Variations of mercury distribution in the water column during the course of a tidal cycle in the Yangtze Estuarine intertidal zone,China

Tidally induced resuspension processes play an important role in the release of mercury (Hg) into the water column, which increases the risk of Hg exposure to estuarine eco-systems. In order to further understand the geochemical activities of Hg in the intertidal area, the temporal variations of dis...

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Bibliographic Details
Published in:Science China. Chemistry 2012-10, Vol.55 (10), p.2224-2232
Main Authors: Bi, ChunJuan, Chen, ZhenLou, Shen, Jun, Sun, WeiWei
Format: Article
Language:English
Subjects:
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Correlation analysis
Dissolved organic carbon
Dissolved oxygen
Ebb tides
Estuaries
Geochemistry
Oxidation
Principal components analysis
Sediments
Substrates
Water circulation
Water flow
中国南部
地球化学过程
水柱
汞分布
沉积物再悬浮
潮汐周期
潮间带
长江河口
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Summary:Tidally induced resuspension processes play an important role in the release of mercury (Hg) into the water column, which increases the risk of Hg exposure to estuarine eco-systems. In order to further understand the geochemical activities of Hg in the intertidal area, the temporal variations of dissolved Hg (Hg D ) and particulate Hg (Hg P ) in the water column during the course of a tidal cycle and its geochemical processes were studied in the southern intertidal zone of the Yangtze Estuary, China. The concentrations of Hg D and Hg P varied between 37-612 ng/L and 51-638 ng/L respectively during the tidal cycle. The increase of Hg D was distinguished at the early flood tide and late ebb tide when the water flow rates were higher. The Hg D concentrations were negatively correlated with Hg P (r = 0.523, p 0.05) and positively correlated with dissolved organic carbon (DOC) (r = 0.605, p 0.05) in the bottom water, indicating that the Hg D released from the sediments into the overlying water was associated with the simultaneously released colloidal material in the bottom water. The main pathways for the translocation of Hg from the sediments to the overlying water include the processes of desorption from resuspended particles, advection or diffusion from sediments, and the oxidation of resuspended sulfide. The results of principal components analysis (PCA) and Pearson correlation analysis showed that the combined effects of the total suspended substrate (TSS), DOC, pH and dissolved oxygen (DO) influenced the geochemical activities of Hg in the water column during the course of a tidal cycle.
ISSN:1674-7291
1869-1870
DOI:10.1007/s11426-012-4622-x