New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica

© 2017 Elsevier B.V. U-Pb detrital zircon age and trace element data from a Devonian sandstone sample of the Beacon Supergroup provide new evidence for 1450 Ma zircon sources in Antarctica. These grains yield a dominant 1450 Ma (Mesoproterozoic, Calymmian) age probability peak with U/Th ratios sugge...

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Published in:Precambrian Research
Main Authors: Paulsen, Timothy, Deering, Chad, Sliwinski, Jakub, Bachmann, Olivier, Guillong, Marcel
Format: Text
Language:unknown
Published: Digital Commons @ Michigan Tech 2017
Subjects:
Detrital zircon
Rock type
Supercontinent
Trace element
U-Pb age
East Antarctica
Transantarctic Mountains
Antarc*
Antarctica
Online Access:https://digitalcommons.mtu.edu/michigantech-p/7016
https://doi.org/10.1016/j.precamres.2017.07.011
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author Paulsen, Timothy
Deering, Chad
Sliwinski, Jakub
Bachmann, Olivier
Guillong, Marcel
author_facet Paulsen, Timothy
Deering, Chad
Sliwinski, Jakub
Bachmann, Olivier
Guillong, Marcel
author_sort Paulsen, Timothy
collection Michigan Technological University: Digital Commons @ Michigan Tech
container_start_page 53
container_title Precambrian Research
container_volume 300
description © 2017 Elsevier B.V. U-Pb detrital zircon age and trace element data from a Devonian sandstone sample of the Beacon Supergroup provide new evidence for 1450 Ma zircon sources in Antarctica. These grains yield a dominant 1450 Ma (Mesoproterozoic, Calymmian) age probability peak with U/Th ratios suggesting they primarily formed from magmatic processes, also consistent with the presence of grains with oscillatory zonation. Determination of zircon parent rock types using trace element proxies reveals that the zircon grains are likely predominantly derived from granitoid rocks, with subsidiary, yet significant contributions from mafic and alkaline igneous rocks. These results are consistent with a ca. 1440 Ma (Mesoproterozoic, Calymmian) granitoid glacial erratic and similar aged detrital zircon found elsewhere in the Transantarctic Mountains that suggest a continuation of the trans-Laurentian A-type granitoid belt into Antarctica and, therefore, a 1400 Ma SWEAT-like reconstruction of the continental landmasses.
format Text
genre Antarc*
Antarctica
East Antarctica
genre_facet Antarc*
Antarctica
East Antarctica
geographic East Antarctica
Transantarctic Mountains
geographic_facet East Antarctica
Transantarctic Mountains
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op_doi https://doi.org/10.1016/j.precamres.2017.07.011
op_relation https://digitalcommons.mtu.edu/michigantech-p/7016
doi:10.1016/j.precamres.2017.07.011
https://doi.org/10.1016/j.precamres.2017.07.011
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publisher Digital Commons @ Michigan Tech
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spelling ftmichigantuniv:oai:digitalcommons.mtu.edu:michigantech-p-26318 2025-01-16T19:02:05+00:00 New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica Paulsen, Timothy Deering, Chad Sliwinski, Jakub Bachmann, Olivier Guillong, Marcel 2017-10-01T07:00:00Z https://digitalcommons.mtu.edu/michigantech-p/7016 https://doi.org/10.1016/j.precamres.2017.07.011 unknown Digital Commons @ Michigan Tech https://digitalcommons.mtu.edu/michigantech-p/7016 doi:10.1016/j.precamres.2017.07.011 https://doi.org/10.1016/j.precamres.2017.07.011 Michigan Tech Publications Detrital zircon Rock type Supercontinent Trace element U-Pb age text 2017 ftmichigantuniv https://doi.org/10.1016/j.precamres.2017.07.011 2023-06-20T16:55:36Z © 2017 Elsevier B.V. U-Pb detrital zircon age and trace element data from a Devonian sandstone sample of the Beacon Supergroup provide new evidence for 1450 Ma zircon sources in Antarctica. These grains yield a dominant 1450 Ma (Mesoproterozoic, Calymmian) age probability peak with U/Th ratios suggesting they primarily formed from magmatic processes, also consistent with the presence of grains with oscillatory zonation. Determination of zircon parent rock types using trace element proxies reveals that the zircon grains are likely predominantly derived from granitoid rocks, with subsidiary, yet significant contributions from mafic and alkaline igneous rocks. These results are consistent with a ca. 1440 Ma (Mesoproterozoic, Calymmian) granitoid glacial erratic and similar aged detrital zircon found elsewhere in the Transantarctic Mountains that suggest a continuation of the trans-Laurentian A-type granitoid belt into Antarctica and, therefore, a 1400 Ma SWEAT-like reconstruction of the continental landmasses. Text Antarc* Antarctica East Antarctica Michigan Technological University: Digital Commons @ Michigan Tech East Antarctica Transantarctic Mountains Precambrian Research 300 53 58
spellingShingle Detrital zircon
Rock type
Supercontinent
Trace element
U-Pb age
Paulsen, Timothy
Deering, Chad
Sliwinski, Jakub
Bachmann, Olivier
Guillong, Marcel
New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica
title New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica
title_full New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica
title_fullStr New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica
title_full_unstemmed New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica
title_short New detrital zircon age and trace element evidence for 1450 Ma igneous zircon sources in East Antarctica
title_sort new detrital zircon age and trace element evidence for 1450 ma igneous zircon sources in east antarctica
topic Detrital zircon
Rock type
Supercontinent
Trace element
U-Pb age
topic_facet Detrital zircon
Rock type
Supercontinent
Trace element
U-Pb age
url https://digitalcommons.mtu.edu/michigantech-p/7016
https://doi.org/10.1016/j.precamres.2017.07.011

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