Carbon storage in plants: a buffer for temporal light and temperature fluctuations

IF 2.6 Q1 AGRONOMY in silico Plants Pub Date : 2022-10-21 DOI:10.1093/insilicoplants/diac020
Ana Cristina Zepeda, E. Heuvelink, L. Marcelis
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引用次数: 2

Abstract

Carbon (C) storage allows a plant to support growth whenever there is a temporal asynchrony between supply (source strength) and demand of carbon (sink strength). This asynchrony is strongly influenced by changes in light and temperature. In most crop models, C storage is included as a passive process that occurs whenever there is an excess of C from photosynthesis compared with the demand of C for metabolism. However, there are numerous studies that challenged this concept, and provided experimental evidence that C storage is an active process that allows buffering of environmental fluctuations and supports long-term plant growth. We propose that an active C pool needs to be included in simulation models for a better understanding of plant growth patterns under fluctuating environment. Specifically, we propose that the two main mechanisms actively regulating C storage in plants are the partitioning of assimilates between soluble sugars and starch and the degradation and remobilization of storage compounds. The insights gained here are important to optimize crop performance under fluctuating conditions and thus for developing more resource-efficient crop production systems.
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植物中的碳储存:暂时光和温度波动的缓冲
当碳的供应(源强度)和需求(汇强度)之间存在时间不同步时,碳(C)储存允许植物支持生长。这种异步性受到光照和温度变化的强烈影响。在大多数作物模型中,碳储存被视为一个被动过程,每当光合作用产生的碳与代谢所需的碳相比过量时,就会发生这种过程。然而,有许多研究对这一概念提出了质疑,并提供了实验证据,证明碳储存是一个积极的过程,可以缓冲环境波动,并支持植物的长期生长。我们提出,为了更好地理解波动环境下的植物生长模式,需要在模拟模型中包括一个活跃的C库。具体而言,我们提出,植物中积极调节碳储存的两个主要机制是同化物在可溶性糖和淀粉之间的分配以及储存化合物的降解和再活化。这里获得的见解对于优化波动条件下的作物性能,从而开发更具资源效率的作物生产系统非常重要。
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来源期刊
in silico Plants
in silico Plants Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
4.70
自引率
9.70%
发文量
21
审稿时长
10 weeks
期刊最新文献
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