Magnetic evidence for Yellow River sediment in the late Holocene deposit of the Yangtze River Delta, China

Abstract

Sediment source identification is critical for understanding delta evolution processes and for managing delta sustainability, particularly for deltas experiencing significant recent fluvial sediment discharge. Sediment sources for the Yangtze River Delta (YRD) are commonly assumed to be derived from the Yangtze River, despite the fact that the YRD is a tide-dominated delta that can receive marine-sourced sediments in addition to fluvial inputs. In particular, potential contributions from the neighbouring sediment-laden Yellow River, when it discharged into the Yellow Sea during 1128–1855 CE, remains unclear. Here we present provenance analysis of three cores from the northern YRD using size-specific magnetic characterizations. We find that magnetic properties of sediments younger than ~400 years have large differences among the studied cores. Comparison of magnetic properties to potential sources, including the major Yangtze River tributaries (i.e., Jinsha River, Jialing River, and Han River) and Old Yellow River (OYR), indicates that the northern core received enhanced Yellow River sediment loads over the last 400 years, while the southern core had a dominant Yangtze influence, which is most pronounced in size fractions less than 16 μm. This interpretation is supported by geochemical results. The documented spatial sediment source heterogeneity is caused by differences in tidal-fluvial interaction among delta distributary channels. Our results imply that the neighbouring OYR delta to the north exerts a remote influence on the YRD through longshore transport. This coastal connectivity between deltas should be assessed when forecasting future tide-dominated delta changes in the context of global change.