Magmatic record of India-Asia collision

Di-Cheng Zhu; Qing Wang; Zhi-Dan Zhao; Sun-Lin Chung; Peter Anthony Cawood; Yaoling Niu; Sheng-Ao Liu; Fu-Yuan Wu; Xuan-Xue Mo

doi:10.1038/srep14289

Magmatic record of India-Asia collision

Di-Cheng Zhu^*, Qing Wang, Zhi-Dan Zhao, Sun-Lin Chung, Peter Anthony Cawood, Yaoling Niu, Sheng-Ao Liu, Fu-Yuan Wu, Xuan-Xue Mo

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

New geochronological and geochemical data on magmatic activity from the India-Asia collision zone enables recognition of a distinct magmatic flare-up event that we ascribe to slab breakoff. This tie-point in the collisional record can be used to back-date to the time of initial impingement of the Indian continent with the Asian margin. Continental arc magmatism in southern Tibet during 80-40 Ma migrated from south to north and then back to south with significant mantle input at 70-43 Ma. A pronounced flare up in magmatic intensity (including ignimbrite and mafic rock) at ca. 52-51 Ma corresponds to a sudden decrease in the India-Asia convergence rate. Geological and geochemical data are consistent with mantle input controlled by slab rollback from ca. 70 Ma and slab breakoff at ca. 53 Ma. We propose that the slowdown of the Indian plate at ca. 51 Ma is largely the consequence of slab breakoff of the subducting Neo-Tethyan oceanic lithosphere, rather than the onset of the India-Asia collision as traditionally interpreted, implying that the initial India-Asia collision commenced earlier, likely at ca. 55 Ma.

Original language	English
Article number	14289
Number of pages	8
Journal	Scientific Reports
Volume	5
DOIs	https://doi.org/10.1038/srep14289
Publication status	Published - 23 Sept 2015

Keywords

SOuthern Tibet
Slab breakoff
Continental collision
Isotopic constraints
Eurasia collision
Plate motion
Subduction
Evolution
Rocks
Lithosphere

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title = "Magmatic record of India-Asia collision",

abstract = "New geochronological and geochemical data on magmatic activity from the India-Asia collision zone enables recognition of a distinct magmatic flare-up event that we ascribe to slab breakoff. This tie-point in the collisional record can be used to back-date to the time of initial impingement of the Indian continent with the Asian margin. Continental arc magmatism in southern Tibet during 80-40 Ma migrated from south to north and then back to south with significant mantle input at 70-43 Ma. A pronounced flare up in magmatic intensity (including ignimbrite and mafic rock) at ca. 52-51 Ma corresponds to a sudden decrease in the India-Asia convergence rate. Geological and geochemical data are consistent with mantle input controlled by slab rollback from ca. 70 Ma and slab breakoff at ca. 53 Ma. We propose that the slowdown of the Indian plate at ca. 51 Ma is largely the consequence of slab breakoff of the subducting Neo-Tethyan oceanic lithosphere, rather than the onset of the India-Asia collision as traditionally interpreted, implying that the initial India-Asia collision commenced earlier, likely at ca. 55 Ma.",

keywords = "SOuthern Tibet, Slab breakoff, Continental collision, Isotopic constraints, Eurasia collision, Plate motion, Subduction, Evolution, Rocks, Lithosphere",

author = "Di-Cheng Zhu and Qing Wang and Zhi-Dan Zhao and Sun-Lin Chung and Cawood, {Peter Anthony} and Yaoling Niu and Sheng-Ao Liu and Fu-Yuan Wu and Xuan-Xue Mo",

note = "This work was financially co-supported by Chinese Academy of Sciences (XDB03010301) and other Chinese funding agencies (Project 973: 2011CB403102 and 2015CB452604; NSFC projects: 41225006, 41273044, and 41472061). ",

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T1 - Magmatic record of India-Asia collision

AU - Zhu, Di-Cheng

AU - Wang, Qing

AU - Zhao, Zhi-Dan

AU - Chung, Sun-Lin

AU - Cawood, Peter Anthony

AU - Niu, Yaoling

AU - Liu, Sheng-Ao

AU - Wu, Fu-Yuan

AU - Mo, Xuan-Xue

N1 - This work was financially co-supported by Chinese Academy of Sciences (XDB03010301) and other Chinese funding agencies (Project 973: 2011CB403102 and 2015CB452604; NSFC projects: 41225006, 41273044, and 41472061).

PY - 2015/9/23

Y1 - 2015/9/23

N2 - New geochronological and geochemical data on magmatic activity from the India-Asia collision zone enables recognition of a distinct magmatic flare-up event that we ascribe to slab breakoff. This tie-point in the collisional record can be used to back-date to the time of initial impingement of the Indian continent with the Asian margin. Continental arc magmatism in southern Tibet during 80-40 Ma migrated from south to north and then back to south with significant mantle input at 70-43 Ma. A pronounced flare up in magmatic intensity (including ignimbrite and mafic rock) at ca. 52-51 Ma corresponds to a sudden decrease in the India-Asia convergence rate. Geological and geochemical data are consistent with mantle input controlled by slab rollback from ca. 70 Ma and slab breakoff at ca. 53 Ma. We propose that the slowdown of the Indian plate at ca. 51 Ma is largely the consequence of slab breakoff of the subducting Neo-Tethyan oceanic lithosphere, rather than the onset of the India-Asia collision as traditionally interpreted, implying that the initial India-Asia collision commenced earlier, likely at ca. 55 Ma.

AB - New geochronological and geochemical data on magmatic activity from the India-Asia collision zone enables recognition of a distinct magmatic flare-up event that we ascribe to slab breakoff. This tie-point in the collisional record can be used to back-date to the time of initial impingement of the Indian continent with the Asian margin. Continental arc magmatism in southern Tibet during 80-40 Ma migrated from south to north and then back to south with significant mantle input at 70-43 Ma. A pronounced flare up in magmatic intensity (including ignimbrite and mafic rock) at ca. 52-51 Ma corresponds to a sudden decrease in the India-Asia convergence rate. Geological and geochemical data are consistent with mantle input controlled by slab rollback from ca. 70 Ma and slab breakoff at ca. 53 Ma. We propose that the slowdown of the Indian plate at ca. 51 Ma is largely the consequence of slab breakoff of the subducting Neo-Tethyan oceanic lithosphere, rather than the onset of the India-Asia collision as traditionally interpreted, implying that the initial India-Asia collision commenced earlier, likely at ca. 55 Ma.

KW - SOuthern Tibet

KW - Slab breakoff

KW - Continental collision

KW - Isotopic constraints

KW - Eurasia collision

KW - Plate motion

KW - Subduction

KW - Evolution

KW - Rocks

KW - Lithosphere

UR - http://www.nature.com/articles/srep14289#supplementary-information

U2 - 10.1038/srep14289

DO - 10.1038/srep14289

M3 - Article

SN - 2045-2322

VL - 5

JO - Scientific Reports

JF - Scientific Reports

M1 - 14289

ER -

Magmatic record of India-Asia collision

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Keywords

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