Absorption and translocation to fruit for cesium applied on apple tree leaf surface.

IF 0.8 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Hitoshi Kawabata, Masumi Yanai, Yuichi Takaku, Shun'ichi Hisamatsu
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引用次数: 0

Abstract

We investigated the behavior of stable Cs+ ions contained in droplets applied directly on the leaf surfaces of plumleaf crab apple trees (2-3 years old Malus domestica 'Alps Otome') at three different fruit growing stages: before bearing fruit, early fruit development and late fruit development stages. Most of the Cs was rapidly transferred from the leaf surfaces into the applied leaves after application, and then gradually transferred to the fruit through the branches. The mean proportion of Cs transferred to fruit by harvest time ranged from 11 to 30% not directly depending on the fruit growing stages. Cs absorption from leaf surfaces was faster at early and late fruit development stages than before bearing fruit stage, and Cs transfer from leaf surfaces to the fruit was faster as the fruit growing stage progressed. To describe the transfer of Cs, we constructed a compartment model using the datasets of obtained for each fruit growing stage. However, it did not well reproduce the measured values, showing that further studies are necessary.

苹果树叶面对铯的吸收和向果实的转移。
我们研究了在三个不同的果实生长阶段(结果前、果实发育早期和果实发育晚期),直接施加在梅叶蟹形苹果树(2-3 年树龄的 Malus domestica 'Alps Otome')叶片表面的液滴中所含的稳定 Cs+ 离子的行为。大部分 Cs 在施用后迅速从叶片表面转移到施用的叶片中,然后通过枝条逐渐转移到果实中。到收获时,转移到果实中的铯的平均比例在 11% 到 30% 之间,与果实的生长阶段没有直接关系。在果实发育早期和晚期,叶面吸收 Cs 的速度快于结果期之前,随着果实生长阶段的进展,叶面向果实转移 Cs 的速度也更快。为了描述 Cs 的转移,我们利用各果实生长阶段获得的数据集构建了一个分区模型。然而,该模型并没有很好地再现测量值,这表明有必要进行进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Radiation protection dosimetry
Radiation protection dosimetry 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
1.40
自引率
10.00%
发文量
223
审稿时长
6-12 weeks
期刊介绍: Radiation Protection Dosimetry covers all aspects of personal and environmental dosimetry and monitoring, for both ionising and non-ionising radiations. This includes biological aspects, physical concepts, biophysical dosimetry, external and internal personal dosimetry and monitoring, environmental and workplace monitoring, accident dosimetry, and dosimetry related to the protection of patients. Particular emphasis is placed on papers covering the fundamentals of dosimetry; units, radiation quantities and conversion factors. Papers covering archaeological dating are included only if the fundamental measurement method or technique, such as thermoluminescence, has direct application to personal dosimetry measurements. Papers covering the dosimetric aspects of radon or other naturally occurring radioactive materials and low level radiation are included. Animal experiments and ecological sample measurements are not included unless there is a significant relevant content reason.
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