma). From the Early Oligocene to the Middle Miocene (34−13 Ma) ice sheet was wet-based and fluctuated considerably in volume, but about 14 m.y. ago it became dry-based and more stable. Seismic data collected on the East Antarctic margin give valuable information on dynamics of the past ice sheets. These data shows that the sedimentary cover of the western Wilkes Land margin includes a giant (c. 200 000 km2) deep-water fan which formed between c. 43 and 34 Ma ago. The average rate of sedimentation in the central part of fan was 230–250 m/m.y. Active input of terrigenous sediments into deep-water denotes high-energy fluvial system within the Wilkes Land. Emergence of this fluvial system evidences earliest glaciation in the Antarctic interior which fed full-flowing rivers. The thickness of strata deposited during post-Early Oligocene glaciations on the Antarctic margin generally reflects the averaged energy of depositional environments. The thickest sediments (up to 2.0 km, i.e. almost twice more than in other parts of East Antarctic margin) and inferred highest energy are seen in the central Cooperation Sea, on the central Wilkes Land margin and in the D'Urville Sea. The areas with the thickest post-Early Oligocene strata correlate with places where present-day ice discharge is highest, such as via the Lambert, Totten and Mertz/Ninnis Glaciers. The correlation points to high ice (and sediment) flux in the same areas since the Early Oligocene. Даётся обзор изменений климата и природной среды Антарктики в кайнозое с более подробной информацией о гляциальной истории Южного континента. Покровное оледенение в Антарктиде ...

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