云杉属植物与环境分化相关的功能性状及系统发育关系

IF 1.4 4区 农林科学 Q2 FORESTRY
Wang Minghao, Wang Jingru, Zhang Aiping, Z. Xiaowei, Sun Shan, Zhao Changming
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引用次数: 1

摘要

背景:植物通过重要的生态性状适应精细尺度的环境异质性,从而形成新的谱系。这表明重要性状的分化有利于近缘种之间的生境划分。然而,结合系统发育关系的生态分化模式和功能性状分化尚未得到广泛的研究。材料与方法:采用空间进化与生态差异分析方法(seeva)对9个云杉种亲缘间的生态差异进行了量化和检验。在普通园林试验中测定了五种功能性状。确定了各性状的定量收敛指数(QVI)。此外,在系统发育关系的背景下,分析了它们与不同环境变量的关系。结果:温度变量(最暖月份最高气温和年温差)在基部节点上发生分裂,降水变量(年降水量和最干旱季降水量)在末端节点上发生分裂。保守性状为叶面积质量(LMA)和净光合速率(Pn),反映了祖先在寒冷环境分离时的选择性保留。线性气孔密度(LSD)、碳-13同位素比值(δ13C)和50%水导率损失时的水势(P50)在物种间是趋同的,但只有P50表现出对不同降水条件的适应。9个云杉种表现出明显的环境分化模式。LMA和Pn在其祖先受到冷环境分离时被选择性保留。P50是水稻对降水差异适应的重要性状。本研究为阐明环境、功能性状与系统发育之间的关系提供了新的思路,加深了我们对环境分化、性状分化和物种形成的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Functional traits related to environmental divergence in combination with phylogenetic relationship of Picea species
Background: Plants have adapted to fine-scale environmental heterogeneity through ecologically important traits, leading to new lineages. This suggests that differentiation of important traits has been beneficial to habitat partitioning among closely related species. However, the pattern of ecological divergences and differentiation of functional traits in combination with phylogenetic relationships have not been widely examined. Material and methods: To illustrate the pattern of ecological divergences of nine Picea species, spatial evolutionary and ecological vicariance analysis (seeva) was used to quantify and test the divergence between sister lineages. Five functional traits were measured in a common garden experiment. For all traits the quantitative convergence index (QVI) was determined. Furthermore, their relationships with divergent environmental variables were analyzed in the context of phylogenetic relationships. Results: Temperature variables (maximum temperature of warmest month and temperature annual range) split at basal nodes and precipitation variables (annual precipitation and precipitation of driest quarter) split at terminal nodes. Conservative traits were leaf mass per area (LMA) and net photosynthetic rate (Pn), which reflected selective retention when ancestors suffered cold environmental separation. Meanwhile, linear stomatal density (LSD), carbon-13 isotope ratio (δ13C) and water potential at 50% loss of hydraulic conductivity (P50) were convergent between species, but only P50 exhibited adaption to different precipitation conditions. The nine Picea species exhibit a distinct environmental divergence pattern. LMA and Pn were selectively retained when their ancestors were subjected to cold environmental separation. P50 was an important trait with respect to adaptation to precipitation differences. This research provided a new way of expounding the correlation between environment, functional traits and phylogeny, deepening our understanding of environmental divergence, trait differentiation and speciation.
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来源期刊
Dendrobiology
Dendrobiology 农林科学-林学
CiteScore
2.20
自引率
11.10%
发文量
17
审稿时长
>12 weeks
期刊介绍: Dendrobiology publishes original research articles and review articles related to the biology of trees and shrubs.
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