Coupled impact of climate change and anthropogenic activity on the changes of terrestrial organic carbon accumulation in the river-dominated coastal margin
Description
River-dominated marginal seas play a crucial role in the global carbon cycle. However, the centennial burial record of organic carbon (OC) remains unclear. In this study, we conducted a comprehensive analysis of bulk OC, its isotopic composition (δ13C and Δ14C), biomarkers (lignin and n-alkanes), and sedimentological evolution based on sediment core from the Yellow River-dominated Bohai Sea (BS). We also compiled several published OC burial records from other river-dominated coastal margins. Our findings indicated that since the 1950s, accompanying with a significant reduced sediment load due to the watershed human activities, the accumulation of terrestrial OC in central BS showed a concurrent decline as evidenced by a ~50% decrease in terrigenous/aquatic ratio of n-alkanes (TAR). More intense erosion and resuspension due to stronger hydrodynamic condition under the increasing frequency of winter storms could account for the observed sediment coarsening and concomitant increase of the degraded lignin and old-OC since the 1980s, suggesting that delta erosion-induced sediment redistribution could influence the selective transport and accumulation of the more woody allochthonous OC components. The vertical profiles of lignin records indicated a spatial heterogeneity of recent terrestrial OC burial among the large river-dominated coastal margins under the enhanced global delta erosion. Compared to the fluvial input-related OC burial in the Yangtze River, Pearl River and Mississippi River delta margins, a more hydrodynamic forcing impact on the terrestrial OC burial was discerned in the BS due to the coupled effect of recent climate change and substantial decline in sediment load.