期刊论文详细信息
Forests 卷:12
Tree Shape Variability in a Mixed Oak Forest using Terrestrial Laser Technology: Implications for Mating System Analysis
MihaiDaniel Niță1  VlăduțRemus Tomșa1  AlexandruLucian Curtu1 
[1] Faculty of Silviculture and Forest Engineering, Transilvania University of Brașov, 500123 Brasov, Romania;
关键词: 3D tree shape;    tree architecture;    oak species;    pollen donor;    paternity analysis;    male fecundity;   
DOI  :  10.3390/f12020253
来源: DOAJ
【 摘 要 】

The accuracy of the description regarding tree architecture is crucial for data processing. LiDAR technology is an efficient solution for capturing the characteristics of individual trees. The aim of the present study was to analyze tree shape variability in a mixed oak forest consisting of four European white oak species: Quercus petraea, Q. frainetto, Q. pubescens, and Q. robur. Moreover, we tested for association between tree shape and individual heterozygosity and whether oak trees identified as pollen donors in a previous genetic study have a larger size in terms of crown and trunk characteristics than non-donors. The woody structure of a tree was defined by the quantitative structure model (QSM) providing information about topology (branching structure), geometry, and volume. For extracting the 3D point clouds a high-speed 3D scanner (FARO FocusS 70) was used. The crown variables were strongly correlated to each other, the branch volume being influenced by branch length, maximum branch order, and the number of branches but not influenced by diameter at breast height (DBH), trunk length, trunk volume, or tree height. There was no relationship between the individual heterozygosity based on nuclear microsatellite genetic markers and crown and trunk characteristics, respectively. Branch volume, total area, DBH, trunk volume, and the total volume of tree were significantly larger in pollen donors compared to non-donor Q. petraea trees. Thus, the mean branch volume was more than three times higher. Pollen donors had nearly two and half times larger total area in comparison to non-donor individuals. Our results suggest that a thorough characterization of tree phenotype using terrestrial laser scanning may contribute to a better understanding of mating system patterns in oak forests.

【 授权许可】

Unknown   

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