3-dimensional surface geometry, optical properties dataset of Scots pine and Norway spruce shoots
Oleksandr Borysenko, Petr Lukeš, Tomáš Hanousek, Lucie Homolová, Růžena Janoutová, Mirjam Uusõue, Steffen Noe, Jan Pisek

TL;DR
This paper introduces a detailed dataset of 3D geometry and optical properties of conifer shoots to improve understanding of light scattering in tree crowns.
Contribution
The dataset provides high-resolution 3D and optical data for 27 conifer shoots, enabling more accurate radiative transfer modeling.
Findings
High-resolution 3D point cloud representations of conifer shoots were created using blue light photogrammetry.
Optical properties of needles and twigs were measured across a 400-2000 nm spectral range.
The dataset supports improved modeling of light scattering in coniferous tree crowns.
Abstract
Conifer shoots possess highly complex geometrical structures at a very fine spatial resolution. Accurately characterizing the full architecture of a conifer shoot, which influences how radiation is scattered, has proven challenging. Previous radiative transfer models for coniferous stands have represented these structures in a relatively simplified or coarse manner. This paper presents a dataset that can be used for up-scaling of needle to shoot optical properties and studying the influence of detailed three-dimensional (3D) structure of shoot to light scattering within tree crown. The dataset includes 3D structural information as well optical properties of needles and twigs for 27 shoots of two conifer species present in both locations (3 shoots per species and position in the crown) - Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies L. Karst.). The samples were…
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Taxonomy
TopicsRemote Sensing and LiDAR Applications · Remote Sensing in Agriculture · Greenhouse Technology and Climate Control
