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Stand Structure Impacts on Forest Modelling

Ana Cristina Gonçalves

2022Applied Sciences12 citationsDOIOpen Access PDF

Abstract

Modelling is essential in forest management as it enables the prediction of productions and yields, and to develop and test alternative models of silviculture. The allometry of trees depends on a set of factors, which include species, stand structure, density and site. Several mathematical methods and techniques can be used to model the individual tree allometry. The variability of tree allometry results in a wide range of functions to predict diameter at breast height, total height and volume. The first functions were developed for pure even-aged stands from crown closure up to the end of the production cycle. However, those models originated biased predictions when used in mixed, uneven-aged, young or older stands and in different sites. Additionally, some modelling methods attain better performances than others. This review highlights the importance of species, stand structure and modelling methods and techniques in the accuracy and precision of the predictions of diameter at breast height, total height and volume.

Topics & Concepts

AllometryTree allometryDiameter at breast heightForest structureRange (aeronautics)SilvicultureStand developmentForest managementForestryMathematicsEcologyEnvironmental scienceGeographyBiologyEngineeringCanopyBiomass (ecology)Biomass partitioningAerospace engineeringForest ecology and managementTree Root and Stability StudiesRemote Sensing and LiDAR Applications
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