Genetic selection for growth, wood quality and resin traits of potential Slash pine for multiple industrial uses.

Forestry research Pub Date : 2024-06-20 eCollection Date: 2024-01-01 DOI:10.48130/forres-0024-0020
Xianyin Ding, Yini Zhang, Jiaming Sun, Zifeng Tan, Qinyun Huang, Shu Diao, Yadi Wu, Qifu Luan, Jingmin Jiang
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Abstract

This study aims to understand the genetic basis of key industrial traits in Slash pine (Pinus elliottii Engelm. var. elliottii) to enhance improvement efficiency. Detailed analyses were conducted on inter-family differences, genetic parameters, correlations, and breeding values (BVs) for growth, wood properties, and resin traits of Slash pine planted in Changle Forest Farm of Hangzhou, leading to the identification of elite families. It indicates that growth traits are primarily influenced by environmental effects, while wood properties exhibit a significant impact of genetic effects. The variation in resin traits arises from both genetic and environmental effects. Notably, Beta-pinene exhibits the highest variability and genetic gains among the traits analyzed. The family heritability ranges for growth, wood properties, and resin traits are 0.543-0.794, 0.870-0.885, and 0.285-0.695, respectively. Significant positive correlations are evident between growth and resin traits, while a negative correlation is observed between growth and wood properties. Elite families identified through single-trait and multi-trait combined selection are 8-126 for growth traits, 2-325 and 0-373 for wood properties, and 8-131 for resin traits. The average genetic gains for these elite families are 7.44%, 7.17%, and 8.84%, respectively. These findings provide valuable insights for high-generation breeding of Slash pine and lay a genetic foundation for formulating effective breeding strategies for conifers.

对可能用于多种工业用途的斜叶松的生长、木材质量和树脂特性进行遗传选择。
本研究旨在了解欧洲赤松(Pinus elliottii Engelm.详细分析了杭州长乐林场种植的樟子松在生长、木材性质和树脂性状方面的家系间差异、遗传参数、相关性和育种值(BVs),从而鉴定出精英家系。结果表明,生长性状主要受环境影响,而木材特性受遗传影响较大。树脂性状的变化既受遗传影响,也受环境影响。值得注意的是,在所分析的性状中,β-蒎烯的变异性和遗传收益最高。生长、木材特性和树脂性状的家族遗传率范围分别为 0.543-0.794、0.870-0.885 和 0.285-0.695。生长性状和树脂性状之间存在明显的正相关,而生长性状和木材特性之间存在负相关。通过单性状和多性状综合选择确定的精英家系,生长性状为 8-126,木质性状为 2-325 和 0-373,树脂性状为 8-131。这些精英家系的平均遗传增益分别为 7.44%、7.17% 和 8.84%。这些发现为高代斜纹松育种提供了宝贵的见解,并为制定有效的针叶树育种策略奠定了遗传基础。
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