Mercury contamination in the vicinity of a derelict chlor-alkali plant. Part I: Sediment and water contamination of Lake Balkyldak and the River Irtysh
Mercury contamination in the vicinity of a derelict chlor-alkali plant. Part I: Sediment and water contamination of Lake Balkyldak and the River Irtysh
A mercury-cell chlor-alkali plant operated in Pavlodar, Northern Kazakhstan, for 18 years and caused widespread contamination of the surrounding environment. Untreated wastewater from the plant was discharged to Lake Balkyldak, a shallow impounded lake without an outlet. The nearby River Irtysh was also suspected to be impacted by mercury (Hg) via the transport of contaminated groundwater. We took sediment and water samples from both aquatic systems, and also sampled soils along the shoreline of the lake and in the Irtysh flood plain. Sediments from Lake Balkyldak were found to be very heavily contaminated, with Hg concentrations in the surface layer reaching up to ~1500 mg kg-1 near the wastewater outfall pipe. The contaminated lake sediments are prone to wind-driven resuspension and are acting as a strong source of Hg to the water column. Unfiltered lake water samples taken in shallow areas within 10-15 m from the shoreline contained from 0.11 ?g Hg L-1 in the less contaminated northern part of the lake to 1.39 ?g L-1 near the pollutant outfall in the south (up to 7.3 ?g L-1 on windy days). Sediments from the River Irtysh were only slightly impacted, with maximum Hg concentrations of 0.046 mg kg-1 in the old river channel and 0.36 mg kg-1 in floodplain oxbow lakes. In water samples from the River Irtysh, Hg was generally not detected, although trace concentrations (3 to 9 ng L-1) were found in some samples taken from oxbow lakes. We conclude that the river is not significantly impacted by Hg, but the highly contaminated Lake Balkyldak poses a threat and is in need of remediation. Potential remediation options for the lake are reviewed and are discussed in the context of experiences made at other Hg-contaminated sites.
mercury, sediments, remediation, onondaga lake, lavaca bay, lake turingen
1-16
Ullrich, Susanne M.
c42f5249-f43d-4536-8f2d-19871247cd09
Ilyushchenko, Mikhail A.
2bb12032-330a-455d-8c65-916500cbf256
Kamberov, Irken M.
a3558cf7-40c0-4617-b955-68ff079ded59
Tanton, Trevor W.
0f6a361e-394f-4cfc-94a6-5311442ae366
2007
Ullrich, Susanne M.
c42f5249-f43d-4536-8f2d-19871247cd09
Ilyushchenko, Mikhail A.
2bb12032-330a-455d-8c65-916500cbf256
Kamberov, Irken M.
a3558cf7-40c0-4617-b955-68ff079ded59
Tanton, Trevor W.
0f6a361e-394f-4cfc-94a6-5311442ae366
Ullrich, Susanne M., Ilyushchenko, Mikhail A., Kamberov, Irken M. and Tanton, Trevor W.
(2007)
Mercury contamination in the vicinity of a derelict chlor-alkali plant. Part I: Sediment and water contamination of Lake Balkyldak and the River Irtysh.
Science of the Total Environment, 381 (1-3), .
(doi:10.1016/j.scitotenv.2007.02.033).
Abstract
A mercury-cell chlor-alkali plant operated in Pavlodar, Northern Kazakhstan, for 18 years and caused widespread contamination of the surrounding environment. Untreated wastewater from the plant was discharged to Lake Balkyldak, a shallow impounded lake without an outlet. The nearby River Irtysh was also suspected to be impacted by mercury (Hg) via the transport of contaminated groundwater. We took sediment and water samples from both aquatic systems, and also sampled soils along the shoreline of the lake and in the Irtysh flood plain. Sediments from Lake Balkyldak were found to be very heavily contaminated, with Hg concentrations in the surface layer reaching up to ~1500 mg kg-1 near the wastewater outfall pipe. The contaminated lake sediments are prone to wind-driven resuspension and are acting as a strong source of Hg to the water column. Unfiltered lake water samples taken in shallow areas within 10-15 m from the shoreline contained from 0.11 ?g Hg L-1 in the less contaminated northern part of the lake to 1.39 ?g L-1 near the pollutant outfall in the south (up to 7.3 ?g L-1 on windy days). Sediments from the River Irtysh were only slightly impacted, with maximum Hg concentrations of 0.046 mg kg-1 in the old river channel and 0.36 mg kg-1 in floodplain oxbow lakes. In water samples from the River Irtysh, Hg was generally not detected, although trace concentrations (3 to 9 ng L-1) were found in some samples taken from oxbow lakes. We conclude that the river is not significantly impacted by Hg, but the highly contaminated Lake Balkyldak poses a threat and is in need of remediation. Potential remediation options for the lake are reviewed and are discussed in the context of experiences made at other Hg-contaminated sites.
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Published date: 2007
Keywords:
mercury, sediments, remediation, onondaga lake, lavaca bay, lake turingen
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Local EPrints ID: 46315
URI: http://eprints.soton.ac.uk/id/eprint/46315
ISSN: 0048-9697
PURE UUID: fdbde196-ee65-410c-b580-0ec218106e1c
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Date deposited: 14 Jun 2007
Last modified: 15 Mar 2024 09:20
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Author:
Susanne M. Ullrich
Author:
Mikhail A. Ilyushchenko
Author:
Irken M. Kamberov
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