A review on cesium desorption at the freshwater-seawater interface

Understanding the processes governing the behavior of radiocesium in the sea is still essential to make accurate assessments of its potential impacts on marine ecosystems. One of the most important of this process is the desorption that may occur at the river-sea interface due to changes in physico-...

Full description

Saved in:
Bibliographic Details
Published in:Journal of environmental radioactivity 2020-07, Vol.218, p.106255-106255, Article 106255
Main Authors: Delaval, A, Duffa, C, Radakovitch, O
Format: Article
Language:English
Subjects:
Ecology, environment
Life Sciences
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Understanding the processes governing the behavior of radiocesium in the sea is still essential to make accurate assessments of its potential impacts on marine ecosystems. One of the most important of this process is the desorption that may occur at the river-sea interface due to changes in physico-chemical conditions, including ionic strength and solution composition. It has been the subject of many studies using field measurements or laboratory experiments, but there was no global interpretation of these works and their results. The present review summarizes relevant laboratory experiments studying desorption of Cs (stable or radioactive) from particles in sea or brackish waters. To date, 32 experimental studies have been carried out on 68 Cs-bearing samples since 1964. A wide range of desorbed fraction (0–86%) was observed, partly depending on the experimental design. For particles containing radiocesium issued from a contamination in the environment, the desorption ranges from 0 to 64% of the particulate activity, with a median at only 3%. Particles contaminated in laboratory show a range between 6 and 86% with a multimodal distribution. The desorption initiates at low salinity (3–4) and rapidly reaches a threshold around 10–15. Laboratory experiments show that two first-order reactions govern the kinetics of the process, with half-life reaction times of 1 h and a few days. These two reactions are probably linked to the adsorption of Cs onto different particles sites. Also, the dynamic of Cs desorption depends on its initial distribution on these different sites, in relation with the history of its contamination and an aging effect. •We reviewed 32 studies on cesium desorption from particles in seawater.•Desorption ranges from 0 to 86% depending on the experimental design.•Desorption initiates at low salinity and reach a threshold above 10–15.•Initial distribution of Cs, amount sorbed and contact time influence the desorption.
ISSN:0265-931X
1879-1700
DOI:10.1016/j.jenvrad.2020.106255