A reinterpretation of the gap fraction of tree crowns from the perspectives of computer graphics and porous media theory

重新解读 树(集合论) 绘图 多孔介质 计算机图形学(图像) 计算机科学 计算机图形学 数学 多孔性 地质学 艺术 组合数学 岩土工程 美学
作者
Yunfeng Zhu,Dongni Li,Jiangchuan Fan,Huaiqing Zhang,Markus P. Eichhorn,Xiangjun Wang,Ting Yun
出处
期刊:Frontiers in Plant Science [Frontiers Media]
卷期号:14: 1109443-1109443 被引量:15
标识
DOI:10.3389/fpls.2023.1109443
摘要

The gap fraction (GF) of vegetative canopies is an important property related to the contained bulk of reproductive elements and woody facets within the tree crown volume. This work was developed from the perspectives of porous media theory and computer graphics techniques, considering the vegetative elements in the canopy as a solid matrix and treating the gaps between them as pores to guide volume-based GF vol calculations. Woody components and individual leaves were extracted from terrestrial laser scanning data. The concept of equivalent leaf thickness describing the degrees of leaf curling and drooping was proposed to construct hexagonal prisms properly enclosing the scanned points of each leaf, and cylinder models were adopted to fit each branch segment, enabling the calculation of the equivalent leaf and branch volumes within the crown. Finally, the volume-based GF vol of the tree crown following the definition of the void fraction in porous media theory was calculated as one minus the ratio of the total plant leaf and branch volume to the canopy volume. This approach was tested on five tree species and a forest plot with variable canopy architecture, yielding an estimated maximum volume-based GF vol of 0.985 for a small crepe myrtle and a minimal volume-based GF vol of 0.953 for a sakura tree. The 3D morphology of each compositional element in the tree canopy was geometrically defined and the canopy was considered a porous structure to conduct GF vol calculations based on multidisciplinary theory.
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