Crustal structure of the southeastern margin of the Ordos Block

We use a profile made up of teleseismic receiver functions to study the crustal thickness and structure of the southeastern margin of the Ordos Block. The Mohorovicic discontinuity(Moho) has been identified beneath all stations. Its depth gradually decreases towards the southeast, from about 43 km i...

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Bibliographic Details
Published inChinese science bulletin Vol. 56; no. 35; pp. 3854 - 3859
Main Authors Lu, YiFeng, Xu, MingJie, Wang, LiangShu, Mi, Ning, Li, Hua, Yu, DaYong
Format Journal Article
LanguageEnglish
Published Heidelberg SP Science China Press 01.12.2011
Subjects
Chemistry/Food Science
China
Earth Sciences
Engineering
geographical variation
Humanities and Social Sciences
Life Sciences
mountains
multidisciplinary
Physics
rocks
Science
Science (multidisciplinary)
tectonics
南缘
地壳厚度
横向变化
深部地壳结构
秦岭造山带
莫霍面
鄂尔多斯地块
配置文件
China
receiver function
crustal structure
CCP migration
Moho
stacking
Online AccessGet full text
ISSN1001-6538
1861-9541
DOI10.1007/s11434-011-4847-7

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Summary:We use a profile made up of teleseismic receiver functions to study the crustal thickness and structure of the southeastern margin of the Ordos Block. The Mohorovicic discontinuity(Moho) has been identified beneath all stations. Its depth gradually decreases towards the southeast, from about 43 km in the Ordos Block to -30 km near the northern margin of the Qinling Orogen. Our results show clear lateral variations in the structure of the crust and the features of the Moho. Accordingly, the study region can be divided into four parts: (1) Beneath the Ordos Block, the Moho is visible and fiat at a depth of -40 km. The crustal structure is best characterized by stable cratonic crust. (2) In the Weihe-Shanxi Graben, the Moho is uplifted by about 3 km, which may be the result of upwelling of upper mantle materials. (3) Under the Xionger-Funiu Mountains, the Moho is flat at a depth between 36 and 33 km, but becomes shallower towards the southeast. (4) In the Hehuai Basin, adjacent to the northern margin of the Qinling Orogen, the Moho shows strong lateral variations with a mean depth of-31 km. The crustal structure here is complex, which may indicate a complicated tectonic environment. Additionally, the Moho is clearly interrupted at two locations (beneath stations stl 1 and st18) near major tectonic boundaries. These results suggest that the structure of the deep crust along the southeastern margin of the Ordos Block has great lateral variability, which strongly affects the complex geological features on the surface. Furthermore, these results can help us understand the interrelationships of different parts of the southeastern margin of the Ordos Block.
Bibliography:11-1785/N
receiver function, crustal structure, Moho, H-κ stacking, CCP migration
We use a profile made up of teleseismic receiver functions to study the crustal thickness and structure of the southeastern margin of the Ordos Block. The Mohorovicic discontinuity(Moho) has been identified beneath all stations. Its depth gradually decreases towards the southeast, from about 43 km in the Ordos Block to -30 km near the northern margin of the Qinling Orogen. Our results show clear lateral variations in the structure of the crust and the features of the Moho. Accordingly, the study region can be divided into four parts: (1) Beneath the Ordos Block, the Moho is visible and fiat at a depth of -40 km. The crustal structure is best characterized by stable cratonic crust. (2) In the Weihe-Shanxi Graben, the Moho is uplifted by about 3 km, which may be the result of upwelling of upper mantle materials. (3) Under the Xionger-Funiu Mountains, the Moho is flat at a depth between 36 and 33 km, but becomes shallower towards the southeast. (4) In the Hehuai Basin, adjacent to the northern margin of the Qinling Orogen, the Moho shows strong lateral variations with a mean depth of-31 km. The crustal structure here is complex, which may indicate a complicated tectonic environment. Additionally, the Moho is clearly interrupted at two locations (beneath stations stl 1 and st18) near major tectonic boundaries. These results suggest that the structure of the deep crust along the southeastern margin of the Ordos Block has great lateral variability, which strongly affects the complex geological features on the surface. Furthermore, these results can help us understand the interrelationships of different parts of the southeastern margin of the Ordos Block.
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ISSN:1001-6538
1861-9541
DOI:10.1007/s11434-011-4847-7