古热带木竹的起源和形态特征演变。

IF 9.3 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Jing-Xia Liu, Cen Guo, Peng-Fei Ma, Meng-Yuan Zhou, Ya-Huang Luo, Guang-Fu Zhu, Zu-Chang Xu, Richard I Milne, Maria S. Vorontsova, De-Zhu Li
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引用次数: 0

摘要

木本竹科(Bambusoideae)在草本植物中表现出独特的生物特征,如高度木质化的秆秆、快速的嫩枝生长、单果型的大量开花以及坚果状或肉质的顶果。木竹亚科显著的形态多样性大多存在于一个单一的六倍体支系--古热带木竹(PWB)中,因此非常适合研究木竹形态进化的基本因素。然而,木本竹类的起源和生物地理历史以及环境因素对其形态特征进化的影响仍然难以捉摸。我们利用优化的双消化限制性位点相关DNA测序获得的单核苷酸多态性,生成了一个稳健的、经过时间校准的文竹系统发生,并探讨了习性、花序和颖果类型的进化趋势与气候、土壤和地形等环境因素的关系。我们推断灌木植物在渐新世-中新世边界开始分化,并形成了四个主要支系,即Melocanninae、Racemobambosinae s.l.(包括Dinochloinae、Greslanlinae、Racemobambosinae s.str.和Temburongiinae)、Hickeliinae和Bambusinae s.l.(包括Bambusinae s.str.和Holttumochloinae)。重建的 PWB 的祖先具有直立的习性、不定的花序和基本的颖果。攀援/匍匐习性、确定性花序和簇生/类簇生颖果等特征在工蜂属植物的演化过程中经历了多次变化和逆转。所有这三种性状的演变都与气候、地形和土壤有关,因此很可能受到这些因素的影响,其中气候因素与形态性状的相关性最强,而土壤因素与形态性状的相关性最小。然而,地形比气候或土壤对直立习性的进化有更大的影响,而这两个因素比土壤对茎颖的进化有更大的影响。我们的研究结果为今后的生态学和进化研究提供了关于竹子形态多样性和适应性进化的新见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The origin and morphological character evolution of the paleotropical woody bamboos

The origin and morphological character evolution of the paleotropical woody bamboos

The woody bamboos (Bambusoideae) exhibit distinctive biological traits within Poaceae, such as highly lignified culms, rapid shoot growth, monocarpic mass flowering and nutlike or fleshy caryopses. Much of the remarkable morphological diversity across the subfamily exists within a single hexaploid clade, the paleotropical woody bamboos (PWB), making it ideal to investigate the factors underlying morphological evolution in woody bamboos. However, the origin and biogeographical history of PWB remain elusive, as does the effect of environmental factors on the evolution of their morphological characters. We generated a robust and time-calibrated phylogeny of PWB using single nucleotide polymorphisms retrieved from optimized double digest restriction site associated DNA sequencing, and explored the evolutionary trends of habit, inflorescence, and caryopsis type in relation to environmental factors including climate, soil, and topography. We inferred that the PWB started to diversify across the Oligocene–Miocene boundary and formed four major clades, that is, Melocanninae, Racemobambosinae s.l. (comprising Dinochloinae, Greslanlinae, Racemobambosinae s.str. and Temburongiinae), Hickeliinae and Bambusinae s.l. (comprising Bambusinae s.str. plus Holttumochloinae). The ancestor of PWB was reconstructed as having erect habit, indeterminate inflorescence and basic caryopsis. The characters including climbing/scrambling habit, determinate inflorescence, and nucoid/bacoid caryopsis have since undergone multiple changes and reversals during the diversification of PWB. The evolution of all three traits was correlated with, and hence likely influenced by, aspects of climate, topography, and soil, with climate factors most strongly correlated with morphological traits, and soil factors least so. However, topography had more influence than climate or soil on the evolution of erect habit, whereas both factors had greater effect on the evolution of bacoid caryopsis than did soil. Our results provide novel insights into morphological diversity and adaptive evolution in bamboos for future ecological and evolutionary research.

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来源期刊
Journal of Integrative Plant Biology
Journal of Integrative Plant Biology 生物-生化与分子生物学
CiteScore
18.00
自引率
5.30%
发文量
220
审稿时长
3 months
期刊介绍: Journal of Integrative Plant Biology is a leading academic journal reporting on the latest discoveries in plant biology.Enjoy the latest news and developments in the field, understand new and improved methods and research tools, and explore basic biological questions through reproducible experimental design, using genetic, biochemical, cell and molecular biological methods, and statistical analyses.
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