The role of transport processes of particulate mercury in modifying marine anthropogenic secondary sources, the case of Haifa bay, Israel

We have assessed the redistribution of a secondary source of sedimentary anthropogenic mercury in the Haifa bay (HB) area (SE Levantine basin), which is the northern sink for Nile-driven sand. A long-term (30years) ~80% decrease of the total sedimentary mercury concentrations (THg) was recorded in t...

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Bibliographic Details
Published in:Marine pollution bulletin 2016-04, Vol.105 (1), p.286-291
Main Authors: Bareket, Merav M., Bookman, Revital, Katsman, Regina, de Stigter, Henko, Herut, Barak
Format: Article
Language:English
Subjects:
Anthropogenic pollution
basins
Bays - chemistry
bioavailability
Environmental Monitoring
Geologic Sediments - analysis
Israel
Marine
Marine sediment
Mediterranean
Mercury
Mercury - analysis
Resuspension
risk
sand
temporal variation
Water Pollutants, Chemical - analysis
water pollution
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Summary:We have assessed the redistribution of a secondary source of sedimentary anthropogenic mercury in the Haifa bay (HB) area (SE Levantine basin), which is the northern sink for Nile-driven sand. A long-term (30years) ~80% decrease of the total sedimentary mercury concentrations (THg) was recorded in the inner bay, while an up to 3-fold increase was recorded in the top sediments of the outer bay. Sedimentary THg depth profiles and their temporal variability were used to model the main re-distribution processes, mainly resuspension associated with winter storm-derived transport. This mechanism transforms a secondary, sandy and well-aerated sink into a tertiary, more silty and hypoxic source at adjacent peripheral areas, affecting mercury bioavailability. We revisited the concept of environmental relaxation, i.e. the rate of return of a polluted environment to an acceptable state, showing that sedimentary transport processes may affect the associated ecological risks, mainly at shallow-water coastal sites. •Resuspension processes of particulate mercury modify marine secondary sources.•Shallow water coastal sites reveal changes in anthropogenic mercury distribution.•Sediment transport processes of mercury affect associated ecological risks.•Environmental relaxation is valid when mercury burial is terminal.
ISSN:0025-326X
1879-3363
DOI:10.1016/j.marpolbul.2016.02.014