Variability of pea morphogenesis. An exploratory study based on six pea genotypes with contrasting architectures

2012 IEEE 4th International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications Pub Date : 2012-10-01 DOI:10.1109/PMA.2012.6524811

R. Barillot, V. Chevalier, D. Combes, G. Louarn, A. Escobar-Gutiérrez

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引用次数: 1

Abstract

Pea is the main legume species grown in European agricultural systems although its productivity is limited due to foliar diseases or lodging. Architectural plant models therefore appeared to be suitable tools for studying the behaviour of contrasting pea architecture against environmental factors. We characterized the growth of six contrasting pea genotypes in order to analyse their developmental rules that are needed to build up such functional-structural models. Virtual plant models were reconstructed from digitization of the pea cultivars along their growing cycle, resulting in a database of 950 mock-ups. Pea cultivars exhibited contrasting architectures in terms of green area, plant height and growth rates. Three categories of growth habits were identified among the experimented cultivars which were distinguished according to their earliness, leaf type and axis development. The present study highlights the strong genotypic variability of pea architecture and also provides a quantitative description of pea morphogenesis that can be used to build functional-structural models. Moreover, these contrasting architectures also allowed us to assess the behaviour of different pea cultivar towards environmental factors.

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豌豆形态发生的变异。六种豌豆基因型结构对比的探索性研究

豌豆是欧洲农业系统中种植的主要豆科植物，尽管由于叶面疾病或倒伏，其生产力受到限制。因此，建筑植物模型似乎是研究豌豆建筑与环境因素对比行为的合适工具。我们对6种不同豌豆基因型的生长进行了表征，以分析它们的发育规律，从而建立这样的功能结构模型。虚拟植物模型是根据豌豆品种的生长周期进行数字化重建的，从而建立了950个模型的数据库。豌豆品种在绿化面积、株高和生长速率方面表现出不同的结构。根据早熟性、叶型和轴发育情况，将试验品种的生长习性划分为三类。本研究强调了豌豆结构的强基因型变异性，并提供了豌豆形态发生的定量描述，可用于构建功能结构模型。此外，这些对比结构也使我们能够评估不同豌豆品种对环境因素的行为。

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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2012 IEEE 4th International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications

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