PLATHO - A Dynamic Plant Growth Model Considering Competition between Individuals and Allocation to Carbon-Based Secondary Compounds

2006 Second International Symposium on Plant Growth Modeling and Applications Pub Date : 2006-11-13 DOI:10.1109/PMA.2006.39

S. Gayler, E. Priesack

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引用次数: 5

Abstract

To explain patterns and variations in concentration of defence-related carbon-based secondary compounds in plant tissues, different complementary and in some parts contradictory plant-defence hypotheses were developed since several years. These conceptual hypotheses cannot be fully evaluated without a plant growth simulation model and consequently, the discussion about adequacy of plant-defence hypotheses neglects to a large extent the dynamics of plant growth. To get a more realistic view of the volatile dynamics of plant internal source and sink strengths of carbon and nitrogen during different phenological growth stages, a modelling approach for allocation of carbohydrates to a pool of carbon-based secondary compounds was integrated into the functional generic plant growth model PLATHO. In this paper, we explain the fundamental assumptions of our modelling approach and present the results of a simulation study for juvenile beech and spruce trees growing in mono- and mixed cultures under ambient and elevated atmospheric CO2.

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PLATHO -一个考虑个体间竞争和碳基次生化合物分配的动态植物生长模型

为了解释植物组织中与防御相关的碳基次生化合物浓度的模式和变化，近年来出现了不同的互补和部分矛盾的植物防御假说。如果没有植物生长模拟模型，这些概念性假设就无法得到充分评估，因此，关于植物防御假设的充分性的讨论在很大程度上忽略了植物生长的动态。为了更真实地了解植物在不同物候生长阶段内部碳氮源和汇强度的挥发动态，将碳水化合物分配到碳基二级化合物库的建模方法集成到功能通用植物生长模型PLATHO中。在本文中，我们解释了我们的建模方法的基本假设，并介绍了在环境和升高的大气CO2下生长在单一和混合培养中的山毛榉和云杉幼树的模拟研究结果。

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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2006 Second International Symposium on Plant Growth Modeling and Applications

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