Radial Variation in Wood Anatomy of <i>Cercis glabra</i> and Its Application Potential: An Anatomy-Guided Approach to Sustainable Resource Utilization
Pingping Guo | Xiping Zhao | Dongfang Wang | Yuying Zhang | Puxin Xie | Tifeng Zhao | Xinyi Zhao | Xinyi Lou
This study systematically analyzes the microstructure and radial variation of <i>Cercis glabra</i> wood, revealing its adaptive strategies for arid environments. The results show that the wood consists of thick-walled fibers (63%) and vessels (17.7%), with a semi-ring-porous structure and 48.4% average cell wall percentage. Fiber proportion peaks early (4 years), ensuring mechanical support, while vessel adjustment occurs later (19 years), balancing water transport. Rays decline sharply in the first 9 years, stabilizing thereafter, reflecting a shift from growth to structural stability. The high fiber proportion and occasional tyloses enhance durability, making it suitable for high-quality pulp, furniture, and humid environments such as shipbuilding. A rotation period ≥ 20 years ensures stable properties. Genetic breeding could shorten the juvenile stage and optimize vessel distribution. Future research should integrate multi-omics and environmental data to deepen our understanding of its adaptation mechanisms. This study provides a basis for the utilization of <i>C. glabra</i> resources.
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