Add to ORKGMigration of 14C derived from 14C-acetic acid was examined by using soils sampled from paddies in four administrative areas in Japan (Aomori, Yamanashi, Ehime and Okinawa) and rice plant in a tracer experiment to understand the fate of 14C in the paddy soil-to-rice plant system. The loss of 14C radioactivity levels derived from 14C-acetic acid was caused by soil microorganism breakdown. A part of the 14C fixation to soil was caused by microbial assimilation into the fatty acid fraction. 14C moved upward via two different types of 14C dynamics in soil: quick movement upward; and constant but slow movement upward. 14C was highly assimilated into the plant panicle and that was caused by the root-uptake and the transfer of 14C. Migration of 14C...
For appropriate safety assessment of TRU waste disposal, gasification ratios and distribution coeffi...
For appropriate safety assessment of TRU waste disposal, the dominant chemical species of 14C-gas wa...
In Japan, transuranic (TRU) waste is grouped into four types. Group 2 type includes hulls and end p...
For safety assessment of geological disposal of transuranic (TRU) waste, it is necessary to clarify ...
It has been recognized that 14C is one of the dominant radionuclides affecting dose from TRU wastes....
Three types of culture experiments using paddy rice (Oryza sativa L.) were performed to examine root...
Transuranic (TRU) waste containing radionuclides is generated during the operation and dismantling o...
Experiments using rice plants (Oryza sativa L.) were conducted to examine uptake of 14C-acetic acid ...
Experiments using rice plants (Oryza sativa L.) were conducted to examine uptake of 14C-acetic acid ...
Carbon-14 (C-14, t1/2=5.73*103 yrs) from radioactive waste is one of the most important radioactive ...
Distributions of C-14 in solid, liquid, and gas phases were determined by batch sorption tests using...
Radiocarbon (14C) partitioning ratios in the soil solid, liquid, and gas phases was determined by ba...
For appropriate safety assessment of TRU waste disposal, gasification ratios and distribution coeffi...
The behavior of 14C from radioactive waste in paddy rice (Oryza sativa L.) at different stages of pl...
Transuranic (TRU) waste containing radionuclides is generated during the operation and dismantling o...
For appropriate safety assessment of TRU waste disposal, gasification ratios and distribution coeffi...
For appropriate safety assessment of TRU waste disposal, the dominant chemical species of 14C-gas wa...
In Japan, transuranic (TRU) waste is grouped into four types. Group 2 type includes hulls and end p...
For safety assessment of geological disposal of transuranic (TRU) waste, it is necessary to clarify ...
It has been recognized that 14C is one of the dominant radionuclides affecting dose from TRU wastes....
Three types of culture experiments using paddy rice (Oryza sativa L.) were performed to examine root...
Transuranic (TRU) waste containing radionuclides is generated during the operation and dismantling o...
Experiments using rice plants (Oryza sativa L.) were conducted to examine uptake of 14C-acetic acid ...
Experiments using rice plants (Oryza sativa L.) were conducted to examine uptake of 14C-acetic acid ...
Carbon-14 (C-14, t1/2=5.73*103 yrs) from radioactive waste is one of the most important radioactive ...
Distributions of C-14 in solid, liquid, and gas phases were determined by batch sorption tests using...
Radiocarbon (14C) partitioning ratios in the soil solid, liquid, and gas phases was determined by ba...
For appropriate safety assessment of TRU waste disposal, gasification ratios and distribution coeffi...
The behavior of 14C from radioactive waste in paddy rice (Oryza sativa L.) at different stages of pl...
Transuranic (TRU) waste containing radionuclides is generated during the operation and dismantling o...
For appropriate safety assessment of TRU waste disposal, gasification ratios and distribution coeffi...
For appropriate safety assessment of TRU waste disposal, the dominant chemical species of 14C-gas wa...
In Japan, transuranic (TRU) waste is grouped into four types. Group 2 type includes hulls and end p...