棉花植物的建筑和几何表征,以模拟它们在低密度下的光拦截

P. Martin, P. Clouvel, D. Luquet, J. Dauzat
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引用次数: 0

摘要

本研究的目的是建立一种棉花植株的简化几何表征(GM)方法,该方法可用于模拟低种植密度下植物的光拦截。在整个生育期观察单株的田间试验,并在所有生育期复制其3D结构(AM)。GM的冠包络用椭球体表示。椭球体的含量由叶元素随机分布在亲平分布中组成。利用ARCHIMED仿真平台在PAR范围内模拟了两种植物的辐射传输。研究了不同椭球包膜和叶单元尺寸。在适当的尺寸下,使用gm计算的光拦截量与使用am计算的结果吻合得很好。可以得出结论,一个简单的浑浊介质模型足以模拟转基因含量,而无需引入结块因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Architectural and Geometrical Representations of Cotton Plants to Simulate Their Light Interception at Low Density
The purpose of this investigation was to develop a method for building simplified geometrical representations (GM) of cotton plants that could be used to simulate plant light interception at low planting densities. Individual plants were observed infield trials throughout their growing period and their 3D architecture (AM) was reproduced at all growth stages. The crown envelope of the GM was represented by an ellipsoid. The ellipsoid content consisted of foliage elements randomly dispersed in a planophile distribution. The radiative transfers of both plant representations were simulated in the PAR range using the ARCHIMED simulation platform. Different ellipsoid envelope and foliage element sizes were investigated. With an appropriate set of sizes, light interception calculated using GMs tallied well with that obtained using AMs. It can be concluded that a simple turbid medium model is sufficient for modelling GM content without needing to introduce a clumping factor.
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