Seismically imaged lithospheric delamination and its controls on the Mesozoic Magmatic Province in South China

The current lithospheric root of the South China Block has been partly removed, yet what mechanisms modified the lithospheric structure remain highly controversial. Here we use a new joint seismic inversion algorithm to image tabular high-velocity anomalies at depths of similar to 90-150 km in the asthenosphere beneath the convergent belt between the Yangtze and Cathaysia blocks that remain weakly connected with the stable Yangtze lithosphere. Based on obtained seismic images and available geochemical data, we interpret these detached fast anomalies as partially destabilized lower lithosphere that initially delaminated at 180-170Ma and has relaminated to their original position after warming up in the mantle by now. We conclude that delamination is the most plausible mechanism for the lithospheric modification and the formation of a Mesozoic Basin and Range-style magmatic province in South China by triggering adiabatic upwelling of the asthenosphere and consequent lithospheric extension and extensive melting of the overlying crust.

Automated summary

We use a new joint seismic inversion algorithm to image tabular high-velocity anomalies at depths of 90-150 km in the asthenosphere beneath the convergent belt between the Yangtze and Cathaysia blocks. These anomalies are interpreted as partially destabilized lower lithosphere that initially delaminated around 180-170 Ma and has relaminated to their original position. We conclude that delamination is the most plausible mechanism for the lithospheric modification and the formation of a Mesozoic Basin and Range-style magmatic province in South China.