EFFECT OF THE 2011 FUKUSHIMA DAIICHI NUCLEAR POWER PLANT ACCIDENT ON CRYPTOMERIA JAPONICA WOOD COMPONENTS FOR TISSUE ENGINEERING: A MINI REVIEW

IF 1.3 4区农林科学 Q2 MATERIALS SCIENCE, PAPER & WOOD

Cellulose Chemistry and Technology Pub Date : 2023-09-29 DOI:10.35812/cellulosechemtechnol.2023.57.61

AI VAN TRAN, MAKOTO YANAGA

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Abstract

Radiocontaminated Cryptomeria japonica from Iitate village in Fukushima was analyzed in terms of the bark, sapwood and heartwood. Both 134Cs and 137Cs activities were confirmed in these wood components. The sum of 134Cs and 137Cs activities was the highest in the bark, the lowest in the sapwood and that of the heartwood in between. Although the holocellulose isolated from the bark was contaminated by 134Cs and 137Cs activities, these radiocesiums were not detected in the holocelluloses from sapwood and heartwood. Similar results were obtained for dioxane lignins isolated from sapwood and heartwood. An examination of the FTIR spectra of holocelluloses and dioxane lignins from the bark, sapwood and heartwood of C. japonica originated from radiocontaminated Iitate, and radiocontamination-free Fuji areas revealed that the structures of the constitutions of the former wood were not altered by the radiocontamination. Furthermore, the FTIR spectra of the outer bark and inner bark holocelluloses from the artifically 137Cs-impregnated Fuji tree were similar to those of the outer bark and inner bark holocelluloses of the radiocontaminated Iitate tree.

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2011年福岛第一核电站事故对组织工程用柳杉木材组分的影响

对日本福岛Iitate村柳杉的树皮、边材和心材进行了放射性污染分析。134Cs和137Cs活性均在这些木材组分中得到证实。134Cs和137Cs活性总和以树皮最高，边材最低，中间为心材。虽然从树皮中分离的全息纤维素受到134Cs和137Cs活性的污染，但在边材和心材的全息纤维素中没有检测到这些放射性铯。从边材和心材中分离的二氧六烷木质素得到了类似的结果。对来自放射性污染的日本杉木的树皮、边材和心材的全纤维素和二氧环木质素的红外光谱分析表明，来自放射性污染的Iitate和富士地区的辐射污染没有改变原木材的结构构成。此外，137cs人工浸渍的富士树的外树皮和内树皮的红外光谱与放射性污染的Iitate树的外树皮和内树皮的红外光谱相似。

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来源期刊

Cellulose Chemistry and Technology 工程技术-材料科学：纸与木材

CiteScore

2.30

自引率

23.10%

发文量

审稿时长

7.3 months

期刊介绍： Cellulose Chemistry and Technology covers the study and exploitation of the industrial applications of carbohydrate polymers in areas such as food, textiles, paper, wood, adhesives, pharmaceuticals, oil field applications and industrial chemistry. Topics include: • studies of structure and properties • biological and industrial development • analytical methods • chemical and microbiological modifications • interactions with other materials