@article{oai:kanazawa-u.repo.nii.ac.jp:00010762,
 author = {Sawai, Hikaru and Rahman, Ismail M. M. and Lu, Chao and Tsukagoshi, Yoshinori and Begum, Zinnat A. and Maki, Teruya and Hasegawa, Hiroshi},
 journal = {Microchemical Journal},
 month = {Dec},
 note = {The accumulation behaviors and solid phase partitioning patterns of stable cesium, which have been recognized as an indicator of the long-term movement of radioactive cesium (137Cs or 134Cs) in ecosystems, were studied in typical and natural soils of Japanese origin, namely, red clay, leaf-mold and andosol soils. The retention and migration of soil-phase cesium have been explained relative to various factors, such as soil organic matter contents, competitive cation concentrations and the adsorption ratio of Cs to the solid phase. Cesium was adsorbed nearly quantitatively in the leaf-mold type soil, and the rate of Cs absorption increased as the particle size decreased in the red clay and andosol soils. The distributions of Cs within the soil solid phases were defined using the selective sequential extraction scheme and were used to explain its relative incorporation in the soil fractions. Solid phase fractionation indicated that nearly half of the total cesium concentrations in the soils were in the 'residual' fraction (representing the metal that was incorporated within the crystalline lattice of the soil and was difficult to extract). These findings are expected to provide information regarding suitable conditions for remediation, immobilization or the recovery of cesium from contaminated soils with excess cesium concentrations.},
 pages = {158--165},
 title = {Temporal variations of accumulated cesium in natural soils after an uncharacteristic external exposure},
 volume = {118},
 year = {2014}
}