4.7 Article

Field observations to establish the impact of fluvial flooding on potentially toxic element (PTE) mobility in floodplain soils

期刊

SCIENCE OF THE TOTAL ENVIRONMENT
卷 811, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.scitotenv.2021.151378

关键词

Fluvial flood; Groundwater flood; Legacy contaminants; Mobilisation; Pore water; Hazard

资金

  1. NERC SCENARIO PhD studentship
  2. British Geological Survey Universities Funding Initiative

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During flooding, contaminated sediments deposit onto floodplain topsoil. This study found that flooding generally decreased the concentration of potentially toxic elements (PTEs) in soil pore water, with the precipitation of sulphides being the main process responsible for PTE removal. Changes in pH were associated with decreased copper concentration. Understanding the dominant processes that drive PTE mobility in floodplain soils is important for predicting the impact of future floods on legacy contaminants.
Inundation of river water during flooding deposits contaminated sediments onto floodplain topsoil. Historically, floodplains were considered an important sink for potentially toxic elements (PTEs). With increasing flood frequency and duration, due to climate change and land use change, it is important to understand the impact that further flooding may have on this legacy contamination. In this study a field-based approach was taken, extracting soil pore waters by centrifugation of soils sampled on multiple occasions from multiple locations across a floodplain site, which lies adjacent to the River Loddon in southeast England. Flooding generally decreased pore water PTE concentrations and significantly lower pore water concentrations of Cd, Cu, and Cr were found post-flood compared to pre-flood. The dominant process responsible for this observation was precipitation with sulphides resulting in PTE removal from the pore water post-flood. The changes in pH were found to be associated with the decreased pore water concentration of Cu, which suggests the pH rise may have aided adsorption mechanisms or precipitation with phosphates. The impact of flooding on the release and retention of PTEs in floodplain soils is the net effect of several key processes occurring concurrently. It is important to understand the dominant processes that drive mobility of individual PTEs on specific floodplains so that site-specific predictions can determine the impact of future floods on the environmental fate of legacy contaminants. (c) 2021 Elsevier B.V. All rights reserved.

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