Distribution and risk assessment of trace metals in sediments from Yangtze River estuary and Hangzhou Bay, China

The Yangtze River estuary (YRE) and Hangzhou Bay (HZB) is of environmental significance because of the negative impact from industrial activities and rapid development of aquaculture on the south bank of HZB (SHZB) in recent years. This study investigated the distribution and risk assessments of trace metals (Cr, Cu, Zn, Hg, Pb, and Cd) accumulated in surface sediments by sampling in YRE, outer and south HZB. Copper and Zn concentration (avg. 35.4 and 98.7 mg kg(-1), respectively) in surface sediments were generally higher than the background suggesting a widespread of Cu and Zn in the coastal area of Yangtze River Delta. High concentrations of Cu (similar to 42 mg kg(-1)), Zn (similar to 111 mg kg(-1)), Cd (similar to 0.27 mg kg(-1)), and Hg (similar to 0.047 mg kg(-1)) were found in inner estuary of YRE and decreased offshore as a result of terrestrial input and dilution effect of total metal contents by cleaner sediments from the adjacent sea. In outer HZB, accumulation of terrestrial derived metal has taken place near the Zhoushan Islands. Increase in sediment metal concentration from the west (inner) to the east (outer) of SHZB gave rise to the input of fine-grained sediments contaminated with metals from outer bay. According the results from geoaccumulation index, nearly 75% of samples from YRE were moderately polluted (1.0 < I (geo) < 2.0) by Cd. Cadmium and Hg contributed for 80 similar to 90% to the potential ecological risk index in the YRE and HZB, with similar to 72% sites in HZB under moderate risk (150 <= RI < 300) especially near Zhoushan Islands.