Sedimentary record of Early Permian deglaciation in southern Gondwana from the Falkland Islands

The deglaciation of southern Gondwana during the Early Permian was preceded by waxing and waning of the south polar ice sheet. The fluctuations in ice extent are recorded in the sedimentary record by strata separating thick deposits of glacial diamictite from post-glacial mudrock. These deposits spa...

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Bibliographic Details
Main Authors: Horan, Kate, Stone, Philip, Crowhurst, Simon J.
Format: Article in Journal/Newspaper
Language:unknown
Published: Figshare 2018
Subjects:
Geology
FOS Earth and related environmental sciences
Ellsworth Mountains
Fitzroy
Antarc*
Antarctica
Ice Sheet
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.4031119.v1
https://figshare.com/collections/Sedimentary_record_of_Early_Permian_deglaciation_in_southern_Gondwana_from_the_Falkland_Islands/4031119/1
Description
Summary:The deglaciation of southern Gondwana during the Early Permian was preceded by waxing and waning of the south polar ice sheet. The fluctuations in ice extent are recorded in the sedimentary record by strata separating thick deposits of glacial diamictite from post-glacial mudrock. These deposits span across all of the major Gondwana fragments, now recognized as South Africa, South America, India, Antarctica and Australia, and also occur on the Falklands and Ellsworth Mountains microplates created during break-up of the supercontinent in the Mesozoic. We present sedimentary evidence for the progression of deglaciation from the Falkland Islands microplate using a series of borehole core runs acquired during onshore mineral exploration. Glacial advance and retreat phases are inferred from the Hells Kitchen Member of the Port Sussex Formation; the rock succession that conformably overlies the main body of glacial diamictite known locally as the Fitzroy Tillite Formation. The pulsated nature of the transition to fully post-glacial conditions was accompanied by an intricate interplay of sedimentary processes, including soft sediment deformation, meltwater pulses and turbidity currents. The Falkland Islands core data lend insight into the evolving Early Permian environment and offer an unusually complete view of continental margin deglaciation preserved in the ancient sedimentary record.

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