Interannual variation and sources identification of heavy metals in seawater near shipping lanes: Evidence from a coral record from the northern South China Sea

Heavy metal pollution is a serious environmental problem in the marine ecosystem. Thereinto, marine transportation activities have gradually become an important source of heavy metals in seawater. However, the lack of studies on the temporal dynamics of seawater heavy metals in marine shipping areas...

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Published in:The Science of the total environment 2023-01, Vol.854, p.158755, Article 158755
Main Authors: Xie, Sirong, Jiang, Wei, Sun, Yinan, Yu, Kefu, Feng, Chunmei, Han, Yansong, Xiao, Yuwen, Wei, Chaoshuai
Format: Article
Language:English
Subjects:
Animals
Anthozoa
China
corals
Ecosystem
energy use and consumption
Environmental Monitoring - methods
Geologic Sediments - analysis
Heavy metal
heavy metals
Lead - analysis
marine ecosystems
marine environment
Metals, Heavy - analysis
oils
pollution
Porites lutea
principal component analysis
regression analysis
Risk Assessment
sea transportation
seawater
Seawater - analysis
Shipping
Source identification
South China Sea
surface water temperature
temporal variation
Water Pollutants, Chemical - analysis
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Summary:Heavy metal pollution is a serious environmental problem in the marine ecosystem. Thereinto, marine transportation activities have gradually become an important source of heavy metals in seawater. However, the lack of studies on the temporal dynamics of seawater heavy metals in marine shipping areas has hindered our understanding of the sources and transport mechanisms of heavy metals in seawater of hectic shipping waters. Therefore, we investigated the interannual resolution variation of heavy metals in Porites lutea skeletons during the past 32 years under the rapid development of the shipping sector near Weizhou Island from the northern South China Sea. Results show that most heavy metal concentrations with higher coefficients of variation (≥100 %) in the Porites coral skeletons were higher than those in the uncontaminated or less anthropogenic waters. The results of principal component analysis and multiple linear regression showed that the interannual variations of Ni, V, Cr, Co, Zn, Cu, Mn, Fe and Mo were mainly impacted by marine oil extraction and oil spills generated by shipping activities, accounting for 51.58 %. The effect of sea surface temperature accounts for 13.44 %, and controls the interannual variations of Ba and Sr. The effect of industrial pollution accounts for 13.27 %, and explains the interannual variations of Cd and Y. The fuel consumption of marine shipping accounted for 8.76 %, explaining the interannual variations of Pb. The total contribution of anthropogenic activities reached 73.61 %. The interannual variation of heavy metals indicates that hectic marine shipping activities are the dominant cause of Ni, V, Pb, Cr, Co, Zn, Cu, Mn, Fe and Mo input to surface seawater around Weizhou Island. This provided valuable data for understanding the temporal dynamics and potential sources of heavy metals in the marine environment by using coral skeletons as a high-resolution recording vehicle. [Display omitted] •Coral record in time series reveals heavy metal pollution in surface seawater.•Interannual variation history of heavy metals in the seawater was reestablished.•Marine shipping activities are the dominant cause of heavy metals in seawater.
ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2022.158755