The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records

The process of deglaciation in the Antarctic Peninsula region has large implications for the geomorphological and ecological dynamics of the ice-free environments. However, uncertainties still remain regarding the age of deglaciation in many coastal environments, as is the case in the South Shetland...

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Published in:Geomorphology
Main Authors: Oliva, M., Antoniades, D., Giralt, S., Granados, I., Pla-Rabes, S., Toro, M., Liu, Emma J, Sanjurjo, J., Vieira, G.
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
Antarctica
Byers Peninsula
deglaciation
lake sediments
Antarctic
Antarctic Peninsula
Byers
Byers peninsula
Cerro Negro
Dome Glacier
Limnopolar Lake
Livingston Island
Negro nunatak
Rotch
Rotch Dome
South Shetland Islands
The Antarctic
Antarc*
Online Access:https://hdl.handle.net/1983/67bd4aaf-e59e-4dcc-996d-d88b845ada54
https://research-information.bris.ac.uk/en/publications/67bd4aaf-e59e-4dcc-996d-d88b845ada54
https://doi.org/10.1016/j.geomorph.2016.02.029
id ftubristolcris:oai:research-information.bris.ac.uk:publications/67bd4aaf-e59e-4dcc-996d-d88b845ada54
record_format openpolar
spelling ftubristolcris:oai:research-information.bris.ac.uk:publications/67bd4aaf-e59e-4dcc-996d-d88b845ada54 2024-02-11T09:57:23+01:00 The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records Oliva, M. Antoniades, D. Giralt, S. Granados, I. Pla-Rabes, S. Toro, M. Liu, Emma J Sanjurjo, J. Vieira, G. 2016-05-15 https://hdl.handle.net/1983/67bd4aaf-e59e-4dcc-996d-d88b845ada54 https://research-information.bris.ac.uk/en/publications/67bd4aaf-e59e-4dcc-996d-d88b845ada54 https://doi.org/10.1016/j.geomorph.2016.02.029 eng eng info:eu-repo/semantics/restrictedAccess Oliva , M , Antoniades , D , Giralt , S , Granados , I , Pla-Rabes , S , Toro , M , Liu , E J , Sanjurjo , J & Vieira , G 2016 , ' The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records ' , Geomorphology , vol. 261 , pp. 89-102 . https://doi.org/10.1016/j.geomorph.2016.02.029 Antarctica Byers Peninsula deglaciation lake sediments article 2016 ftubristolcris https://doi.org/10.1016/j.geomorph.2016.02.029 2024-01-25T23:30:38Z The process of deglaciation in the Antarctic Peninsula region has large implications for the geomorphological and ecological dynamics of the ice-free environments. However, uncertainties still remain regarding the age of deglaciation in many coastal environments, as is the case in the South Shetland Islands. This study focuses on the Byers Peninsula, the largest ice-free area in this archipelago and the one with greatest biodiversity in Antarctica. A complete lacustrine sedimentary sequence was collected from five lakes distributed along a transect from the western coast to the Rotch Dome glacier front: Limnopolar, Chester, Escondido, Cerro Negro and Domo lakes. A multiple dating approach based on 14C, thermoluminescence and tephrochronology was applied to the cores in order to infer the Holocene environmental history and identify the deglaciation chronology in the Byers Peninsula. The onset of the deglaciation started during the Early Holocene in the western fringe of the Byers Peninsula according to the basal dating of Limnopolar Lake (ca. 8.3 cal. ky BP). Glacial retreat gradually exposed the highest parts of the Cerro Negro nunatak in the SE corner of Byers, where Cerro Negro Lake is located; this lake was glacier-free since at least 7.5 ky. During the Mid-Holocene the retreat of the Rotch Dome glacier cleared the central part of the Byers plateau of ice, and Escondido and Chester lakes formed at 6 cal. ky BP and 5.9 ky, respectively. The dating of the basal sediments of Domo Lake suggests that the deglaciation of the current ice-free easternmost part of the Byers Peninsula occurred before 1.8 cal. ky BP. Article in Journal/Newspaper Antarc* Antarctic Antarctic Peninsula Antarctica Livingston Island South Shetland Islands University of Bristol: Bristol Research Antarctic Antarctic Peninsula Byers ENVELOPE(-60.283,-60.283,-63.900,-63.900) Byers peninsula ENVELOPE(-61.066,-61.066,-62.633,-62.633) Cerro Negro ENVELOPE(-61.002,-61.002,-62.655,-62.655) Dome Glacier ENVELOPE(-94.068,-94.068,79.452,79.452) Limnopolar Lake ENVELOPE(-61.098,-61.098,-62.633,-62.633) Livingston Island ENVELOPE(-60.500,-60.500,-62.600,-62.600) Negro nunatak ENVELOPE(-62.556,-62.556,-64.635,-64.635) Rotch ENVELOPE(-60.883,-60.883,-62.633,-62.633) Rotch Dome ENVELOPE(-60.883,-60.883,-62.633,-62.633) South Shetland Islands The Antarctic Geomorphology 261 89 102
institution Open Polar
collection University of Bristol: Bristol Research
op_collection_id ftubristolcris
language English
topic Antarctica
Byers Peninsula
deglaciation
lake sediments
spellingShingle Antarctica
Byers Peninsula
deglaciation
lake sediments
Oliva, M.
Antoniades, D.
Giralt, S.
Granados, I.
Pla-Rabes, S.
Toro, M.
Liu, Emma J
Sanjurjo, J.
Vieira, G.
The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records
topic_facet Antarctica
Byers Peninsula
deglaciation
lake sediments
description The process of deglaciation in the Antarctic Peninsula region has large implications for the geomorphological and ecological dynamics of the ice-free environments. However, uncertainties still remain regarding the age of deglaciation in many coastal environments, as is the case in the South Shetland Islands. This study focuses on the Byers Peninsula, the largest ice-free area in this archipelago and the one with greatest biodiversity in Antarctica. A complete lacustrine sedimentary sequence was collected from five lakes distributed along a transect from the western coast to the Rotch Dome glacier front: Limnopolar, Chester, Escondido, Cerro Negro and Domo lakes. A multiple dating approach based on 14C, thermoluminescence and tephrochronology was applied to the cores in order to infer the Holocene environmental history and identify the deglaciation chronology in the Byers Peninsula. The onset of the deglaciation started during the Early Holocene in the western fringe of the Byers Peninsula according to the basal dating of Limnopolar Lake (ca. 8.3 cal. ky BP). Glacial retreat gradually exposed the highest parts of the Cerro Negro nunatak in the SE corner of Byers, where Cerro Negro Lake is located; this lake was glacier-free since at least 7.5 ky. During the Mid-Holocene the retreat of the Rotch Dome glacier cleared the central part of the Byers plateau of ice, and Escondido and Chester lakes formed at 6 cal. ky BP and 5.9 ky, respectively. The dating of the basal sediments of Domo Lake suggests that the deglaciation of the current ice-free easternmost part of the Byers Peninsula occurred before 1.8 cal. ky BP.
format Article in Journal/Newspaper
author Oliva, M.
Antoniades, D.
Giralt, S.
Granados, I.
Pla-Rabes, S.
Toro, M.
Liu, Emma J
Sanjurjo, J.
Vieira, G.
author_facet Oliva, M.
Antoniades, D.
Giralt, S.
Granados, I.
Pla-Rabes, S.
Toro, M.
Liu, Emma J
Sanjurjo, J.
Vieira, G.
author_sort Oliva, M.
title The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records
title_short The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records
title_full The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records
title_fullStr The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records
title_full_unstemmed The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records
title_sort holocene deglaciation of the byers peninsula (livingston island, antarctica) based on the dating of lake sedimentary records
publishDate 2016
url https://hdl.handle.net/1983/67bd4aaf-e59e-4dcc-996d-d88b845ada54
https://research-information.bris.ac.uk/en/publications/67bd4aaf-e59e-4dcc-996d-d88b845ada54
https://doi.org/10.1016/j.geomorph.2016.02.029
long_lat ENVELOPE(-60.283,-60.283,-63.900,-63.900)
ENVELOPE(-61.066,-61.066,-62.633,-62.633)
ENVELOPE(-61.002,-61.002,-62.655,-62.655)
ENVELOPE(-94.068,-94.068,79.452,79.452)
ENVELOPE(-61.098,-61.098,-62.633,-62.633)
ENVELOPE(-60.500,-60.500,-62.600,-62.600)
ENVELOPE(-62.556,-62.556,-64.635,-64.635)
ENVELOPE(-60.883,-60.883,-62.633,-62.633)
ENVELOPE(-60.883,-60.883,-62.633,-62.633)
geographic Antarctic
Antarctic Peninsula
Byers
Byers peninsula
Cerro Negro
Dome Glacier
Limnopolar Lake
Livingston Island
Negro nunatak
Rotch
Rotch Dome
South Shetland Islands
The Antarctic
geographic_facet Antarctic
Antarctic Peninsula
Byers
Byers peninsula
Cerro Negro
Dome Glacier
Limnopolar Lake
Livingston Island
Negro nunatak
Rotch
Rotch Dome
South Shetland Islands
The Antarctic
genre Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Livingston Island
South Shetland Islands
genre_facet Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Livingston Island
South Shetland Islands
op_source Oliva , M , Antoniades , D , Giralt , S , Granados , I , Pla-Rabes , S , Toro , M , Liu , E J , Sanjurjo , J & Vieira , G 2016 , ' The Holocene deglaciation of the byers peninsula (Livingston Island, Antarctica) based on the dating of lake sedimentary records ' , Geomorphology , vol. 261 , pp. 89-102 . https://doi.org/10.1016/j.geomorph.2016.02.029
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1016/j.geomorph.2016.02.029
container_title Geomorphology
container_volume 261
container_start_page 89
op_container_end_page 102
_version_ 1790609678634319872

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