The morphological and physiological responses of Pinus yunnanensis to different levels of shading after decapitation

• Published in: Industrial crops and products Vol. 224; p. 120374
• Main Authors: Zhou, Chiyu, Kong, Di, Li, Jiangfei, Su, Xin, Cai, Nianhui, Xu, Yulan
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2025
• Subjects: China; decapitation; forests; lateral roots; Lighting intensity; nitrogen; Nutrient characteristic; nutrient content; nutrient uptake; phosphorus content; Pinus yunnanensis; progeny; reforestation; root growth; Root system architecture; seedlings; shade tolerance; species; Stoichiometric ratio; stoichiometry; trees; Yunnan pine (Pinus yunnanensis); China; Nutrient characteristic; Lighting intensity; Yunnan pine (Pinus yunnanensis); Stoichiometric ratio; Root system architecture
• ISSN: 0926-6690
• DOI: 10.1016/j.indcrop.2024.120374

Pinus yunnanensis is an endemic forest vegetation in Southwest China. Currently, most reforestation of P. yunnanensis is conducted using seedlings, which often results in significant variation among the progeny. In contrast, stable inheritance of characteristics from the parent tree can be ensured through clonal propagation. For the success of clonal propagation of P. yunnanensis, the nutrient content and the quality of the shoot branches play a crucial role. This study focuses on P. yunnanensis seedlings as the research subject, conducting decapitation treatments under 0 %, 25 %, 50 %, and 75 % shading conditions, while maintaining a seedling height of 10 cm. Measurements were taken for seedling height, plant diameter, root morphology, and nutrient content. The results indicated that shading advanced the rapid growth phase of decapitated P. yunnanensis seedlings while also extending the rapid growth period and the shoot branching peak. In addition, From the perspective of the effects of shading on belowground parts, light shading can promote lateral root growth and improve nutrient absorption efficiency. Moreover, shading treatment increased the nitrogen and phosphorus content, with nitrogen being the limiting element responding to shading. Additionally, shading altered the nutrient stoichiometric characteristics of the shoot branches. In conclusion, P. yunnanensis is a shade-tolerant species, and light shading is more favorable for increasing nutrient content in shoot branching, thereby promoting their growth and development. •Pinus yunnanensis thrives under light shading, promoting shoot branching and nutrient uptake.•Shading enhances lateral root growth, boosting soil nutrient absorption efficiency.•Nitrogen is a limiting factor for growth under all shading levels, per nutrient analysis.•Moderate shading increases C:N and C:P ratios, improving nutrient use efficiency.•Findings offer strategies to optimize P. yunnanensis plantation management.