| [1] | Skipperud L, Oughton D, Salbu B. The impact of Pu speciation on distribution coefficients in Mayak soil [M]. The Science of the Total Environment,2000,257:81-93 |
| [2] | Neck Volker, Altmaier Marcus, Fanghnel Thomas. Solubility of plutonium hydroxides/hydrous oxides under reducing conditions and in the presence of oxygen[J].Comptes Rendus Chimie,2007,10:959-977 |
| [3] | Zavarin B M, Roberts S K, Hakem N, et al. Eu(Ⅲ),Sm(Ⅲ),Np(Ⅴ),Pu(Ⅴ) and Pu(Ⅳ) sorption to calcite[J]. Radiochim Acta,2005 93:93-102 |
| [4] | Daniel I D, Serkiz S M,Fjeld R A, et al. Influence of oxidation states on plutonium mobility during long-term transport through an unsaturated subsurface environment[J]. Environ Sci Technol,2004,38:5053-5058 |
| [5] | Toshihiko Ohnuki, Hisao Aoyagi, Yoshihiro, et al. Plutonium(VI) accumulation and reduction by lichen biomass: correlation with U(Ⅵ)[J]. Journal of Environmental Radioactivity, 2004, 77:339-353 |
| [6] | 涅斯米扬诺夫 AH H.放射化学实验教材[M].北京:原子能出版社,1980,227-230 |
| [7] | Choppin G R. Actinide speciation in aquatic systems[J]. Marine Chemistry,2006,99:83-92 |
| [8] | Kersting A B, Reimus P W. Colloid-facilitated transport of low-solubility radionuclides: A field, experimental, and modeling invesigation, chapter 4:Sorption of Pu(Ⅳ) on mineral colloids. UCRL-ID-149688, 2003. |
| [9] | Kersting A B, Reimus P W. Colloid-facilitated transport of low-solubility radionuclides: A field, experimental, and modeling invesigation, chapter 5:Sorption of Pu(Ⅴ) on mineral colloids. UCRL-ID-149688, 2003 |