Title: The Cambrian collision of the Yangtze Block with Gondwana: Evidence from provenance analyses
Author: Yuyue Han, Bo Ran*, M. Santosh, Shugen Liu, Zhiwu Li, Yuehao Ye, Fan Lv, Han Wang, and Chao Li
Journal: Geological Society of America Bulletin
Date of Publication: 27 June 2024
Link: https://doi.org/10.1130/B37470.1.
Abstract:The Neoproterozoic to Paleozoic ProtoTethys Ocean has preserved critical records of Earth's evolutionary history. The Lower Cambrian detrital strata along the northern margin of the YangtzeBlock provide valuable information for gaining insight into the evolution of the Proto-Tethys Ocean, which is important in understanding the collision between the Yangtze Block and the Gondwana assembly. Here, we present comprehensive U-Pb ages and trace elements of zircons from Lower Cambrian detrital strata in the Yangtze Block. Our results revealed prominent age peaks at 600–500 Ma and 1100–800 Ma for detrital zircons in the Cambrian strata. The trace element characteristics of the detrital zircon indicate that the source rocks were mainly intermediate-felsic magmatic suites with minor input from mafic sources. These results suggest that the detrital materials were not only supplied from the interior of the Yangtze Block but also from magmatic sources in the internal orogenic belt of Gondwana.
Furthermore, the kernel density estimate plots of detrital zircon U-Pb ages indicate a stable source-sink system in the Yangtze Block during the Early Cambrian. However, our data indicate that the crustal thickness of the Yangtze Block increased significantly since ca. 526 Ma, and the cumulative characteristics of the detrital zircons indicate that the rocks were deposited in a compressional tectonic environment after ca. 526 Ma, in contrast to those during the late Neoprotero zoic, which were generally deposited in an extensional tectonic environment. This transition indicates that the initial collision between the Yangtze Block and the Gondwana supercontinent might have occurred at ca. 526 Ma, marking the rapid aggregation of the northern domain of the Gondwana assembly and potentially serving as an important indicator of the closure of the Yangtze-associated Proto-Tethys Ocean. Our findings provide key insights into late Neoproterozoic–early Paleozoic ocean-land evolution.
