Abstract
The effect of land polluted by {sup 89}Sr on water body and the immigration of HTO from water body to land were studied in a modelling terrestrial-aquatic ecosystem. The results are as follows: (1) The {sup 89}Sr in soil quickly migrated to common bean plants and its concentration in common bean plants was increasing with the time, but the concentration of {sup 89}Sr in soil was exponentially declining with the depth. About 5% of {sup 89}Sr was migrated to water body by rainfall then distributed to other components, and it can be concentrated by aquatics in a certain degree. (2) when HTO entered into the water body, it would migrate to other components of the ecosystem. and the HTO in the pool was linearly decreasing with the time. However, the concentration of HTO in the sediments and aquatics would firstly increase then reached the peak and went down. The tritium of HTO was existed in two forms in the sediments and aquatics, free water (HTO) and bound tritium. HTO was also migrated to the adjacent land soil and absorbed by land crop plants, within one and half months the land system contained 24% of the total tritium in the aquatic
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Yongxi, Zhang;
Shouxiang, Wang;
Chuangqun, Chen;
Zhiming, Sun;
[1]
Fujun, Wang;
[2]
Dan, Huang;
Bingmin, Hu
[3]
- Zhejiang Agricultural Univ., Hangzhou (China). Inst. of Nuclear-Agricultural Sciences
- Huadong Normal Univ., Shanghai (China)
- Zhejiang Agricultural Univ., Hangzhou (China)
Citation Formats
Yongxi, Zhang, Shouxiang, Wang, Chuangqun, Chen, Zhiming, Sun, Fujun, Wang, Dan, Huang, and Bingmin, Hu.
The behavior of {sup 89}Sr and tritium water (HTO) in a model terrestrial-aquatic ecosystem.
China: N. p.,
1993.
Web.
Yongxi, Zhang, Shouxiang, Wang, Chuangqun, Chen, Zhiming, Sun, Fujun, Wang, Dan, Huang, & Bingmin, Hu.
The behavior of {sup 89}Sr and tritium water (HTO) in a model terrestrial-aquatic ecosystem.
China.
Yongxi, Zhang, Shouxiang, Wang, Chuangqun, Chen, Zhiming, Sun, Fujun, Wang, Dan, Huang, and Bingmin, Hu.
1993.
"The behavior of {sup 89}Sr and tritium water (HTO) in a model terrestrial-aquatic ecosystem."
China.
@misc{etde_10157259,
title = {The behavior of {sup 89}Sr and tritium water (HTO) in a model terrestrial-aquatic ecosystem}
author = {Yongxi, Zhang, Shouxiang, Wang, Chuangqun, Chen, Zhiming, Sun, Fujun, Wang, Dan, Huang, and Bingmin, Hu}
abstractNote = {The effect of land polluted by {sup 89}Sr on water body and the immigration of HTO from water body to land were studied in a modelling terrestrial-aquatic ecosystem. The results are as follows: (1) The {sup 89}Sr in soil quickly migrated to common bean plants and its concentration in common bean plants was increasing with the time, but the concentration of {sup 89}Sr in soil was exponentially declining with the depth. About 5% of {sup 89}Sr was migrated to water body by rainfall then distributed to other components, and it can be concentrated by aquatics in a certain degree. (2) when HTO entered into the water body, it would migrate to other components of the ecosystem. and the HTO in the pool was linearly decreasing with the time. However, the concentration of HTO in the sediments and aquatics would firstly increase then reached the peak and went down. The tritium of HTO was existed in two forms in the sediments and aquatics, free water (HTO) and bound tritium. HTO was also migrated to the adjacent land soil and absorbed by land crop plants, within one and half months the land system contained 24% of the total tritium in the aquatic system.}
place = {China}
year = {1993}
month = {Aug}
}
title = {The behavior of {sup 89}Sr and tritium water (HTO) in a model terrestrial-aquatic ecosystem}
author = {Yongxi, Zhang, Shouxiang, Wang, Chuangqun, Chen, Zhiming, Sun, Fujun, Wang, Dan, Huang, and Bingmin, Hu}
abstractNote = {The effect of land polluted by {sup 89}Sr on water body and the immigration of HTO from water body to land were studied in a modelling terrestrial-aquatic ecosystem. The results are as follows: (1) The {sup 89}Sr in soil quickly migrated to common bean plants and its concentration in common bean plants was increasing with the time, but the concentration of {sup 89}Sr in soil was exponentially declining with the depth. About 5% of {sup 89}Sr was migrated to water body by rainfall then distributed to other components, and it can be concentrated by aquatics in a certain degree. (2) when HTO entered into the water body, it would migrate to other components of the ecosystem. and the HTO in the pool was linearly decreasing with the time. However, the concentration of HTO in the sediments and aquatics would firstly increase then reached the peak and went down. The tritium of HTO was existed in two forms in the sediments and aquatics, free water (HTO) and bound tritium. HTO was also migrated to the adjacent land soil and absorbed by land crop plants, within one and half months the land system contained 24% of the total tritium in the aquatic system.}
place = {China}
year = {1993}
month = {Aug}
}