A simple photographical method for analyzing the radiation interception by an individual tree

P Van Elsacker, H Keppens, I Impens
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引用次数: 19

Abstract

A method for analyzing radiation interception by an individual tree is presented. The use of a whole set of expensive radiation instruments is eliminated, the work-intensive field experiments are reduced to half a day for a large tree (9 m), and neither clear sky conditions nor diffuse radiation data are necessary. It is assumed that for a given azimuth and solar elevation the shading caused by a tree can be estimated photographically by taking a slide in the opposite direction. From slides taken of the whole tree in different directions and from different distances (i.e., different view angles), gap frequencies for certain heights are measured. At each height, gap frequency decreases significantly with increasing solar elevation. By calculating the mean path length within the crown (s) corresponding with each gap frequency (g), a highly significant exponential relationship between both is obtained [g = exp(−0.42s)]. With this equation and by knowing the tree dimensions calculated from the slides, direct and diffuse radiation interception of the whole tree can be estimated. Total leaf area and leaf area density are also calculated. These values agree very well with direct measurements on similar cut trees.

一种分析单株树辐射拦截的简单摄影方法
提出了一种分析单树辐射拦截的方法。消除了整套昂贵的辐射仪器的使用,将一棵大树(9米)的高强度野外实验减少到半天,并且不需要晴空条件和漫射辐射数据。假定对于给定的方位和太阳高度,树木造成的遮阳可以通过在相反方向上滑动来估计。通过从不同方向和不同距离(即不同视角)拍摄整棵树的幻灯片,可以测量出特定高度的间隙频率。在各高度,间隙频率随太阳高度的增加而显著降低。通过计算每个间隙频率(g)对应的树冠内平均路径长度(s),得到两者之间高度显著的指数关系[g = exp(−0.42s)]。有了这个方程,并知道从幻灯片计算的树的尺寸,可以估计整个树的直接和漫射辐射拦截。同时计算总叶面积和叶面积密度。这些数值与在类似砍伐的树木上的直接测量值非常吻合。
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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