Assessing Forest Vitality and Forest Structure Using 3D Data: A Case Study From the Hainich National Park, Germany

Heidenreich, Marius G.; Seidel, Dominik

doi:10.3389/ffgc.2022.929106

Cited by 14 publications

(11 citation statements)

References 84 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…To us, a voxel size of 20 cm seems to be an appropriate size to reduce the effect that occlusion has on the data and still provide enough detail at the forest stand level. The same conclusion was also made by Heidenreich and Seidel [21].…”

Section: Spatial Resolutionsupporting

confidence: 83%

See 1 more Smart Citation

What Are We Missing? Occlusion in Laser Scanning Point Clouds and Its Impact on the Detection of Single-Tree Morphologies and Stand Structural Variables

et al. 2023

Self Cite

View full text Add to dashboard Cite

Laser scanning has revolutionized the ability to quantify single-tree morphologies and stand structural variables. In this study, we address the issue of occlusion when scanning a spruce (Picea abies (L.) H.Karst.) and beech (Fagus sylvatica L.) forest with a mobile laser scanner by making use of a unique study site setup. We scanned forest stands (1) from the ground only and (2) from the ground and from above by using a crane. We also examined the occlusion effect by scanning in the summer (leaf-on) and in the winter (leaf-off). Especially at the canopy level of the forest stands, occlusion was very pronounced, and we were able to quantify its impact in more detail. Occlusion was not as noticeable as expected for crown-related variables but, on average, resulted in smaller values for tree height in particular. Between the species, the total tree height underestimation for spruce was more pronounced than that for beech. At the stand level, significant information was lost in the canopy area when scanning from the ground alone. This information shortage is reflected in the relative point counts, the Clark–Evans index and the box dimension. Increasing the voxel size can compensate for this loss of information but comes with the trade-off of losing details in the point clouds. From our analysis, we conclude that the voxelization of point clouds prior to the extraction of stand or tree measurements with a voxel size of at least 20 cm is appropriate to reduce occlusion effects while still providing a high level of detail.

show abstract

Section: Spatial Resolutionsupporting

confidence: 83%

“…Additionally, difficulties arise in obtaining detailed tree structures due to canopy occlusion [19]. Mobile laser scanners, on the other hand, are well suited for scanning forest stands and individual trees with a high level of detail, e.g., [20,21].…”

Section: Introductionmentioning

confidence: 99%

What Are We Missing? Occlusion in Laser Scanning Point Clouds and Its Impact on the Detection of Single-Tree Morphologies and Stand Structural Variables

et al. 2023

Self Cite

View full text Add to dashboard Cite

show abstract

“…Box-dimension parameter ( Db ) is an integrative measure of tree architecture firstly suggested by Mandelbrot (Mandelbrot 1982). Considering the TLS technology potential for a 3D detailed analysis, Db was recently re-introduced by some authors (Seidel et al 2019; Heidenreich and Seidel 2022; Neudam, Annighöfer, and Seidel 2022). Db is a measure sensitive to both outer shape and internal structure of a tree.…”

Section: Package Overviewmentioning

confidence: 99%

TreeArchTraits: an R package to analyse the architectural traits of trees using TLS data

Puletti,

Innocenti,

Guasti

et al. 2023

Preprint

View full text Add to dashboard Cite

1AbstractThe architecture of trees is significantly influenced by their interactions, directly affecting their functioning and structural development. Different tree architectural indicators (TAT) have evolved, including these interactions’ measurements.Recent advances in Terrestrial Laser Scanning data collection make measuring the three-dimensional characteristics of trees more more efficient.The R packageTreeArchTraitsfacilitates the processing of three-dimensional tree characteristics obtained through Terrestrial Laser Scanning, enabling the computation of various indices.A set of trees belonging to different forest conditions was used to demonstrate theTreeArchTraitspotential for characterizing tree architectures.Abstract Figure

show abstract

“…Today, it is possible to quantify the complexity of forest structures objectively, holistically, and efficiently based on light detection and ranging (LiDAR) technology (e.g. Ehbrecht et al 2021, Heidenreich andSeidel 2022). Structural complexity in general was shown to have beneficial effects on various ecosystem functions and services provided by forests (Lindenmayer et al 2000, Knoke and Seifert 2008, D'Amato et al 2011, Neill and Puettmann 2013.…”

Section: Introductionmentioning

confidence: 99%

Towards a causal understanding of the relationship between structural complexity, productivity and adaptability of forests based on principles of thermodynamics

Seidel

2022

Preprint

View full text Add to dashboard Cite

Managing forests for increased structural complexity as well as acknowledging them as ‘complex adaptive systems’ has become a paradigm in modern silviculture. Primary forests usually show greater structural complexity than managed forests since forest management often aims for several reasons at less complex but specific structures, e.g. for the production of desired wood assortments. Therefore, the question why natural forests seem to gravitate towards maximum structural complexity, at least aboveground, remains. Here we argue that the consideration of thermodynamic theory in forest ecosystem research holds great potential for a deeper understanding as to why structural complexity is beneficial to forests when it comes to evolutionary adaptation. We bring together several existing theories and highlight how structural complexity relates to thermodynamic principles and correspondingly forest productivity, potentially also providing us a means to quantify forests’ adaptive capacity.

show abstract

Assessing Forest Vitality and Forest Structure Using 3D Data: A Case Study From the Hainich National Park, Germany

Cited by 14 publications

References 84 publications

What Are We Missing? Occlusion in Laser Scanning Point Clouds and Its Impact on the Detection of Single-Tree Morphologies and Stand Structural Variables

What Are We Missing? Occlusion in Laser Scanning Point Clouds and Its Impact on the Detection of Single-Tree Morphologies and Stand Structural Variables

TreeArchTraits: an R package to analyse the architectural traits of trees using TLS data

Towards a causal understanding of the relationship between structural complexity, productivity and adaptability of forests based on principles of thermodynamics

Contact Info

Product

Resources

About