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生态学杂志 ›› 2022, Vol. 41 ›› Issue (8): 1635-1642.doi: 10.13292/j.1000-4890.202208.008

• 技术与方法 • 上一篇    下一篇

利用树干侧方投影测量立木材积

石宽1,2,刘琪璟2*,明聪1,秦立厚2,周华3,孟盛旺4
  

  1. 1中国消防救援学院, 北京 102202; 2北京林业大学, 北京 100083; 3贵州省林业科学研究院, 贵阳 550005; 4中国科学院地理科学与资源研究所, 北京 100101)

  • 出版日期:2022-08-10 发布日期:2022-08-16

Measuring the standing tree volume based on trunk shadow.

SHI Kuan1,2, LIU Qi-jing2*, MING Cong1, QIN Li-hou2, ZHOU Hua3, MENG Sheng-wang4   

  1. (1China Fire and Rescue Institute, Beijing 102202, China; 2Beijing Forestry University, Beijing 100083, China; 3Guizhou Academy of Forestry, Guizhou 550005, China; 4Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China).

  • Online:2022-08-10 Published:2022-08-16

摘要: 基于伐倒木区分求积法原理,本文将树干在太阳下的侧方投影的不同位置的宽度作为立木对应高度处的直径,据此计算立木材积,实现无损测量,补充和丰富了立木材积测量方法。由于太阳光并非绝对的点光源,而是近似平行光,加之衍射(绕射)作用,树干侧方投影半影区宽度随着树高的增加而逐渐增加,致使立木直径的投影测量值也随之失真。为了从树干投影宽度还原立木任意高度处的真实直径,利用圆柱物体(PVC管)进行试验,构建了圆柱体直径侧方投影宽度缩减量与影距(投影上任意位点与树干基部之间的距离)及太阳高度角之间关系的5种回归模型。通过测量不同影距上的立木侧方投影的本影宽度,基于所建模型估计对应高度上的树干直径,然后利用平均断面积求积法计算立木材积。结果表明:5种侧方投影宽度缩减量的模型估测精度均高于90%。利用树干在太阳下的侧方投影法进行测量时,最适太阳高度角48°左右。通过实测验证,立木材积测量准确度为93%。本方法关于立木材积的测量准确度随树高的增加而降低,树干上部的区分段材积测量的相对误差较大。


关键词: 投影宽度, 精度, 无损取样, 本影, 半影

Abstract: We proposed a method that used the widths of trunk shadow at different positions as the proxy of corres ponding diameters to compute stem volume with the sectional method, which complements current methods for the measurement of stand volume. Given that sun light is not of absolute point source but of near parallel, combined with diffraction, the width of penumbra zone in the trunk shadow increases with tree height. This leads to large deviations for diameters represented by shadow widths. To accurately estimate the diameter at any height of the trunk based on the shadow width, an experiment was conducted using cylindric objects (PVC). We constructed five regression models for estimating the shrinkage of core shadow width of the cylinder referred to penumbra zones. Diameters at higher positions were predicted using the models after measuring shadow widths with certain intervals, and the tree volume was computed by the sectional method. Our results showed that all regression models performed well in estimating shadow shrinkage, with accuracy higher than 90%. The optimum solar zenith angle was determined as 48° when applying the method. The accuracy for estimating tree volume was as high as 93%. The accuracy of estimating tree volume decreased with tree height, and relative errors were larger towards upper sections.


Key words: shadow width, accuracy, nondestructive sampling, core shadow, penumbra.