Full-depth profiles of PAHs in the Western South China Sea: Influence of Upwelling and Mesoscale Eddy

Oceanic processes such as coastal upwelling and mesoscale eddy, could influence the spatial distribution and environmental behaviors of semi-volatile organic pollutants in the marine environment. Seawater samples were collected from the full-depth water columns from the South China Sea (SCS), and PAH concentrations (Sigma(14)PAH) in the continental shelf and the open basin areas were 16-110 and 10-93 ng/L respectively. Results of isomeric ratios and principal component analysis illustrated PAHs' mixed sources (petrogenic and pyrogenic). PAH inventory of the SCS seawater was estimated as 100 +/- 58 thousand tons, and the majority of them was stored in the intermediate and deep water masses. Generally, full-depth profiles of dissolved PAHs showed an enrichment in surface and exhaustion in the deep pattern, and this might be influenced by the oceanic processes such as coastal upwelling or eddy diffusion. In the cross-shelf area, upwelling could enhance the scavenging efficiency of PAHs on the upper layer, and increase the pollutant concentration in the medium and deep water. While in the open-basin area, PAHs were more likely influenced by the halocline stratification and eddy diffusion, and their vertical fluxes due to eddy diffusion was estimated to be 1.2 x 10(-6) g s(-1). This study highlighted the influences of oceanic processes in transport PAHs in the marginal sea, further study is needed to investigate their seasonal variations related to the monsoon characteristics. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

Oceanic processes such as coastal upwelling and mesoscale eddy can influence the distribution and behavior of semi-volatile organic pollutants in marine environments. This study in the South China Sea found that PAH concentrations were influenced by these oceanic processes, with potential vertical fluxes estimated for pollutants in different regions. Further research is needed to investigate the seasonal variations in pollutant transport related to monsoon characteristics.