Colloid transport of plutonium in the far-field of the Mayak Production Association, Russia

Alexander P. Novikov; Stepan N. Kalmykov; Satoshi Utsunomiya; Rodney C. Ewing; François Horreard; Alex Merkulov; Sue B. Clark; Vladimir V. Tkachev; Boris F. Myasoedov

doi:10.1126/science.1131307

Colloid transport of plutonium in the far-field of the Mayak Production Association, Russia

Alexander P. Novikov, Stepan N. Kalmykov, Satoshi Utsunomiya, Rodney C. Ewing, François Horreard, Alex Merkulov, Sue B. Clark, Vladimir V. Tkachev, Boris F. Myasoedov

Research output: Contribution to journal › Article › peer-review

386 Citations (Scopus)

Abstract

Sorption of actinides, particularly plutonium, onto submicrometer-sized colloids increases their mobility, but these plutonium colloids are difficult to detect in the far-field. We identified actinides on colloids in the groundwater from the Mayak Production Association, Urals, Russia; at the source, the plutonium activity is ∼1000 becquerels per liter. Plutonium activities are still 0.16 becquerels per liter at a distance of 3 kilometers, where 70 to 90 mole percent of the plutonium is sorbed onto colloids, confirming that colloids are responsible for the long-distance transport of plutonium. Nano-secondary ion mass spectrometry elemental maps reveal that amorphous iron oxide colloids adsorb Pu(IV) hydroxides or carbonates along with uranium carbonates.

Original language	English
Pages (from-to)	638-641
Number of pages	4
Journal	Science
Volume	314
Issue number	5799
DOIs	https://doi.org/10.1126/science.1131307
Publication status	Published - Oct 27 2006
Externally published	Yes

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title = "Colloid transport of plutonium in the far-field of the Mayak Production Association, Russia",

abstract = "Sorption of actinides, particularly plutonium, onto submicrometer-sized colloids increases their mobility, but these plutonium colloids are difficult to detect in the far-field. We identified actinides on colloids in the groundwater from the Mayak Production Association, Urals, Russia; at the source, the plutonium activity is ∼1000 becquerels per liter. Plutonium activities are still 0.16 becquerels per liter at a distance of 3 kilometers, where 70 to 90 mole percent of the plutonium is sorbed onto colloids, confirming that colloids are responsible for the long-distance transport of plutonium. Nano-secondary ion mass spectrometry elemental maps reveal that amorphous iron oxide colloids adsorb Pu(IV) hydroxides or carbonates along with uranium carbonates.",

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doi = "10.1126/science.1131307",

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T1 - Colloid transport of plutonium in the far-field of the Mayak Production Association, Russia

AU - Novikov, Alexander P.

AU - Kalmykov, Stepan N.

AU - Utsunomiya, Satoshi

AU - Ewing, Rodney C.

AU - Horreard, François

AU - Merkulov, Alex

AU - Clark, Sue B.

AU - Tkachev, Vladimir V.

AU - Myasoedov, Boris F.

PY - 2006/10/27

Y1 - 2006/10/27

N2 - Sorption of actinides, particularly plutonium, onto submicrometer-sized colloids increases their mobility, but these plutonium colloids are difficult to detect in the far-field. We identified actinides on colloids in the groundwater from the Mayak Production Association, Urals, Russia; at the source, the plutonium activity is ∼1000 becquerels per liter. Plutonium activities are still 0.16 becquerels per liter at a distance of 3 kilometers, where 70 to 90 mole percent of the plutonium is sorbed onto colloids, confirming that colloids are responsible for the long-distance transport of plutonium. Nano-secondary ion mass spectrometry elemental maps reveal that amorphous iron oxide colloids adsorb Pu(IV) hydroxides or carbonates along with uranium carbonates.

AB - Sorption of actinides, particularly plutonium, onto submicrometer-sized colloids increases their mobility, but these plutonium colloids are difficult to detect in the far-field. We identified actinides on colloids in the groundwater from the Mayak Production Association, Urals, Russia; at the source, the plutonium activity is ∼1000 becquerels per liter. Plutonium activities are still 0.16 becquerels per liter at a distance of 3 kilometers, where 70 to 90 mole percent of the plutonium is sorbed onto colloids, confirming that colloids are responsible for the long-distance transport of plutonium. Nano-secondary ion mass spectrometry elemental maps reveal that amorphous iron oxide colloids adsorb Pu(IV) hydroxides or carbonates along with uranium carbonates.

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Colloid transport of plutonium in the far-field of the Mayak Production Association, Russia

Abstract

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