Oceanic microplate formation records the onset of India-Eurasia collision

Mapping of seafloor tectonic fabric in the Indian Ocean, using high-resolution satellite-derived vertical gravity gradient data, reveals an extinct Pacific-style oceanic microplate ('Mammerickx Microplate') west of the Ninetyeast Ridge. It is one of the first Pacific-style microplates to b...

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Published in:Earth and Planetary Science Letters
Main Authors: Matthews, Kara J, Muller, R. Dietmar, Sandwell, David T
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2016
Subjects:
Extinct ridge
India-Eurasia collision
Indian Ocean
Microplate
Plate reorganization
Pseudofault
040300
040400
Antarctic
Indian
Kerguelen
Pacific
Antarc*
Online Access:http://hdl.handle.net/2123/20900
https://doi.org/10.1016/j.epsl.2015.10.040
id ftunivsydney:oai:ses.library.usyd.edu.au:2123/20900
record_format openpolar
spelling ftunivsydney:oai:ses.library.usyd.edu.au:2123/20900 2023-05-15T13:37:27+02:00 Oceanic microplate formation records the onset of India-Eurasia collision Matthews, Kara J Muller, R. Dietmar Sandwell, David T 2016-01-01 application/pdf http://hdl.handle.net/2123/20900 https://doi.org/10.1016/j.epsl.2015.10.040 en_AU eng Elsevier ARC-0012821X, NSF-OCE-1128801, National Geospatial-Intelligence Agency-HM0177-13-1-0008, Office of Naval Research-N00014-12-1-0111 Matthews, K. J., Müller, R. D., & Sandwell, D. T. (2016). Oceanic microplate formation records the onset of India–Eurasia collision. Earth and Planetary Science Letters, 433, 204-214. DOI:10.1016/j.epsl.2015.10.040 0012821X http://hdl.handle.net/2123/20900 doi:10.1016/j.epsl.2015.10.040 © 2016. This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommons.org/licenses/by-nc-nd/4.0/” CC-BY-NC-ND Extinct ridge India-Eurasia collision Indian Ocean Microplate Plate reorganization Pseudofault 040300 040400 Article Publisher's version 2016 ftunivsydney https://doi.org/10.1016/j.epsl.2015.10.040 2022-05-30T13:41:46Z Mapping of seafloor tectonic fabric in the Indian Ocean, using high-resolution satellite-derived vertical gravity gradient data, reveals an extinct Pacific-style oceanic microplate ('Mammerickx Microplate') west of the Ninetyeast Ridge. It is one of the first Pacific-style microplates to be mapped outside the Pacific basin, suggesting that geophysical conditions during formation probably resembled those that have dominated at eastern Pacific ridges. The microplate formed at the Indian-Antarctic ridge and is bordered by an extinct ridge in the north and pseudofault in the south, whose conjugate is located north of the Kerguelen Plateau. Independent microplate rotation is indicated by asymmetric pseudofaults and rotated abyssal hill fabric, also seen in multibeam data. Magnetic anomaly picks and age estimates calculated from published spreading rates suggest formation during chron 21o (~47.3 Ma). Plate reorganizations can trigger ridge propagation and microplate development, and we propose that Mammerickx Microplate formation is linked with the India-Eurasia collision (initial 'soft' collision). The collision altered the stress regime at the Indian-Antarctic ridge, leading to a change in segmentation and ridge propagation from an establishing transform. Fast Indian-Antarctic spreading that preceded microplate formation, and Kerguelen Plume activity, may have facilitated ridge propagation via the production of thin and weak lithosphere; however both factors had been present for tens of millions of years and are therefore unlikely to have triggered the event. Prior to the collision, the combination of fast spreading and plume activity was responsible for the production of a wide region of undulate seafloor to the north of the extinct ridge and 'W' shaped lineations that record back and forth ridge propagation. Microplate formation provides a precise means of dating the onset of the India-Eurasia collision, and is completely independent of and complementary to timing constraints derived from continental geology or ... Article in Journal/Newspaper Antarc* Antarctic The University of Sydney: Sydney eScholarship Repository Antarctic Indian Kerguelen Pacific Earth and Planetary Science Letters 433 204 214
institution Open Polar
collection The University of Sydney: Sydney eScholarship Repository
op_collection_id ftunivsydney
language English
topic Extinct ridge
India-Eurasia collision
Indian Ocean
Microplate
Plate reorganization
Pseudofault
040300
040400
spellingShingle Extinct ridge
India-Eurasia collision
Indian Ocean
Microplate
Plate reorganization
Pseudofault
040300
040400
Matthews, Kara J
Muller, R. Dietmar
Sandwell, David T
Oceanic microplate formation records the onset of India-Eurasia collision
topic_facet Extinct ridge
India-Eurasia collision
Indian Ocean
Microplate
Plate reorganization
Pseudofault
040300
040400
description Mapping of seafloor tectonic fabric in the Indian Ocean, using high-resolution satellite-derived vertical gravity gradient data, reveals an extinct Pacific-style oceanic microplate ('Mammerickx Microplate') west of the Ninetyeast Ridge. It is one of the first Pacific-style microplates to be mapped outside the Pacific basin, suggesting that geophysical conditions during formation probably resembled those that have dominated at eastern Pacific ridges. The microplate formed at the Indian-Antarctic ridge and is bordered by an extinct ridge in the north and pseudofault in the south, whose conjugate is located north of the Kerguelen Plateau. Independent microplate rotation is indicated by asymmetric pseudofaults and rotated abyssal hill fabric, also seen in multibeam data. Magnetic anomaly picks and age estimates calculated from published spreading rates suggest formation during chron 21o (~47.3 Ma). Plate reorganizations can trigger ridge propagation and microplate development, and we propose that Mammerickx Microplate formation is linked with the India-Eurasia collision (initial 'soft' collision). The collision altered the stress regime at the Indian-Antarctic ridge, leading to a change in segmentation and ridge propagation from an establishing transform. Fast Indian-Antarctic spreading that preceded microplate formation, and Kerguelen Plume activity, may have facilitated ridge propagation via the production of thin and weak lithosphere; however both factors had been present for tens of millions of years and are therefore unlikely to have triggered the event. Prior to the collision, the combination of fast spreading and plume activity was responsible for the production of a wide region of undulate seafloor to the north of the extinct ridge and 'W' shaped lineations that record back and forth ridge propagation. Microplate formation provides a precise means of dating the onset of the India-Eurasia collision, and is completely independent of and complementary to timing constraints derived from continental geology or ...
format Article in Journal/Newspaper
author Matthews, Kara J
Muller, R. Dietmar
Sandwell, David T
author_facet Matthews, Kara J
Muller, R. Dietmar
Sandwell, David T
author_sort Matthews, Kara J
title Oceanic microplate formation records the onset of India-Eurasia collision
title_short Oceanic microplate formation records the onset of India-Eurasia collision
title_full Oceanic microplate formation records the onset of India-Eurasia collision
title_fullStr Oceanic microplate formation records the onset of India-Eurasia collision
title_full_unstemmed Oceanic microplate formation records the onset of India-Eurasia collision
title_sort oceanic microplate formation records the onset of india-eurasia collision
publisher Elsevier
publishDate 2016
url http://hdl.handle.net/2123/20900
https://doi.org/10.1016/j.epsl.2015.10.040
geographic Antarctic
Indian
Kerguelen
Pacific
geographic_facet Antarctic
Indian
Kerguelen
Pacific
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation ARC-0012821X, NSF-OCE-1128801, National Geospatial-Intelligence Agency-HM0177-13-1-0008, Office of Naval Research-N00014-12-1-0111
Matthews, K. J., Müller, R. D., & Sandwell, D. T. (2016). Oceanic microplate formation records the onset of India–Eurasia collision. Earth and Planetary Science Letters, 433, 204-214. DOI:10.1016/j.epsl.2015.10.040
0012821X
http://hdl.handle.net/2123/20900
doi:10.1016/j.epsl.2015.10.040
op_rights © 2016. This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommons.org/licenses/by-nc-nd/4.0/”
op_rightsnorm CC-BY-NC-ND
op_doi https://doi.org/10.1016/j.epsl.2015.10.040
container_title Earth and Planetary Science Letters
container_volume 433
container_start_page 204
op_container_end_page 214
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