New ages from the Shackleton Glacier area and their context in the regional tectonomagmatic evolution of the Ross orogen of Antarctica

The Ross orogenic belt in Antarctica is one of several Neoproterozoic-early Palaeozoic orogens that crisscrossed Gondwana and are associated with Gondwana’s assembly. We present new age data from the Queen Maud Mountains, Ross orogen, from areas that hitherto have lacked precise ages from the local...

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Bibliographic Details
Main Authors: Paulsen, Timothy, Encarnación, John, Grunow, Anne M., Valencia, Victor A., Pecha, Mark E., Benowitz, Jeffrey, Layer, Paul
Format: Dataset
Language:unknown
Published: Taylor & Francis 2020
Subjects:
Medicine
Genetics
FOS Biological sciences
Neuroscience
Evolutionary Biology
59999 Environmental Sciences not elsewhere classified
FOS Earth and related environmental sciences
Ecology
Sociology
FOS Sociology
Developmental Biology
111714 Mental Health
FOS Health sciences
110309 Infectious Diseases
Computational Biology
Shackleton
Pacific
Shackleton Glacier
Horlick Mountains
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.6084/m9.figshare.12854135.v1
https://tandf.figshare.com/articles/dataset/New_ages_from_the_Shackleton_Glacier_area_and_their_context_in_the_regional_tectonomagmatic_evolution_of_the_Ross_orogen_of_Antarctica/12854135/1
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Summary:The Ross orogenic belt in Antarctica is one of several Neoproterozoic-early Palaeozoic orogens that crisscrossed Gondwana and are associated with Gondwana’s assembly. We present new age data from the Queen Maud Mountains, Ross orogen, from areas that hitherto have lacked precise ages from the local plutonic rocks. The zircon U-Pb igneous crystallization ages (n = 7) and a hornblende 40 Ar/ 39 Ar cooling age (n = 1) constrain plutonism to primarily lie within the Cambrian to Ordovician. Cumulative zircon U-Pb crystallization age data yield polymodal age distributions (516 Ma, 506–502 Ma, and 488 Ma age peaks) that are similar to other areas of the Queen Maud-Horlick Mountains, consistent with regional magmatic flare-ups along the Pacific-Gondwana margin during these times. The ages of deformed plutons constrain deformation to the Cambrian (Series 2) to Ordovician (Lower), with some regions indicating a transition to post-tectonic magmatism and cooling at ~509-470 Ma. Collectively, the data indicate that the Queen Maud-Horlick Mountains share a similar petrotectonic history with other regions of the Pacific-Gondwana margin, providing new evidence that this tectonostratigraphic province is part of and not exotic to the larger igneous-sedimentary successions developed in the peri-Gondwana realm under a broadly convergent margin setting.

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