Isotopic investigation of the colloidal mobility of depleted uranium in a podzolic soil

•We investigated the colloidal transport of uranium in a contaminated site.•We clearly shows the importance of colloids in uranium mobilization and migration.•Mobilization of anthropogenic uranium is enhanced compared to native uranium.•Smaller colloids are likely to dominate for the sorption of ant...

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Published in:Chemosphere (Oxford) 2014-05, Vol.103, p.343-348
Main Authors: Harguindeguy, S., Crançon, P., Pointurier, F., Potin-Gautier, M., Lespes, G.
Format: Article
Language:English
Subjects:
Analytical chemistry
Applied sciences
Batch experiments
Biological and physicochemical properties of pollutants. Interaction in the soil
Chemical Sciences
Colloids
Colloids - chemistry
Depleted uranium
Exact sciences and technology
Isotopes
Leaching
Mobility
Pollution
Soil - chemistry
Soil and sediments pollution
Soil Pollutants, Radioactive - analysis
Ultrafiltration
Uranium - analysis
Water Pollutants, Radioactive - analysis
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cited_by cdi_FETCH-LOGICAL-c441t-73c482e48b76422a03078c21481c42c54ad5a4504fb0775a756583040fddc4d13
cites cdi_FETCH-LOGICAL-c441t-73c482e48b76422a03078c21481c42c54ad5a4504fb0775a756583040fddc4d13
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container_start_page 343
container_title Chemosphere (Oxford)
container_volume 103
creator Harguindeguy, S.
Crançon, P.
Pointurier, F.
Potin-Gautier, M.
Lespes, G.
description •We investigated the colloidal transport of uranium in a contaminated site.•We clearly shows the importance of colloids in uranium mobilization and migration.•Mobilization of anthropogenic uranium is enhanced compared to native uranium.•Smaller colloids are likely to dominate for the sorption of anthropogenic uranium.•Native natural uranium is mainly associated with coarser fractions. The mobility and colloidal migration of uranium were investigated in a soil where limited amounts of anthropogenic uranium (depleted in the 235U isotope) were deposited, adding to the naturally occurring uranium. The colloidal fraction was assumed to correspond to the operational fraction between 10kDa and 1.2μm after (ultra)filtration. Experimental leaching tests indicate that approximately 8–15% of uranium is desorbed from the soil. Significant enrichment of the leachate in the depleted uranium (DU) content indicates that uranium from recent anthropogenic DU deposit is weakly bound to soil aggregates and more mobile than geologically occurring natural uranium (NU). Moreover, 80% of uranium in leachates was located in the colloidal fractions. Nevertheless, the percentage of DU in the colloidal and dissolved fractions suggests that NU is mainly associated with the non-mobile coarser fractions of the soil. A field investigation revealed that the calculated percentages of DU in soil and groundwater samples result in the enhanced mobility of uranium downstream from the deposit area. Colloidal uranium represents between 10% and 32% of uranium in surface water and between 68% and 90% of uranium in groundwater where physicochemical parameters are similar to those of the leachates. Finally, as observed in batch leaching tests, the colloidal fractions of groundwater contain slightly less DU than the dissolved fraction, indicating that DU is primarily associated with macromolecules in dissolved fraction.
doi_str_mv 10.1016/j.chemosphere.2013.12.033
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The mobility and colloidal migration of uranium were investigated in a soil where limited amounts of anthropogenic uranium (depleted in the 235U isotope) were deposited, adding to the naturally occurring uranium. The colloidal fraction was assumed to correspond to the operational fraction between 10kDa and 1.2μm after (ultra)filtration. Experimental leaching tests indicate that approximately 8–15% of uranium is desorbed from the soil. Significant enrichment of the leachate in the depleted uranium (DU) content indicates that uranium from recent anthropogenic DU deposit is weakly bound to soil aggregates and more mobile than geologically occurring natural uranium (NU). Moreover, 80% of uranium in leachates was located in the colloidal fractions. Nevertheless, the percentage of DU in the colloidal and dissolved fractions suggests that NU is mainly associated with the non-mobile coarser fractions of the soil. A field investigation revealed that the calculated percentages of DU in soil and groundwater samples result in the enhanced mobility of uranium downstream from the deposit area. Colloidal uranium represents between 10% and 32% of uranium in surface water and between 68% and 90% of uranium in groundwater where physicochemical parameters are similar to those of the leachates. 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The mobility and colloidal migration of uranium were investigated in a soil where limited amounts of anthropogenic uranium (depleted in the 235U isotope) were deposited, adding to the naturally occurring uranium. The colloidal fraction was assumed to correspond to the operational fraction between 10kDa and 1.2μm after (ultra)filtration. Experimental leaching tests indicate that approximately 8–15% of uranium is desorbed from the soil. Significant enrichment of the leachate in the depleted uranium (DU) content indicates that uranium from recent anthropogenic DU deposit is weakly bound to soil aggregates and more mobile than geologically occurring natural uranium (NU). Moreover, 80% of uranium in leachates was located in the colloidal fractions. Nevertheless, the percentage of DU in the colloidal and dissolved fractions suggests that NU is mainly associated with the non-mobile coarser fractions of the soil. A field investigation revealed that the calculated percentages of DU in soil and groundwater samples result in the enhanced mobility of uranium downstream from the deposit area. Colloidal uranium represents between 10% and 32% of uranium in surface water and between 68% and 90% of uranium in groundwater where physicochemical parameters are similar to those of the leachates. Finally, as observed in batch leaching tests, the colloidal fractions of groundwater contain slightly less DU than the dissolved fraction, indicating that DU is primarily associated with macromolecules in dissolved fraction.</description><subject>Analytical chemistry</subject><subject>Applied sciences</subject><subject>Batch experiments</subject><subject>Biological and physicochemical properties of pollutants. 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The mobility and colloidal migration of uranium were investigated in a soil where limited amounts of anthropogenic uranium (depleted in the 235U isotope) were deposited, adding to the naturally occurring uranium. The colloidal fraction was assumed to correspond to the operational fraction between 10kDa and 1.2μm after (ultra)filtration. Experimental leaching tests indicate that approximately 8–15% of uranium is desorbed from the soil. Significant enrichment of the leachate in the depleted uranium (DU) content indicates that uranium from recent anthropogenic DU deposit is weakly bound to soil aggregates and more mobile than geologically occurring natural uranium (NU). Moreover, 80% of uranium in leachates was located in the colloidal fractions. Nevertheless, the percentage of DU in the colloidal and dissolved fractions suggests that NU is mainly associated with the non-mobile coarser fractions of the soil. 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subjects Analytical chemistry
Applied sciences
Batch experiments
Biological and physicochemical properties of pollutants. Interaction in the soil
Chemical Sciences
Colloids
Colloids - chemistry
Depleted uranium
Exact sciences and technology
Isotopes
Leaching
Mobility
Pollution
Soil - chemistry
Soil and sediments pollution
Soil Pollutants, Radioactive - analysis
Ultrafiltration
Uranium - analysis
Water Pollutants, Radioactive - analysis
title Isotopic investigation of the colloidal mobility of depleted uranium in a podzolic soil
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