Spatio-Temporal Evolution of the Crustal Uplift in Eastern NE China: Constraint from Detrital Zircon Ages of Late Mesozoic Clastic Rocks in the Boli Basin

Abstract: Detrital zircon of clastic rocks has been widely recognized as a powerful tool for the study of crustal uplift, which is of great significance for understanding multi-sphere interaction. However, young detrital zircons can only roughly constrain the depositional time of the strata, and commonly used zircon age probability density and kernel density estimations cannot provide sufficient evidence to reveal spatio-temporal differences in tectonic uplift. The basins developed in active continental margins usually … Show more

“…Sedimentary rocks or materials can effectively record the evolutionary history of basins, orogenic processes, crustal uplifts, and even paleo-environments [1][2][3][4][5]. Detrital minerals in sedimentary rocks, such as zircon, garnet, mica, and apatite, are useful media for studies of sedimentary sources and provenance of geological terranes [3,[6][7][8][9].…”

Single-Grain Detrital Apatite Sr Isotopic Composition as an Indicator to Trace Sedimentary Sources: A Case Study of Sedimentary Rocks in the Hui-Cheng Basin, South Qinling, China

“…Sedimentary rocks or materials can effectively record the evolutionary history of basins, orogenic processes, crustal uplifts, and even paleo-environments [1][2][3][4][5]. Detrital minerals in sedimentary rocks, such as zircon, garnet, mica, and apatite, are useful media for studies of sedimentary sources and provenance of geological terranes [3,[6][7][8][9].…”

Single-Grain Detrital Apatite Sr Isotopic Composition as an Indicator to Trace Sedimentary Sources: A Case Study of Sedimentary Rocks in the Hui-Cheng Basin, South Qinling, China