A functional-structural model for alfalfa that accurately integrates shoot and root growth and development

Wuping Zhang, Guofang Wang, Jiwan Han, Fuzhong Li, Qian Zhang, J. Doonan
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Abstract

A model has been developed to quantify the organogenesis, structural dynamics, biomass production and allocation for alfalfa with shoots and roots. The basic units of development and growth were defined and symbolized into the Markov’s states with a set of parameters describing the functions of the units. The Markov chain model was employed to describe the organogenesis and the topological structure controlled by the phenological schedules expressed by thermal time (°C•d). The biomass produced by the photosynthetic organs using the Gaussian integration method was allocated to each organ in terms of relative demand and its kinetical process expressed by uniformization expansion rate. And the geometry magnitude of each organ was calculated by the allometric relationships among dry biomass and geometry for each type organ over time. The model was parameterized and calibrated by two different experiments. The model successfully mimiced plant growth and development from structure and function and the comparisons among measured and simulated values were conducted for root and shoot system. The results show that the both had a good consistency and similar change trends. Finally, we discuss some problems and future research and application of the model.
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一个准确整合苜蓿茎根生长发育的功能结构模型
建立了有根有芽的紫花苜蓿的器官发生、结构动力学、生物量生产和分配的定量模型。发育和生长的基本单位被定义并符号化为马尔可夫状态,并使用一组参数来描述这些单位的功能。采用马尔可夫链模型来描述由热时间(°C•d)表示的物候时间表控制的器官发生和拓扑结构。利用高斯积分法将光合器官产生的生物量按相对需求量分配给各器官,其动力学过程用均匀化膨胀率表示。通过各类型器官的干生物量与几何形状随时间的异速生长关系计算各器官的几何大小。通过两个不同的实验对模型进行了参数化和标定。该模型成功地从结构和功能两个方面模拟了植物的生长发育,并对根、梢系统的实测值和模拟值进行了比较。结果表明,两者具有较好的一致性和相似的变化趋势。最后,对该模型存在的问题和未来的研究与应用进行了讨论。
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