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Shear-wave velocity structure and crustal lithology beneath the ultra-slow spreading Southwest Indian Ridge at 50°E

Shear-wave velocity structure and crustal lithology beneath the ultra-slow spreading Southwest Indian Ridge at 50°E
Shear-wave velocity structure and crustal lithology beneath the ultra-slow spreading Southwest Indian Ridge at 50°E
Shear-wave velocities provide an important constraint on crustal lithology. Limited crustal shear wave data are available from the ultra-slow spreading mid-ocean ridges. We combine observations of both compressional (P) and shear (S) waves in ocean bottom seismometer data from the Southwest Indian Ridge to determine crustal P wave velocity (Vp), S wave velocity (Vs), Vp/Vs and Poisson’s ratio variations along the ridge at 4917E–5049E. Similar layered crustal structures were revealed beneath both the magmatically robust segment centers (Vp/Vs of 1.76–1.94, Poisson’s ratio of 0.26–0.32) and the non-transform discontinuity (NTD) between them (Vp/Vs of 1.76–2.03, Poisson’s ratio of 0.26–0.32). Because laboratory measurements show an overlap in Poisson’s ratio between mafic igneous rocks and ultramafic rocks, particularly at Vp values typical of oceanic Layer 3, it can be difficult to distinguish crustal composition using this parameter only. However, our observed Vp gradients of 0.1 ± 0.1 /s suggest that in this area, oceanic Layer 3 consists primarily of mafic igneous rocks both at segment centers and at the NTD. Oceanic crustal layers 2A and 2B above are likely also to consist of mafic igneous rocks, with some evidence for increased fracturing at the NTD.
Composition and structure of the oceanic crust, controlled source seismology, crustal structure, mid-ocean ridge processes
0956-540X
1416–1428
Niu, Xiongwei
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Minshull, Timothy
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Li, Jiabiao
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Ruan, Aiguo
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Wu, Zhenli
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Wei, Zhiaodong
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Wang, Wei
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Li, Yan
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Bayrakci, Gaye
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Dong, Chongzhi
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Ding, Weiwei
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Fang, Yinxia
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Zhang, Jie
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Niu, Xiongwei
1f806e9f-eff5-4354-9478-fbfb1056aa3c
Minshull, Timothy
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Li, Jiabiao
ffacfd36-3b8b-41ed-b7ac-ee037985ac7c
Ruan, Aiguo
b70c0f3e-2790-4242-a216-1bf2ef8dd574
Wu, Zhenli
505114c3-bd7b-4346-b2a7-6c6c31e9479d
Wei, Zhiaodong
ee29a64b-7f50-4571-95d6-03efae5c5f3e
Wang, Wei
5e108c92-06a7-44cc-9ea2-ca7795cf4a49
Li, Yan
c1e2518d-f89d-404f-9a82-27046e844764
Bayrakci, Gaye
e0b89aa5-d514-4ecb-91b1-8ed8bd472eda
Dong, Chongzhi
6e99c225-edc2-4954-8f9b-9b13ef3da232
Ding, Weiwei
6063430b-9f64-462e-8a74-43d176847ad2
Fang, Yinxia
d99ef46d-7118-4e06-bf53-bc72b21ca554
Zhang, Jie
6f92fa09-b655-48ed-96c5-0df609478cc6

Niu, Xiongwei, Minshull, Timothy, Li, Jiabiao, Ruan, Aiguo, Wu, Zhenli, Wei, Zhiaodong, Wang, Wei, Li, Yan, Bayrakci, Gaye, Dong, Chongzhi, Ding, Weiwei, Fang, Yinxia and Zhang, Jie (2022) Shear-wave velocity structure and crustal lithology beneath the ultra-slow spreading Southwest Indian Ridge at 50°E. Geophysical Journal International, 233, 1416–1428. (doi:10.1093/gji/ggac516).

Record type: Article

Abstract

Shear-wave velocities provide an important constraint on crustal lithology. Limited crustal shear wave data are available from the ultra-slow spreading mid-ocean ridges. We combine observations of both compressional (P) and shear (S) waves in ocean bottom seismometer data from the Southwest Indian Ridge to determine crustal P wave velocity (Vp), S wave velocity (Vs), Vp/Vs and Poisson’s ratio variations along the ridge at 4917E–5049E. Similar layered crustal structures were revealed beneath both the magmatically robust segment centers (Vp/Vs of 1.76–1.94, Poisson’s ratio of 0.26–0.32) and the non-transform discontinuity (NTD) between them (Vp/Vs of 1.76–2.03, Poisson’s ratio of 0.26–0.32). Because laboratory measurements show an overlap in Poisson’s ratio between mafic igneous rocks and ultramafic rocks, particularly at Vp values typical of oceanic Layer 3, it can be difficult to distinguish crustal composition using this parameter only. However, our observed Vp gradients of 0.1 ± 0.1 /s suggest that in this area, oceanic Layer 3 consists primarily of mafic igneous rocks both at segment centers and at the NTD. Oceanic crustal layers 2A and 2B above are likely also to consist of mafic igneous rocks, with some evidence for increased fracturing at the NTD.

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Accepted/In Press date: 21 December 2022
Published date: 26 December 2022
Keywords: Composition and structure of the oceanic crust, controlled source seismology, crustal structure, mid-ocean ridge processes
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Identifiers

Local EPrints ID: 475545
URI: http://eprints.soton.ac.uk/id/eprint/475545
DOI: doi:10.1093/gji/ggac516
ISSN: 0956-540X
PURE UUID: 3ef947e3-8f5d-42ad-9e30-4db96e138754
ORCID for Timothy Minshull: ORCID iD orcid.org/0000-0002-8202-1379

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Date deposited: 21 Mar 2023 17:41
Last modified: 17 Mar 2024 02:50

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Contributors

Author: Xiongwei Niu
Author: Timothy Minshull ORCID iD
Author: Jiabiao Li
Author: Aiguo Ruan
Author: Zhenli Wu
Author: Zhiaodong Wei
Author: Wei Wang
Author: Yan Li
Author: Gaye Bayrakci
Author: Chongzhi Dong
Author: Weiwei Ding
Author: Yinxia Fang
Author: Jie Zhang

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