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(Figures S2a-c) Phase diagrams of the upper crust, the lower crust and the upper mantle based on averagedcompositions of the oceanic crust and mantle (2015)

Völker, David ; Stipp, Michael

PANGAEA

In: Supplement to: Völker, David; Stipp, Michael (2015): Water input and water release from the subducting Nazca Plate along southern Central Chile (33°S-46°S). Geochemistry, Geophysics, Geosystems, 16(6), 1825-1847, https://doi.org/10.1002/2015GC005766

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Publication Date: 2023-10-28

Description: The age of the subducting Nazca Plate off Chile increases northwards from 0 Ma at the Chile Triple Junction (46°S) to 37 Ma at the latitude of Valparaíso (32°S). Age-related variations in the thermal state of the subducting plate impact on (a) the water influx to the subduction zone, as well as on (b) the volumes of water that are released under the continental forearc or, alternatively, carried beyond the arc. Southern Central Chile is an ideal setting to study this effect, because other factors for the subduction zone water budget appear constant. We determine the water influx by calculating the crustal water uptake and by modeling the upper mantle serpentinization at the outer rise of the Chile Trench. The water release under forearc and arc is determined by coupling FEM thermal models of the subducting plate with stability fields of water-releasing mineral reactions for upper and lower crust and hydrated mantle. Results show that both the influx of water stored in, and the outflux of water released from upper crust, lower crust and mantle vary drastically over segment boundaries. In particular, the oldest and coldest segments carry roughly twice as much water into the subduction zone as the youngest and hottest segments, but their release flux to the forearc is only about one fourth of the latter. This high variability over a subduction zone of 〈 1500 km length shows that it is insufficient to consider subduction zones as uniform entities in global estimates of subduction zone fluxes. This article is protected by copyright. All rights reserved.

Keywords: Center for Marine Environmental Sciences; Comment; File format; File name; GEOMAR; Helmholtz Centre for Ocean Research Kiel; MARUM; SFB574; Uniform resource locator/link to graphic; Volatiles and Fluids in Subduction Zones

Type: Dataset

Format: text/tab-separated-values, 12 data points

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Splitting a continent: Insights from submarine high-resolution mapping of the Moresby Seamount detachment, offshore Papua New Guinea (2011)

Speckbacher, Romed ; Behrmann, Jan H. ; Nagel, Thorsten J. ; Stipp, Michael ; Devey, Colin W.

Geological Society of America (GSA)

In: Geology 39: 651-654.

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Publication Date: 2011-07-01

Description: The Moresby Seamount detachment in the Woodlark Basin (east of Papua New Guinea) is arguably the best exposed active detachment fault in the world. We present the results of a high-resolution autonomous underwater vehicle survey of bathymetry, bottom water temperature, and turbidity. In combination with dredging and existing drillhole data, a synthesis of the tectonic geomorphology, kinematics, and mechanics of the detachment is provided. The detachment surface, which has a 30{degrees} northward dip and [~]8 km post-Pliocene displacement, is well preserved. Two major smooth areas are tectonically created, and megascopic (kilometer scale) slickensides indicate downdip direction of movement. The detachment is transected by a major sinistral strike-slip fault, suggesting deformation partitioning in the detachment zone in response to the 500 k.y. change in plate kinematics. The mainly gabbroic protoliths and cataclasites from the fault show pervasive syntectonic alteration, leading to large increases in abundance of quartz and, more important, calcite. Resulting quartz-rich and calcite-rich mylonites play a crucial role, as weak fault rocks and ductile microstructures point to detachment operation at low differential stress. A kilometer-sized anomaly in bottom water temperature and turbidity is found at the downdip end of the detachment zone, indicating that it hosts an active hydrothermal system, probably fed by overpressured fluids from a deep crustal source.

Print ISSN: 0091-7613

Electronic ISSN: 1943-2682

Topics: Geosciences

Published by Geological Society of America (GSA)

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