Your search keyword '"Zeng, Deng"' showing total 4 results

1. Thermal regime and slab dehydration beneath the Izu‐Bonin arc: Implications for fast and slow subduction earthquakes.

Author

Zhu, Weiling, Ji, Yingfeng, Qu, Rui, Xie, Chaodi, Yoshioka, Shoichi, and Zeng, Deng

Subjects

EARTHQUAKES, DEHYDRATION, SLABS (Structural geology), EMBRITTLEMENT, TOPOGRAPHY, SUBDUCTION, SUBDUCTION zones

Abstract

The transition from cold forearc to hot arc is considered fundamental to subduction dynamics. However, the range and depth of the cold nose changing significantly along the strike are difficult to constrain. By incorporating the three‐dimensional high‐resolution slab topography and MORVEL plate motion field to constrain thermomechanical modelling, we estimate the subduction thermal state and petrological dehydration in Izu‐Bonin. The multilayered hydrothermal regime gradually transitions from cold to less cold forearc, associated with a large‐scale subduction dewatering process varying along the strike. The dehydration embrittlement resulting from eclogitization and harzburgitization influences the occurrence of fast to slow earthquakes on megathrusts. Impressively, the cold nose is constrained to a depth of 60 km between the arc and Moho‐depth plate interface. The lowered temperature and delay of rock harzburgitization in the cold center of the subducted plate at depth contribute to the occurrence of deep earthquakes below the hot backarc interface. [ABSTRACT FROM AUTHOR]

Published

2022

2. Slab Dehydration in Sumatra: Implications for Fast and Slow Earthquakes and Arc Magmatism.

Author

Ji, Yingfeng, Yan, Ruyu, Zeng, Deng, Xie, Chaodi, Zhu, Weiling, Qu, Rui, and Yoshioka, Shoichi

Subjects

SUMATRA Earthquake, 2004, EARTHQUAKES, DEHYDRATION, MAGMATISM, LITHOSPHERE, ULTRABASIC rocks, THRUST faults (Geology)

Abstract

The catastrophic 2004 Sumatra‐Andaman Mw9.1 earthquake associated with destructive tsunamis has characterized Sumatra as one of the most dangerous convergence zones. Nevertheless, the effects of the thermohydrous state on the strongly coupled megathrust of the incoming plate remain enigmatic. By using a three‐dimensional (3‐D) thermomechanical model to compute the temperature variation and the complicated phase transition process of the water‐bearing descending plate which generates unstable thrust slips, we find that Sumatran earthquakes at varying depths are likely under the control of the inter or intraplate hydrothermal regime, which occurs in or close to the petrological metamorphism transition area. The slab dehydration of the water‐rich mid‐ocean‐ridge basalts (MORB) and the ultramafic rocks in the oceanic lithosphere releases a large amount of fluid to the continental wedge and further facilitates arc magmatism. The fluids are prone to upwelling following the subduction channel along the plate interface and thus contribute to the clustering of earthquakes updip of the dehydration front beneath offshore Sumatra. Brittle failure and dehydration embrittlement at depth, along with the temperature differences caused by variant slab geometry, are conjectured to greatly influence the occurrence of fast and slow earthquakes in Sumatra. Key Points: Sumatran earthquakes are likely under control, and they occur in or close to the area transitioning from petrological metamorphismSlab dehydration of the water‐rich rocks in the oceanic lithosphere release a large amount of fluid to the continental wedgeBrittle failure and dehydration embrittlement have greatly influenced the occurrence of fast to slow earthquakes in Sumatra [ABSTRACT FROM AUTHOR]

Published

2021

3. Cover Image.

Author

Zhu, Weiling, Ji, Yingfeng, Qu, Rui, Xie, Chaodi, Yoshioka, Shoichi, and Zeng, Deng

Subjects

SUBDUCTION, DEHYDRATION

Published

2022

4. Detection of a widespread mantle component of 3He in thermal springs of Lhasa Block and Tethyan Himalaya, eastern Tibet: evidence for roll‐back of the Indian‐Asian mantle suture south of the Yarlung suture zone, and asthenospheric upwelling beneath the Lhasa block

Author

Klemperer, Simon L., Zhao, Ping, Shi, Danian, Crossey, Laura J., Karlstrom, Karl E., Winn, Carmen L., Liu, Tianze, Xiong, Zhongyu, Guo, Xudong, Zeng, Deng, Wang, Shiqi, Darrah, Thomas H., Hilton, David R., and Ding, Lin

Subjects

NOBLE gases, HOT springs, GEOPHYSICAL observations

Published

2019