ABSTRACT
Models of in situ oceanic subduction and underthrusting is proposed to explain the formation and exhumation of the central Qiangtang mélange belt. Some studies have suggested that continental subduction occurred in central Qiangtang, but there is a lack of definitive evidence. Thus, the role of continental subduction in the formation and evolution of the central Qiangtang mélange belt has not been fully considered. We therefore studied the origin and structural evolution of the central Qiangtang mélange belt. Detrital zircon research indicates that the continental blocks in the Gangma Co mélange are part of the Carboniferous-Permian strata of the South Qiangtang terrane and have a Gondwanan affinity. Structural studies and geologic observations in the Gangma Co area show a change in the structural style and a pressure difference between the lower mélange and the upper Carboniferous-Permian strata. Structures in the Gangma Co mélange include D1 layer-parallel ductile structures, D2 horizontal contractional structures, D3 flattening structures, and D4 slightly horizontal contractional structures. According to our analysis, the newly proposed in situ continental subduction model best explain these findings.
Acknowledgments
Thoughtful and constructive comments and procedure by Editor-in Chief Dr Robert J. Stern and four anonymous reviewers substantially improved this manuscript. This research was funded by the China Geological Survey (CGS) through: (1) the 1:50,000 regional geological surveys in the Rong Ma Xiang south areas of Tibet [121201103000150004] and (2) the integrated geological survey on the west and central uplift of the Qiangtang Block [12120115026901]. Additionally, we appreciate the Chinese Academy of Geological Sciences and the Chengdu Geological Survey Center. D. Li thanks the whole mapping team of the China University of Geosciences, Beijing.
Disclosure statement
No potential conflict of interest was reported by the authors.