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迈向模拟茎尖发育的灵活时间安排:基于叶元内部和之间的协调对玉米器官发生进行模拟

Towards modelling the flexible timing of shoot development: simulation of maize organogenesis based on coordination within and between phytomers.

作者信息

Zhu Junqi, Andrieu Bruno, Vos Jan, van der Werf Wopke, Fournier Christian, Evers Jochem B

出版信息

Ann Bot. 2014 Sep;114(4):753-62. doi: 10.1093/aob/mcu051.

DOI:10.1093/aob/mcu051
PMID:24748619
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4217678/
Abstract

BACKGROUND AND AIMS

Experimental evidence challenges the approximation, central in crop models, that developmental events follow a fixed thermal time schedule, and indicates that leaf emergence events play a role in the timing of development. The objective of this study was to build a structural development model of maize (Zea mays) based on a set of coordination rules at organ level that regulate duration of elongation, and to show how the distribution of leaf sizes emerges from this.

METHODS

A model of maize development was constructed based on three coordination rules between leaf emergence events and the dynamics of organ extension. The model was parameterized with data from maize grown at a low plant population density and tested using data from maize grown at high population density.

KEY RESULTS

The model gave a good account of the timing and duration of organ extension. By using initial conditions associated with high population density, the model reproduced well the increase in blade elongation duration and the delay in sheath extension in high-density populations compared with low-density populations. Predictions of the sizes of sheaths at high density were accurate, whereas predictions of the dynamics of blade length were accurate up to rank 9; moderate overestimation of blade length occurred at higher ranks.

CONCLUSIONS

A set of simple rules for coordinated growth of organs is sufficient to simulate the development of maize plant structure without taking into account any regulation by assimilates. In this model, whole-plant architecture is shaped through initial conditions that feed a cascade of coordination events.

摘要

背景与目的

实验证据对作物模型中的核心近似观点提出了挑战,该观点认为发育事件遵循固定的热时间进程,并表明叶片出现事件在发育时间安排中起作用。本研究的目的是基于一组在器官水平调节伸长持续时间的协调规则构建玉米(Zea mays)的结构发育模型,并展示叶片大小分布是如何由此产生的。

方法

基于叶片出现事件与器官伸长动态之间的三条协调规则构建了玉米发育模型。该模型用低密度种植的玉米数据进行参数化,并使用高密度种植的玉米数据进行测试。

主要结果

该模型很好地描述了器官伸长的时间和持续时间。通过使用与高密度相关的初始条件,该模型很好地再现了与低密度群体相比,高密度群体中叶片伸长持续时间的增加和叶鞘伸长的延迟。高密度下叶鞘大小的预测准确,而叶片长度动态的预测在第9片叶之前准确;在更高叶位时叶片长度出现适度高估。

结论

一组简单的器官协调生长规则足以模拟玉米植株结构的发育,而无需考虑同化物的任何调节作用。在该模型中,通过为一系列协调事件提供初始条件来塑造整株植物结构。

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