In situ experimental exposure of fruit-bearing shoots of apple trees to 13 CO 2 and construction of a dynamic transfer model of carbon

Evaluating the transfer and metabolism of carbon (C) in apple fruit is key to estimating the potential accumulation of atmospheric C in fruit near and around nuclear facilities. We developed a dynamic compartment model for apple fruit-bearing shoots, assuming that the shoots are a simple unit of sou...

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Bibliographic Details
Published in:Journal of environmental radioactivity 2021-07, Vol.233, p.106595
Main Authors: Imada, Shogo, Tani, Takashi, Tako, Yasuhiro, Moriya, Yuki, Hisamatsu, Shun'ichi
Format: Article
Language:English
Subjects:
Carbon
Carbon Dioxide
Fruit
Malus
Plant Leaves
Plant Shoots
Radiation Monitoring
Trees
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Summary:Evaluating the transfer and metabolism of carbon (C) in apple fruit is key to estimating the potential accumulation of atmospheric C in fruit near and around nuclear facilities. We developed a dynamic compartment model for apple fruit-bearing shoots, assuming that the shoots are a simple unit of source and sink for photoassimilates. Fruit-bearing shoots of Malus domestica "Fuji" at different fruit growth stages were exposed to CO in situ, followed by sampling at 72 h after exposure or at harvest. The C/( C+ C) mole ratio in fruits, leaves, and current branch were measured to construct a five-compartment model of C (fruit, each fast and slow component of leaves, and current branch). The C inventories in the compartments were presented in accordance with the measured growth curves of C in the organs. The model simulated the C dynamics in plant tissues well. Simulation results of photoassimilate distribution using the model indicated that the retention of photoassimilated C at the harvest depended on the growth rate of C in the organs at the exposure.
ISSN:1879-1700