McKown Athena D, Guy Robert D, Klápště Jaroslav, Geraldes Armando, Friedmann Michael, Cronk Quentin C B, El-Kassaby Yousry A, Mansfield Shawn D, Douglas Carl J
Department of Forest and Conservation Sciences, Faculty of Forestry, University of British Columbia, Forest Sciences Centre, 2424 Main Mall, Vancouver, BC, V6T 1Z4, Canada.
Department of Dendrology and Forest Tree Breeding, Faculty of Forestry and Wood Sciences, Czech University of Life Sciences, Prague, 165 21, Czech Republic.
New Phytol. 2014 Mar;201(4):1263-1276. doi: 10.1111/nph.12601. Epub 2013 Nov 25.
• Populus trichocarpa is widespread across western North America spanning extensive variation in photoperiod, growing season and climate. We investigated trait variation in P. trichocarpa using over 2000 trees from a common garden at Vancouver, Canada, representing replicate plantings of 461 genotypes originating from 136 provenance localities. • We measured 40 traits encompassing phenological events, biomass accumulation, growth rates, and leaf, isotope and gas exchange-based ecophysiology traits. With replicated plantings and 29,354 single nucleotide polymorphisms (SNPs) from 3518 genes, we estimated both broad-sense trait heritability (H(2)) and overall population genetic structure from principal component analysis. • Populus trichocarpa had high phenotypic variation and moderate/high H(2) for many traits. H(2) ranged from 0.3 to 0.9 in phenology, 0.3 to 0.8 in biomass and 0.1 to 0.8 in ecophysiology traits. Most traits correlated strongly with latitude, maximum daylength and temperature of tree origin, but not necessarily with elevation, precipitation or heat : moisture indices. Trait H(2) values reflected trait correlation strength with geoclimate variables. The population genetic structure had one significant principal component (PC1) which correlated with daylength and showed enrichment for genes relating to circadian rhythm and photoperiod. • Robust relationships between traits, population structure and geoclimate in P. trichocarpa reflect patterns which suggest that range-wide geographical and environment gradients have shaped its genotypic and phenotypic variability.
• 毛果杨广泛分布于北美西部,其光周期、生长季节和气候存在广泛差异。我们利用加拿大温哥华一个共同花园中的2000多棵树,对毛果杨的性状变异进行了研究,这些树代表了来自136个种源地的461个基因型的重复种植。
• 我们测量了40个性状,包括物候事件、生物量积累、生长速率以及基于叶片、同位素和气体交换的生态生理性状。通过重复种植和来自3518个基因的29354个单核苷酸多态性(SNP),我们从主成分分析中估计了广义性状遗传力(H²)和总体群体遗传结构。
• 毛果杨在许多性状上具有较高的表型变异和中等/较高的H²。物候性状的H²范围为0.3至0.9,生物量性状的H²范围为0.3至0.8,生态生理性状的H²范围为0.1至0.8。大多数性状与树木起源地的纬度、最长日照长度和温度密切相关,但不一定与海拔、降水量或热量:水分指数相关。性状H²值反映了性状与地球气候变量的相关强度。群体遗传结构有一个显著的主成分(PC1),它与日照长度相关,并显示出与昼夜节律和光周期相关基因的富集。
• 毛果杨性状、群体结构和地球气候之间的稳健关系反映了一些模式,表明广泛的地理和环境梯度塑造了其基因型和表型变异性。
