Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island

Macquarie Island, located 1500 km southeast of Australia, is a sub-aerial exposure of Miocene oceanic crust/upper mantle situated within the oceanic basin in which it formed. The seafloor spreading related ‘Finch – Langdon fault’ juxtaposes upper mantle serpentinised peridotites, gabbro and sheeted...

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Main Author:	Melissa Jean Murphy
Format:	Thesis
Language:	unknown
Published:	2018
Subjects:	Other education not elsewhere classified zircon provenance oceanic crust clinopyroxene mid-ocean ridge Macquarie Island Antarctic Pacific Finch Antarc*
Online Access:	https://doi.org/10.25949/19440185.v1 https://figshare.com/articles/thesis/Petrography_and_geochemistry_of_oceanic_crust_provenance_of_sedimentary_detritus_Macquarie_Island/19440185

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record_format	openpolar
spelling	ftmacquariefig:oai:figshare.com:article/19440185 2023-05-15T13:41:11+02:00 Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island Melissa Jean Murphy 2018-06-28T00:00:00Z https://doi.org/10.25949/19440185.v1 https://figshare.com/articles/thesis/Petrography_and_geochemistry_of_oceanic_crust_provenance_of_sedimentary_detritus_Macquarie_Island/19440185 unknown doi:10.25949/19440185.v1 https://figshare.com/articles/thesis/Petrography_and_geochemistry_of_oceanic_crust_provenance_of_sedimentary_detritus_Macquarie_Island/19440185 In Copyright Other education not elsewhere classified zircon provenance oceanic crust clinopyroxene mid-ocean ridge Macquarie Island Text Thesis 2018 ftmacquariefig https://doi.org/10.25949/19440185.v1 2022-12-28T08:37:38Z Macquarie Island, located 1500 km southeast of Australia, is a sub-aerial exposure of Miocene oceanic crust/upper mantle situated within the oceanic basin in which it formed. The seafloor spreading related ‘Finch – Langdon fault’ juxtaposes upper mantle serpentinised peridotites, gabbro and sheeted dolerite dykes in the northern quarter of the island with volcanic rocks (pillow basalts, tabular basalts, hyaloclastites and minor sedimentary rocks) that form the southern part of the island. Interbedded within the extensive volcanic sequences are volcaniclastic sedimentary units containing gabbro and dolerite clasts, indicative that lower oceanic crust was exposed near the mid-ocean ridge during active volcanism. Through a combination of petrography, major and trace-element clinopyroxene and zircon geochemistry, and U-Pb geochronology, this thesis investigates the provenance of the sedimentary units produced at an active mid-ocean ridge. The high abundance of hydrothermal monomineralic clasts including chlorite, epidote, prehnite, quartz, carbonates and zeolites, and clasts of fault rock within the sedimentary rocks is consistent with a fault-scarp derived provenance. The unusually large volume of sedimentary rocks exposed on Macquarie Island suggests a large plate boundary scale transform fault is likely in order to produce the large volume of sediment. The long offset transform that links the Miocene ‘A2/P2 – A4/P4’ seafloor spreading corridor to the Australia-Antarctic-Pacific triple junction is the most proximal and therefore most likely source. Detrital clinopyroxene major and trace-element geochemistry shows little overlap with clinopyroxene grains within the interbedded volcanic sequences, excluding the proximal volcanism as a likely source for the sediment. A lack of peridotite signature in clinopyroxene clasts suggests that it is likely that wasting of the nearby exposed or any other upper mantle provided very little (if any) input to the sediment. Overlapping clinopyroxene geochemical affinities between ... Thesis Antarc* Antarctic Macquarie Island Research from Macquarie University Antarctic Pacific Finch ENVELOPE(167.383,167.383,-72.567,-72.567)
institution	Open Polar
collection	Research from Macquarie University
op_collection_id	ftmacquariefig
language	unknown
topic	Other education not elsewhere classified zircon provenance oceanic crust clinopyroxene mid-ocean ridge Macquarie Island
spellingShingle	Other education not elsewhere classified zircon provenance oceanic crust clinopyroxene mid-ocean ridge Macquarie Island Melissa Jean Murphy Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island
topic_facet	Other education not elsewhere classified zircon provenance oceanic crust clinopyroxene mid-ocean ridge Macquarie Island
description	Macquarie Island, located 1500 km southeast of Australia, is a sub-aerial exposure of Miocene oceanic crust/upper mantle situated within the oceanic basin in which it formed. The seafloor spreading related ‘Finch – Langdon fault’ juxtaposes upper mantle serpentinised peridotites, gabbro and sheeted dolerite dykes in the northern quarter of the island with volcanic rocks (pillow basalts, tabular basalts, hyaloclastites and minor sedimentary rocks) that form the southern part of the island. Interbedded within the extensive volcanic sequences are volcaniclastic sedimentary units containing gabbro and dolerite clasts, indicative that lower oceanic crust was exposed near the mid-ocean ridge during active volcanism. Through a combination of petrography, major and trace-element clinopyroxene and zircon geochemistry, and U-Pb geochronology, this thesis investigates the provenance of the sedimentary units produced at an active mid-ocean ridge. The high abundance of hydrothermal monomineralic clasts including chlorite, epidote, prehnite, quartz, carbonates and zeolites, and clasts of fault rock within the sedimentary rocks is consistent with a fault-scarp derived provenance. The unusually large volume of sedimentary rocks exposed on Macquarie Island suggests a large plate boundary scale transform fault is likely in order to produce the large volume of sediment. The long offset transform that links the Miocene ‘A2/P2 – A4/P4’ seafloor spreading corridor to the Australia-Antarctic-Pacific triple junction is the most proximal and therefore most likely source. Detrital clinopyroxene major and trace-element geochemistry shows little overlap with clinopyroxene grains within the interbedded volcanic sequences, excluding the proximal volcanism as a likely source for the sediment. A lack of peridotite signature in clinopyroxene clasts suggests that it is likely that wasting of the nearby exposed or any other upper mantle provided very little (if any) input to the sediment. Overlapping clinopyroxene geochemical affinities between ...
format	Thesis
author	Melissa Jean Murphy
author_facet	Melissa Jean Murphy
author_sort	Melissa Jean Murphy
title	Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island
title_short	Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island
title_full	Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island
title_fullStr	Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island
title_full_unstemmed	Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island
title_sort	petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, macquarie island
publishDate	2018
url	https://doi.org/10.25949/19440185.v1 https://figshare.com/articles/thesis/Petrography_and_geochemistry_of_oceanic_crust_provenance_of_sedimentary_detritus_Macquarie_Island/19440185
long_lat	ENVELOPE(167.383,167.383,-72.567,-72.567)
geographic	Antarctic Pacific Finch
geographic_facet	Antarctic Pacific Finch
genre	Antarc* Antarctic Macquarie Island
genre_facet	Antarc* Antarctic Macquarie Island
op_relation	doi:10.25949/19440185.v1 https://figshare.com/articles/thesis/Petrography_and_geochemistry_of_oceanic_crust_provenance_of_sedimentary_detritus_Macquarie_Island/19440185
op_rights	In Copyright
op_doi	https://doi.org/10.25949/19440185.v1
_version_	1766146533815746560

Petrography and geochemistry of oceanic crust: provenance of sedimentary detritus, Macquarie Island

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