Plate tectonic control on the formation and tectonic migration of Cenozoic
basins in northern margin of the South China Sea
-
Abstract
The tectonic evolution history of the South China Sea (SCS) is important for understanding the interaction between
the Pacific Tectonic Domain and the Tethyan Tectonic Domain, as well as the regional tectonics and
geodynamics during the multi-plate convergence in the Cenozoic. Several Cenozoic basins formed in the northern
margin of the SCS, which preserve the sedimentary tectonic records of the opening of the SCS. Due to the spatial
non-uniformity among different basins, a systematic study on the various basins in the northern margin of the SCS
constituting the Northern Cenozoic Basin Group (NCBG) is essential. Here we present results from a detailed
evaluation of the spatial-temporal migration of the boundary faults and primary unconformities to unravel the
mechanism of formation of the NCBG. The NCBG is composed of the Beibu Gulf Basin (BBGB), Qiongdongnan
Basin (QDNB), Pearl River Mouth Basin (PRMB) and Taixinan Basin (TXNB). Based on seismic profiles and
gravity-magnetic anomalies, we confirm that the NE-striking onshore boundary faults propagated into the
northern margin of the SCS. Combining the fault slip rate, fault combination and a comparison of the unconformities
in different basins, we identify NE-striking rift composed of two-stage rifting events in the NCBG: an
early-stage rifting (from the Paleocene to the Early Oligocene) and a late-stage rifting (from the Late Eocene to the
beginning of the Miocene). Spatially only the late-stage faults occurs in the western part of the NCBG (the BBGB,
the QDNB and the western PRMB), but the early-stage rifting is distributed in the whole NCBG. Temporally, the
early-stage rifting can be subdivided into three phases which show an eastward migration, resulting in the same
trend of the primary unconformities and peak faulting within the NCBG. The late-stage rifting is subdivided into
two phases, which took place simultaneously in different basins. The first and second phase of the early-stage
rifting is related to back-arc extension of the Pacific subduction retreat system. The third phase of the earlystage
rifting resulted from the joint effect of slab-pull force due to southward subduction of the proto-SCS and
the back-arc extension of the Pacific subduction retreat system. In addition, the first phase of the late-stage
faulting corresponds with the combined effect of the post-collision extension along the Red River Fault and
slab-pull force of the proto-SCS subduction. The second phase of the late-stage faulting fits well with the sinistral
faulting of the Red River Fault in response to the Indochina Block escape tectonics and the slab-pull force of the
proto-SCS.
*
-
-