Early cretaceous granitoids and their implications for the collapse of the Dabie orogen, eastern China: SHRIMP zircon U–Pb dating and geochemistry

Xu, Haijin; Ma, Changqian; Yang, Kai

doi:10.1016/j.chemgeo.2007.02.018

Cited by 197 publications

(168 citation statements)

References 95 publications

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“…8B), Dexing adakites have typical negative Nb, Ta, and Ti anomalies and are enriched in large-ion lithophile elements. These characteristics are similar to (Wang et al 2007a;Xu et al 2007;Huang et al 2008). Data for the Dexing adakitic porphyries are listed in table S1.…”

Section: Geochemical Characteristics Of Adakites From Different Originsmentioning

confidence: 48%

High Oxygen Fugacity and Slab Melting Linked to Cu Mineralization: Evidence from Dexing Porphyry Copper Deposits, Southeastern China

Zhang

Ling

Liu

et al. 2013

The Journal of Geology

111

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Section: Geochemical Characteristics Of Adakites From Different Originsmentioning

confidence: 48%

High Oxygen Fugacity and Slab Melting Linked to Cu Mineralization: Evidence from Dexing Porphyry Copper Deposits, Southeastern China

Zhang

Ling

Liu

et al. 2013

The Journal of Geology

111

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“…Previous studies have found that the early granites in the Dabie orogen have high Sr/Y and La/Yb features whereas the later ones do not have, suggesting the early granites as adakitic rocks [3][4][5][6]. High Sr/Y and La/Yb features, however, can also be found in normal granites with other petrogenesis [7][8][9][10][11][12][13][14][15][16], and thus do not convincingly indicate that the early granites are partial melts of thickened LCC.…”

Section: Identification Of Partial Melts From Thickened Lccmentioning

confidence: 81%

“…Mountain-root removal and foundering of thickened mafic LCC not only caused mantle upwelling and mafic magmatism, but also induced partial melting of lowermiddle crust of the orogen, producing the large volume of granitc magmas after 130 Ma [4,5,17,23]. Although ore resources are scarce in the central Dabie zone where nowadays middle-lower crust is exposed due to uplifting and erosion by magma doming [24][25][26], the Cretaceous giant Mo deposit discovered in the North Dabie zone and the North Huaiyang zone indicates that the mountain root removal process may help mineralization [26].…”

Section: Constraints On the Timing Of Mountain-root Removalmentioning

confidence: 99%

Process and mechanism of mountain-root removal of the Dabie Orogen—Constraints from geochronology and geochemistry of post-collisional igneous rocks

Wang

2013

Chin. Sci. Bull.

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Systematical studies of post-collisional igneous rocks in the Dabie orogen suggest that the thickened mafic lower crust of the orogen was partially melted to form low-Mg # adakitic rocks at 143-131 Ma. Delamination and foundering of the thickened mafic lower crust occurred at 130 Ma, which caused the mantle upwelling and following mafic and granitic magmatic intrusions. Migmatite in the North Dabie zone, coeval with the formation of low-Mg # adakitic intrusions in the Dabie orogen, was formed by partial melting of exhumed ultrahigh-pressure metamorphic rocks at middle crustal level. This paper argues that the partial melting of thickened lower and middle crust before mountain-root collapse needs lithospheric thinning. Based on the geothermal gradient of 6.6°C/km for lithospheric mantle and initial partial melting temperature of ~1000°C for the lower mafic crust, it can be estimated that the thickness of lithospheric mantle beneath thickened lower crust has been thinned to <45 km when the thickened lower crust was melting. Thus, a two-stage model for mountain-root removal is proposed. First, the lithospheric mantle keel was partially removal by mantle convection at 145 Ma. Loss of the lower lithosphere would increase heat flow into the base of the crust and would cause middle-lower crustal melting. Second, partial melting of the thickened lower crust has weakened the lower crust and increased its gravity instability, thus triggering delamination and foundering of the thickened mafic lower crust or mountain-root collapse. Therefore, convective removal and delamination of the thickened lower crust as two mechanisms of lithospheric thinning are related to causality. post-collisional magmatism, mountain root removal, lithospheric thinning, adakitic rocks, migmatite Citation:Li S G, He Y S, Wang S J. Process and mechanism of mountain-root removal of the Dabie Orogen-Constraints from geochronology and geochemistry of post-collisional igneous rocks.

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“…The upwelling asthenosphere can provide sufficient heat to melt the lithospheric mantle, resulting in voluminous mafic magmas. With respect to the tectonic mechanism for the Early Cretaceous magmatism, lithospheric extension has been suggested Xu et al, 2007;Yang et al, 2008aYang et al, , 2008bZheng, 2008;Dai et al, 2012). The large-scale partial melting of the continental crust marks beginning of the extension, while the mafic-ultramafic igneous rocks and alkaline rocks demonstrate the intensive lithospheric thinning and extensional setting in the region.…”

Section: Implications For Tectonic Evolutionmentioning

confidence: 99%

Petrogenesis of the early Cretaceous volcanic rocks in the North Huaiyang tectono-magmatic unit of the Dabie Orogen, eastern China: Implications for crust–mantle interaction

Gao

Zhao

2016

Journal of Asian Earth Sciences

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Early cretaceous granitoids and their implications for the collapse of the Dabie orogen, eastern China: SHRIMP zircon U–Pb dating and geochemistry

Cited by 197 publications

References 95 publications

High Oxygen Fugacity and Slab Melting Linked to Cu Mineralization: Evidence from Dexing Porphyry Copper Deposits, Southeastern China

High Oxygen Fugacity and Slab Melting Linked to Cu Mineralization: Evidence from Dexing Porphyry Copper Deposits, Southeastern China

Process and mechanism of mountain-root removal of the Dabie Orogen—Constraints from geochronology and geochemistry of post-collisional igneous rocks

Petrogenesis of the early Cretaceous volcanic rocks in the North Huaiyang tectono-magmatic unit of the Dabie Orogen, eastern China: Implications for crust–mantle interaction

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