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Earthquakes in the Mantle? Insights From Rock Magnetism of Pseudotachylytes (2018)

Ferré, Eric C. ; Meado, Andrea L. ; Geissman, John W. ; [et al.]

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Publication Date: 2018-03-05

Description: Ultramafic pseudotachylytes have been regarded as earthquake fossils formed at mantle depths (i.e., 〉30 km). Here we show that pseudotachylytes hosted by ultramafic rocks from three localities have distinct magnetic properties. Fresh host peridotites contain only small amounts of coarse-grained magnetite. In contrast, the ultramafic pseudotachylytes contain variable amounts of significantly finer magnetite that formed coseismically through melting. Among each locality, magnetite abundance in the pseudotachylytes ranges over several orders of magnitude (4–2,000 ppm), and magnetic grain size varies considerably (from single domain to multidomain). Because the host peridotites are compositionally similar, the pseudotachylyte magnetic properties are interpreted to primarily reflect the physical and cooling conditions prevailing during seismic slip. Further, the examination of laboratory-produced ultramafic pseudotachylytes shows that quenching does not produce superfine magnetite. We hypothesize that the magnetic properties of ultramafic pseudotachylytes are controlled by fO2 and in consequence vary systematically with depth of formation. Therefore, these properties can be used to assess if the ruptures producing the earthquakes that these pseudotachylytes represent nucleated at actual mantle depths or at shallow depths during exhumation of mantle rocks. ©2017. American Geophysical Union. All Rights Reserved.

Description: Published

Description: 8769 – 8785

Description: 4T. Sismologia, geofisica e geologia per l'ingegneria sismica

Description: 2IT. Laboratori sperimentali e analitici

Description: JCR Journal

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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A Precambrian microcontinent in the Indian Ocean. (2017)

Torsvik, Trond H. ; Amundsen, Hans ; Hartz, Ebbe H. ; [et al.]

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Publication Date: 2021-05-19

Description: The Laccadive–Chagos Ridge and Southern Mascarene Plateau in the north-central and western Indian Ocean, respectively, are thought to be volcanic chains formed above the Réunion mantle plume1 over the past 65.5 million years2,3. Here we use U–Pb dating to analyse the ages of zircon xenocrysts found within young lavas on the island of Mauritius, part of the Southern Mascarene Plateau. We find that the zircons are either Palaeoproterozoic (more than 1,971 million years old) or Neoproterozoic (between 660 and 840 million years old). We propose that the zircons were assimilated from ancient fragments of continental lithosphere beneath Mauritius, and were brought to the surface by plume-related lavas. We use gravity data inversion to map crustal thickness and find that Mauritius forms part of a contiguous block of anomalously thick crust that extends in an arc northwards to the Seychelles. Using plate tectonic reconstructions, we show that Mauritius and the adjacent Mascarene Plateau may overlie a Precambrian microcontinent that we call Mauritia. On the basis of reinterpretation of marine geophysical data4, we propose that Mauritia was separated from Madagascar and fragmented into a ribbon-like configuration by a series of mid-ocean ridge jumps during the opening of the Mascarene ocean basin between 83.5 and 61 million years ago.We suggest that the plume-related magmatic deposits have since covered Mauritia and potentially other continental fragments.

Description: PDF is Published online 23 Feb 2013 version

Description: Published

Keywords: Palaeomagnetism ; Petrology ; Tectonics ; Volcanology ; Zircon

Repository Name: AquaDocs

Type: Journal Contribution , Refereed

Format: pp.223-227