Strength Loss Inference Due to Decay or Cavities in Tree Trunks Using Tomographic Imaging Data Applied to Equations Proposed in the Literature

• Published in: Forests Vol. 13; no. 4; p. 596
• Main Authors: dos Reis, Mariana Nagle, Gonçalves, Raquel, Brazolin, Sérgio, de Assis Palma, Stella Stoppa
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.04.2022
• Subjects: Air quality; Bending stresses; Cavities; Decay; Diameters; Drilling; Holes; Imaging; Mathematical analysis; Monotony; Reduction; Tomography; Trees; Ultrasonic imaging; Urban forests; Velocity; Brazil
• ISSN: 1999-4907; 1999-4907
• DOI: 10.3390/f13040596

The importance of urban forests is undeniable when considering their benefits to the environment, such as improving air quality, landscapes and breaking its monotony. However, trees are subject to failures that can cause personal and economic damage. Therefore, it is necessary to know the health conditions of the trees to define their most adequate management. Some tools are used to detect plant health conditions, such as visual analysis, tomography, and drilling resistance. In addition, some formulas based on the cavity and trunk diameter relation or the remaining trunk wall dimension are also used to infer the strength loss of a tree and its consequent risk of falling. However, these formulas have limitations, such as assuming only cavities that are always centered and not considering areas with decay. Therefore, this research evaluates whether ultrasonic tomographic imaging allows us to improve the reach of the equations proposed in the literature to infer the strength loss of trees due to the presence of cavities and decays. The results showed that ultrasonic tomographic imaging allowed the equations to be closer to real conditions of the tree trunk, such as the inclusion of wood strength reduction from decay and the displacement of internal cavities in calculating the reduction in the second moment of area.