Your search keyword '"Wan-Long Hu"' showing total 2 results

1. Subduction erosion and crustal material recycling indicated by adakites in central Tibet

Author

Peng Sun, Wan-Long Hu, Jun Wang, Qiang Wang, Lin Ma, Yue Qi, Derek A. Wyman, Zong-Yong Yang, and Lu-Lu Hao

Subjects

Subduction, Erosion, Geochemistry, Adakite, Geology, 010503 geology, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences, Material recycling

Abstract

Subduction erosion is important for crustal material recycling and is widespread in modern active convergent margins. However, such a process is rarely identified in fossil convergent systems, which casts doubt on the importance of subduction erosion through the geological record. We report on ca. 155 Ma Kangqiong (pluton) intrusive rocks of a Mesozoic magmatic arc in the southern Qiangtang terrane, central Tibet. These rocks mainly consist of trondhjemites and tonalites and are similar to slab-derived adakites with mantle-like zircon oxygen isotope compositions (δ18O = 5.2‰–5.6‰), they display more evolved Sr-Nd isotopes and higher Th/ La relative to mid-oceanic ridge basalts from the Bangong-Nujiang suture, and they contain abundant amphibole and biotite. These characteristics indicate magma generation via H2O- fluxed melting of eroded forearc crust debris with subducted oceanic crust at 1.5–2.5 GPa and 700–800 °C. In addition, the intrusions are exposed

Published

2021

2. Subduction erosion and crustal material recycling indicated by adakites in central Tibet.

Author

Zong-Yong Yang, Qiang Wang, Lu-Lu Hao, Wyman, Derek A., Lin Ma, Jun Wang, Yue Qi, Peng Sun, and Wan-Long Hu

Abstract

Subduction erosion is important for crustal material recycling and is widespread in modern active convergent margins. However, such a process is rarely identified in fossil convergent systems, which casts doubt on the importance of subduction erosion through the geological record. We report on ca. 155 Ma Kangqiong (pluton) intrusive rocks of a Mesozoic magmatic arc in the southern Qiangtang terrane, central Tibet. These rocks mainly consist of trondhjemites and tonalites and are similar to slab-derived adakites with mantle-like zircon oxygen isotope compositions (-18O = 5.2°-5.6°), they display more evolved Sr-Nd isotopes and higher Th/La relative to mid-oceanic ridge basalts from the Bangong-Nujiang suture, and they contain abundant amphibole and biotite. These characteristics indicate magma generation via H2O fluxed melting of eroded forearc crust debris with subducted oceanic crust at 1.5-2.5 GPa and 700-800 °C. In addition, the intrusions are exposed <20 km north of the Bangong-Nujiang suture. Given the formation of adakites, narrow arc-suture distance, migration of the Jurassic frontal arc toward the continent interior, and other independent geological archives, we suggest that the hydrated forearc crust materials were removed from the overlying plate and carried into the mantle by subduction erosion. Our study provides the first direct magmatic evidence for a subduction erosion process in pre-Cenozoic convergent systems, which confirms an important role for such processes in subduction-zone material recycling. [ABSTRACT FROM AUTHOR]

Published

2021