Inheritance of growth ring components and the possibility of early selection for higher wood density in Japanese cedar (Cryptomeria japonica D. Don)

IF 2.5 3区 农林科学 Q1 FORESTRY
Yuko Yasuda, Taiichi Iki, Yuya Takashima, Makoto Takahashi, Yuichiro Hiraoka, Kentaro Mishima
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引用次数: 0

Abstract

Key message

We elucidated the age trends of narrow-sense heritability and phenotypic/genetic correlations and the age–age genetic correlation of growth ring components of Cryptomeria japonica D. Don by investigating progenies of controlled crossings by soft X-ray densitometry analysis. Wood density in the C. japonica breeding program can be efficiently improved by selecting trees with a higher earlywood density and latewood percentage as early as forest stand ages of 5–9 years.

Context

Wood density within the trunk is affected by the intra-ring wood density profile and its age trend from pith to bark. Wood density can be efficiently improved by clarifying whether wood density and highly correlated intra-ring components are under additive genetic control.

Aims

The aim of this study was to elucidate the age trends of narrow-sense heritability and phenotypic/genetic correlations of growth ring components and investigate the possibility of early selection for improving wood density in Cryptomeria japonica.

Methods

We quantified seven growth ring components (width, density, earlywood/latewood width, average earlywood/latewood density, and latewood percentage) for 5112 annual rings of 342 18-year-old trees derived from 24 controlled pollinated full-sib families of C. japonica plus tree clones by soft X-ray densitometry analysis. Genetic parameters and correlations among the seven growth ring components were analyzed using a linear mixed model and the breedR package.

Results

Earlywood density and latewood percentage exhibited a higher phenotypic and genetic correlation with ring density than the other ring components at almost all ages. Earlywood density and latewood percentage exhibited a lower correlation with ring width than the other ring components after a stand age of 5 years. The age–age genetic correlation of earlywood density and latewood percentage was 0.70 for a stand age of 17 years and was strong at stand ages of 5 and 9 years.

Conclusion

Efforts focusing on improving earlywood density and latewood percentage may contribute to improving wood density efficiently in tree breeding programs for C. japonica. Traits related to the ring density of C. japonica trees can possibly be selected as early as stand ages of 5–9 years, and the required period for progeny selection may be substantially shortened when selecting trees with high wood density.

Abstract Image

日本雪松(Cryptomeria japonica D. Don)生长环成分的遗传和早期选择较高木材密度的可能性
关键信息我们通过软X射线密度计分析法研究对照杂交的后代,阐明了日本隐花乔木(Cryptomeria japonica D. Don)狭义遗传力和表型/遗传相关性的年龄趋势以及生长环成分的年龄-年龄遗传相关性。背景树干内的木材密度受环内木材密度分布及其从髓部到树皮的年龄趋势的影响。本研究的目的是阐明生长环成分的狭义遗传力和表型/遗传相关性的年龄趋势,并研究早期选择以提高木质部密度的可能性。方法我们通过软X射线密度计分析法量化了342棵18年树龄树木的5112个年轮的7个生长环成分(宽度、密度、早材/晚材宽度、平均早材/晚材密度和晚材百分比),这些年轮来自24个受控授粉的全同父异母木系和克隆木系。使用线性混合模型和 breedR 软件包分析了七个生长年轮成分的遗传参数和相关性。结果 几乎在所有树龄,耳材密度和晚材率与年轮密度的表型和遗传相关性都高于其他年轮成分。早材密度和晚材率与环宽的相关性在林龄为 5 年后低于其他环组成要素。早材密度和晚材百分率的年龄-年龄遗传相关性在林龄为 17 年时为 0.70,在林龄为 5 年和 9 年时较强。与粳树环密度相关的性状最早可在 5-9 年树龄时进行选择,选择高木质密度的树木可大大缩短后代选择所需的时间。
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来源期刊
Annals of Forest Science
Annals of Forest Science 农林科学-林学
CiteScore
6.70
自引率
3.30%
发文量
45
审稿时长
12-24 weeks
期刊介绍: Annals of Forest Science is an official publication of the French National Institute for Agriculture, Food and Environment (INRAE) -Up-to-date coverage of current developments and trends in forest research and forestry Topics include ecology and ecophysiology, genetics and improvement, tree physiology, wood quality, and silviculture -Formerly known as Annales des Sciences Forestières -Biology of trees and associated organisms (symbionts, pathogens, pests) -Forest dynamics and ecosystem processes under environmental or management drivers (ecology, genetics) -Risks and disturbances affecting forest ecosystems (biology, ecology, economics) -Forestry wood chain (tree breeding, forest management and productivity, ecosystem services, silviculture and plantation management) -Wood sciences (relationships between wood structure and tree functions, and between forest management or environment and wood properties)
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