Applying foraminiferal stratigraphy as a biomarker for heavy metal contamination and mining impact in a fiord in West Greenland

Sulphidic mine waste disposed in marine environments constitutes an environmental risk to aquatic life due to potential uptake and accumulation of heavy metals in biota. Fiord sediments near the former Black Angel Mine in West Greenland are contaminated by lead and zinc as a result of submarine tail...

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Bibliographic Details
Published in:Marine Environmental Research
Main Authors: Elberling, Bo, Knudsen, Karen Luise, Kristensen, Peter H., Asmund, Gert
Format: Article in Journal/Newspaper
Language:English
Published: 2003
Subjects:
Arctic
Bioavailable
Biomarker
Foraminifera
Lead pollution
Melonis barleeanus
Mining
Submarine tailings disposal
Foraminifera*
Greenland
Online Access:https://curis.ku.dk/portal/da/publications/applying-foraminiferal-stratigraphy-as-a-biomarker-for-heavy-metal-contamination-and-mining-impact-in-a-fiord-in-west-greenland(1284d508-9c76-46bc-a640-1090c9f48d5e).html
https://doi.org/10.1016/S0141-1136(02)00219-2
http://www.scopus.com/inward/record.url?scp=0037374940&partnerID=8YFLogxK
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Summary:Sulphidic mine waste disposed in marine environments constitutes an environmental risk to aquatic life due to potential uptake and accumulation of heavy metals in biota. Fiord sediments near the former Black Angel Mine in West Greenland are contaminated by lead and zinc as a result of submarine tailings disposal in 1973-1990. In 1999 cores were taken up to 10 km away from the disposal area. Analyses include heavy metals, radiochemical dating ( 210 Pb) and high-resolution foraminiferal stratigraphy. The mining operation resulted in significant changes in the assemblage composition. In addition, up to 20% of the Melonis barleeanus population found in sediment deposited during nearby tailings disposal was deformed compared to a natural background of less than 5%. Throughout cores representing the last 100 years of sedimentation, the total numbers and frequency of morphological abnormalities among M. barleeanus revealed some correlation with heavy metals concentrations (up to r 2 =79%). We conclude that abnormalities among foraminifera may represent a useful biomarker for evaluating trends in the biological impact resulting of submarine tailings disposal as well as long-term environmental impact and subsequent recovery.

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