Records of <scp>Nanhua</scp> island arc activity between the north and south <scp>Wuyi</scp> terranes in the <scp>Cathaysia Block</scp>

Collisional orogeny is characterized by deep subduction of continental crust and major crustal thickening, leading to high-pressure/high-temperature metamorphism and anataxis of the subducted continental crust. Since conductive heating of large slabs of cold, subducted continental crust is a slow process, heating up to a temperature that is high enough to generate significant partial melting can take tens of millions of years. Where the spatial and temporal relationships are obscured due to later modification (e.g., post-collisional rifting), the peak metamorphism and magmatism may be interpreted as an orogeny that is separate from the collision, or may be interpreted as an intraplate orogeny as no contemporaneous arcs or ophiolite may be present. We propose here that this is the case for the early Paleozoic orogeny in South China. In our model, the West Cathaysia terrane of South China was part of a continent (possibly Australia) on the lower plate and collided with another continent (possibly India) in Cambrian-Ordovician, at the late stage of Gondwana assembly, and the late Ordovician-Silurian Wuyi-Yunkai orogeny, characterized by amphibolite-granulite facies metamorphism and extensive anataxis, was a continuation of the Cambrian-Ordovician collisional orogeny. In this interpretation, the Wuyi-Yunkai orogen was part of the Kuunga orogen before Gondwana breakup.

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Records of Nanhua island arc activity between the north and south Wuyi terranes in the Cathaysia Block

Cited by 3 publications

References 55 publications

Late Tonian (ca. 770-720 Ma) arc activity in the Wuyi domain of the West Cathaysia terrane, South China

Late Tonian (ca. 770-720 Ma) arc activity in the Wuyi domain of the West Cathaysia terrane, South China

Preface for the Thematic Issue: Tectono‐Magmatic‐Metallogenesis in Eastern China

The early Paleozoic Wuyi–Yunkai orogeny in South China: a collisional orogeny with a major lag in time between onset of collision and peak metamorphism in subducted continental crust

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