4.7 Article

The Horizontal Distribution of Branch Biomass in European Beech: A Model Based on Measurements and TLS Based Proxies

Journal

REMOTE SENSING
Volume 13, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/rs13051041

Keywords

terrestrial laser scanning (TLS); sampling; forest inventory; forest monitoring; biomass models

Funding

  1. Forest Research Institute of the German Federal State of Rheinland-Pfalz (FAWF) in Trippstadt
  2. Marie Sklodowska-Curie Action fellow QUAFORD
  3. Ramon y Cajal Tenure Track

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Forest biomass is a key variable in forest monitoring, and this study focused on deriving an empirical model of branch horizontal distribution (HBD) for individual European beech trees. Destructive measurements and Terrestrial Laser Scanning (TLS) were used to validate the models, showing similarities between HBD and taper functions commonly applied in forestry. The models may serve as useful approximations for HBD of individual trees across different sizes and species.
Forest biomass is currently among the most important and most researched target variables in forest monitoring. The common approach of observing individual tree biomass in forest inventory is to assign the total tree biomass to the dimensionless point of the tree position. However, the tree biomass, in particular in the crown, is horizontally distributed above the crown projection area. This horizontal distribution of individual tree biomass (HBD) has not attracted much attention-but if quantified, it can improve biomass estimation and help to better represent the spatial distribution of forest fuel. In this study, we derive a first empirical model of the branch HBD for individual trees of European beech (Fagus sylvatica L.). We destructively measured 23 beech trees to derive an empirical model for the branch HBD. We then applied Terrestrial Laser Scanning (TLS) to a subset of 17 trees to test a simple point cloud metric predicting the branch HBD. We observed similarities between a branch HBD and commonly applied taper functions, which inspired our HBD model formulations. The models performed well in representing the HBD both for the measured biomass, and the TLS-based metric. Our models may be used as first approximations to the HBD of individual trees-while our methodological approach may extend to trees of different sizes and species.

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