Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona

Paleogeographic reconstructions of Rodinia typically place Australia or East Antarctica adjacent to the southwestern margin of Laurentia. Of critical importance to these reconstructions is a linkage of the 1.301.00 Ga Grenville orogen in southern Laurentia to Late Mesoproterozoic orogens in Australi...

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Main Authors: Mulder, J, Karlstrom, K, Halpin, J, Meffre, S, Gehrels, G, Pecha, M
Format: Conference Object
Language:English
Published: Geological Society of Australia 2017
Subjects:
Earth Sciences
Geology
Geochronology
Antarctic
East Antarctica
Transantarctic Mountains
Antarc*
Antarctica
Online Access:http://geodynamics.curtin.edu.au/rodinia-2017/
http://ecite.utas.edu.au/131203
id ftunivtasecite:oai:ecite.utas.edu.au:131203
record_format openpolar
institution Open Polar
collection eCite UTAS (University of Tasmania)
op_collection_id ftunivtasecite
language English
topic Earth Sciences
Geology
Geochronology
spellingShingle Earth Sciences
Geology
Geochronology
Mulder, J
Karlstrom, K
Halpin, J
Meffre, S
Gehrels, G
Pecha, M
Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona
topic_facet Earth Sciences
Geology
Geochronology
description Paleogeographic reconstructions of Rodinia typically place Australia or East Antarctica adjacent to the southwestern margin of Laurentia. Of critical importance to these reconstructions is a linkage of the 1.301.00 Ga Grenville orogen in southern Laurentia to Late Mesoproterozoic orogens in Australia or East Antarctica. The Grenville Orogeny in southern Laurentia was associated with an extensive episode of syn-orogenic sedimentation throughout the continental interior of southwest Laurentia, which is preserved as a series of isolated foreland basin exposures extending from present-day Texas through to New Mexico and Arizona and into California (Fig. 1). Like the hinterland of the Grenville orogen, this syn-orogenic basin system is truncated by the Neoproterozoic rift margin of Laurentia and may extend into the continent(s) to the west of Laurentia within Rodinia. This contribution explores the correlation of syn-orogenic basins in southwest Laurentia and Late Mesoproterozoic strata in Tasmania (southeast Australia). We present new field observations and detrital zircon U-Pb age and Hf isotopic data from the most complete exposures of the Late Mesoproterozoic syn-orogenic basin system of southwest Laurentia represented by the Unkar Group (Grand Canyon, Arizona) and from Late Mesoproterozoic strata comprising the upper Rocky Cape Group in Tasmania. The age and stratigraphy of the Unkar and upper Rocky Cape Groups show striking similarities with both successions comprising a lower package of ca. 1.25 Ga dolomite and shale, which is disconformably overlain by an upper succession of ca. 1.15 Ga quartz arenite (Fig. 1). We suggest the upper Rocky Cape Group is a correlate of the Unkar Group and represents a remnant of the extensive foreland basin system of the Grenville orogen in southern Laurentia, which supports the interpretation that Tasmania was located along the southwest margin of Laurentia in the Late Mesoproterozoic. Detrital zircon U-Pb age and Hf isotopic data indicate that both the Unkar Group and upper Rocky Cape Group were derived mainly from 1.801.40 Ga crust similar in character to basement terranes in southwest Laurentia. The Unkar and upper Rocky Cape Groups also contain abundant ca. 1.20 Ga detrital zircons with ɛHfi values between +10 and +2, consistent with a Late Mesoproterozoic source in the Grenville orogen of southern Laurentia characterized by a mixture of juvenile material and reworked southwest Laurentian PaleoMesoproterozoic basement. However, the ca. 1.15 Ga westerly-derived upper parts of the upper Rocky Cape Group also contain ca. 1.20 Ga detrital zircons with evolved Hf isotopic compositions (ɛHfi = -2 to -6), which are not observed in the Unkar Group dataset. Comparison of the upper Rocky Cape Group detrital zircon dataset with detrital zircon U-Pb-Hf isotopic data compiled from Late Mesoproterozoic orogens in Australia, East Antarctica, and South China indicate that Late Mesoproterozoic crust concealed beneath ice cover in the central Transantarctic Mountains of East Antarctica is the most suitable source for the westerly-derived parts of the upper Rocky Cape Group. A Late Mesoproterozoic position for Tasmania along the southwest margin of Laurentia and an East Antarctic provenance for the upper parts of the upper Rocky Cape Group support a connection between southwest Laurentia and East Antarctica withinRodinia at ca. 1.15 Ga.
format Conference Object
author Mulder, J
Karlstrom, K
Halpin, J
Meffre, S
Gehrels, G
Pecha, M
author_facet Mulder, J
Karlstrom, K
Halpin, J
Meffre, S
Gehrels, G
Pecha, M
author_sort Mulder, J
title Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona
title_short Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona
title_full Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona
title_fullStr Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona
title_full_unstemmed Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona
title_sort rodinian devil in disguise: correlation of 1.25 1.15 ga strata between tasmania and grand canyon, arizona
publisher Geological Society of Australia
publishDate 2017
url http://geodynamics.curtin.edu.au/rodinia-2017/
http://ecite.utas.edu.au/131203
geographic Antarctic
East Antarctica
Transantarctic Mountains
geographic_facet Antarctic
East Antarctica
Transantarctic Mountains
genre Antarc*
Antarctic
Antarctica
East Antarctica
genre_facet Antarc*
Antarctic
Antarctica
East Antarctica
op_relation http://ecite.utas.edu.au/131203/1/Rodinia-abstract-volume 27-28.pdf
Mulder, J and Karlstrom, K and Halpin, J and Meffre, S and Gehrels, G and Pecha, M, Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona, Programs and Abstracts, Rodinia 2017 Conference, 11-14 June 2017, Townsville, Australia, pp. 13-14. (2017) [Conference Extract]
http://ecite.utas.edu.au/131203
_version_ 1766261696022708224
spelling ftunivtasecite:oai:ecite.utas.edu.au:131203 2023-05-15T13:55:18+02:00 Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona Mulder, J Karlstrom, K Halpin, J Meffre, S Gehrels, G Pecha, M 2017 application/pdf http://geodynamics.curtin.edu.au/rodinia-2017/ http://ecite.utas.edu.au/131203 en eng Geological Society of Australia http://ecite.utas.edu.au/131203/1/Rodinia-abstract-volume 27-28.pdf Mulder, J and Karlstrom, K and Halpin, J and Meffre, S and Gehrels, G and Pecha, M, Rodinian devil in disguise: correlation of 1.25 1.15 Ga strata between Tasmania and Grand Canyon, Arizona, Programs and Abstracts, Rodinia 2017 Conference, 11-14 June 2017, Townsville, Australia, pp. 13-14. (2017) [Conference Extract] http://ecite.utas.edu.au/131203 Earth Sciences Geology Geochronology Conference Extract NonPeerReviewed 2017 ftunivtasecite 2019-12-13T22:29:08Z Paleogeographic reconstructions of Rodinia typically place Australia or East Antarctica adjacent to the southwestern margin of Laurentia. Of critical importance to these reconstructions is a linkage of the 1.301.00 Ga Grenville orogen in southern Laurentia to Late Mesoproterozoic orogens in Australia or East Antarctica. The Grenville Orogeny in southern Laurentia was associated with an extensive episode of syn-orogenic sedimentation throughout the continental interior of southwest Laurentia, which is preserved as a series of isolated foreland basin exposures extending from present-day Texas through to New Mexico and Arizona and into California (Fig. 1). Like the hinterland of the Grenville orogen, this syn-orogenic basin system is truncated by the Neoproterozoic rift margin of Laurentia and may extend into the continent(s) to the west of Laurentia within Rodinia. This contribution explores the correlation of syn-orogenic basins in southwest Laurentia and Late Mesoproterozoic strata in Tasmania (southeast Australia). We present new field observations and detrital zircon U-Pb age and Hf isotopic data from the most complete exposures of the Late Mesoproterozoic syn-orogenic basin system of southwest Laurentia represented by the Unkar Group (Grand Canyon, Arizona) and from Late Mesoproterozoic strata comprising the upper Rocky Cape Group in Tasmania. The age and stratigraphy of the Unkar and upper Rocky Cape Groups show striking similarities with both successions comprising a lower package of ca. 1.25 Ga dolomite and shale, which is disconformably overlain by an upper succession of ca. 1.15 Ga quartz arenite (Fig. 1). We suggest the upper Rocky Cape Group is a correlate of the Unkar Group and represents a remnant of the extensive foreland basin system of the Grenville orogen in southern Laurentia, which supports the interpretation that Tasmania was located along the southwest margin of Laurentia in the Late Mesoproterozoic. Detrital zircon U-Pb age and Hf isotopic data indicate that both the Unkar Group and upper Rocky Cape Group were derived mainly from 1.801.40 Ga crust similar in character to basement terranes in southwest Laurentia. The Unkar and upper Rocky Cape Groups also contain abundant ca. 1.20 Ga detrital zircons with ɛHfi values between +10 and +2, consistent with a Late Mesoproterozoic source in the Grenville orogen of southern Laurentia characterized by a mixture of juvenile material and reworked southwest Laurentian PaleoMesoproterozoic basement. However, the ca. 1.15 Ga westerly-derived upper parts of the upper Rocky Cape Group also contain ca. 1.20 Ga detrital zircons with evolved Hf isotopic compositions (ɛHfi = -2 to -6), which are not observed in the Unkar Group dataset. Comparison of the upper Rocky Cape Group detrital zircon dataset with detrital zircon U-Pb-Hf isotopic data compiled from Late Mesoproterozoic orogens in Australia, East Antarctica, and South China indicate that Late Mesoproterozoic crust concealed beneath ice cover in the central Transantarctic Mountains of East Antarctica is the most suitable source for the westerly-derived parts of the upper Rocky Cape Group. A Late Mesoproterozoic position for Tasmania along the southwest margin of Laurentia and an East Antarctic provenance for the upper parts of the upper Rocky Cape Group support a connection between southwest Laurentia and East Antarctica withinRodinia at ca. 1.15 Ga. Conference Object Antarc* Antarctic Antarctica East Antarctica eCite UTAS (University of Tasmania) Antarctic East Antarctica Transantarctic Mountains

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