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Potential hazards of metal-contaminated soils in an estuarine impoundment

  • Sediments, Sec 1 • Sediment Quality and Impact Assessment • Research Article
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Abstract

Purpose

A recreational impoundment was constructed in the mid-nineteenth century on the mudflats reclaimed from the Plym Estuary (SW England) following salt marsh removal and infilling with waste soils from local catchments. Restoration of the salt marsh was attempted about 25 years ago when a regulated tidal exchange system was installed in the embankment separating the impoundment from the estuary. Currently, the embankment is disintegrating with the potential loss of the impounded soils, of unknown composition, to the estuary.

Methods

Cores were obtained from the impoundment and the adjoining estuary, sectioned, dried and analysed. The geochronology of the soils, and estuarine sediments, was established using gamma-ray spectroscopy to determine the activities of fallout radionuclides, 137Cs and 210Pb. The concentrations of As, Co, Cr Cu, Fe, Mn, Ni, Pb, Rb, Sn, W and Zn in the core sections were determined by quantitative X-ray fluorescence spectrometry.

Results

Below a shallow surface layer (> 5 cm and post-1963), metal concentrations were high with several exceeding soil quality indices, and enrichment factors (EFs) were elevated, in the sequence Sn > W≈As > Cu > Pb. Estimates of the total masses of particulate Sn, Pb, As and Cu available for down-estuary migration were significant.

Conclusions

Given the ecotoxicological implications resulting from a loss of metal-contaminated soils into the estuary, a strategy for the future management of the impoundment is required. The conditions at this site are compared with ageing estuarine impoundments at other locations, where polluted sediments, or soils, could be vulnerable to release.

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Acknowledgements

The authors are grateful to members of staff of Saltram House Plymouth (National Trust), in particular Mr Tony Flux (National Trust Coast and Marine Adviser (SW)). All the chemical and radiological analyses were conducted in the ISO9001.2018 accredited Consolidated Radio-isotope Facility at the University of Plymouth. The authors thank Andrew Fisher for his assistance with the ICP-MS analyses and the Cartography Unit at the University of Plymouth. We are grateful to Dr Andrew Turner, University of Plymouth, for his critical comments on an early version of this manuscript.

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Correspondence to Geoffrey E. Millward.

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The authors declare that they have no conflicts of interest.

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Responsible editor: Elena Romano

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Glegg, G.A., Barratt, C., Taylor, A. et al. Potential hazards of metal-contaminated soils in an estuarine impoundment. J Soils Sediments 21, 530–544 (2021). https://doi.org/10.1007/s11368-020-02821-x

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  • DOI: https://doi.org/10.1007/s11368-020-02821-x

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