布氏草属(禾本科:虎尾草亚科)物种的个体发育和解剖结构显示出基部向顶的分枝形成以及禾本科植物中一种新颖的改良叶结构。
Ontogeny and anatomy of Bouteloua (Poaceae: Chloridoideae) species display a basipetal branch formation and a novel modified leaf structure in grasses.
作者信息
Cuellar-Garrido Luis Fernando, Ruiz-Sanchez Eduardo, Vargas-Ponce Ofelia, Whipple Clinton J
机构信息
Doctorado en Ciencias en Biosistemática, Ecología y Manejo de Recursos Naturales y Agrícolas (BEMARENA), Centro Universitario de Ciencias Biológicas y Agropecuarias, Universidad de Guadalajara, Camino Ing. Ramón Padilla Sánchez 2100, Zapopan, Jalisco 45200, México.
Laboratorio Nacional de Identificación y Caracterización Vegetal, Instituto de Botánica, Universidad de Guadalajara, Camino Ing. Ramón Padilla Sánchez 2100, Zapopan, Jalisco 45200, México.
出版信息
Ann Bot. 2022 Nov 17;130(5):737-747. doi: 10.1093/aob/mcac104.
BACKGROUND AND AIMS
Shoot ontogenesis in grasses follows a transition from a vegetative phase into a reproductive phase. Current studies provide insight into how branch and spikelet formation occur during the reproductive phase. However, these studies do not explain all the complex diversity of grass inflorescence forms and are mostly focused on model grasses. Moreover, truncated inflorescences of the non-model grass genus Urochloa (Panicoideae) with formation of primary branches have basipetal initiation of branches. Bouteloua species (Chloridoideae) are non-model grasses that form truncated inflorescences of primary branches with apical vestiges of uncertain homology at the tips of branching events and sterile florets above the lowermost fertile floret. Sterile florets are reduced to rudimentary lemmas composed of three large awns diverging from an awn column. Conflict about the awn column identity of this rudimentary lemma is often addressed in species descriptions of this genus. We test if Bouteloua species can display basipetal initiation of branches and explore the identity of vestiges and the awn column of rudimentary lemmas.
METHODS
We surveyed the inflorescence ontogeny and branch/awn anatomy of Bouteloua species and compared results with recent ontogenetic studies of chloridoids.
KEY RESULTS
Bouteloua arizonica has florets with basipetal maturation. Branches display basipetal branch initiation and maturation. Branch vestiges are formed laterally by meristems during early branching events. The spikelet meristem forms the awn column of rudimentary lemmas. Vestiges and sterile floret awns have anatomical similarities to C4 leaves.
CONCLUSIONS
Basipetal initiation of branches is a novel feature for Chloridoideae grasses. Branch vestiges are novel vegetative grass structures. Sterile floret awn columns are likely to be extensions of the rachilla.
背景与目的
禾本科植物的地上部个体发育遵循从营养生长阶段向生殖生长阶段的转变。目前的研究深入探讨了生殖阶段分枝和小穗形成的过程。然而,这些研究并不能解释禾本科花序形态的所有复杂多样性,且大多集中在模式禾本科植物上。此外,非模式禾本科黍族尾稃草属植物的截顶花序在形成一级分枝时具有向基部的分枝起始。布氏草属(黍亚科)植物是非模式禾本科植物,其形成的截顶一级分枝花序在分枝事件顶端具有同源性不确定的顶端残余物,且在最下部可育小花上方有不育小花。不育小花退化为由从芒柱发散出的三个大芒组成的退化稃片。在该属的物种描述中,常常会涉及对这种退化稃片芒柱特征的争议。我们测试布氏草属植物是否能表现出向基部的分枝起始,并探究残余物的特征以及退化稃片芒柱的特征。
方法
我们调查了布氏草属植物的花序个体发育及分枝/芒的解剖结构,并将结果与近期关于黍亚科植物的个体发育研究进行比较。
主要结果
亚利桑那布氏草的小花成熟顺序为向基部。分枝表现出向基部的分枝起始和成熟。在早期分枝事件中,分枝残余物由分生组织在侧面形成。小穗分生组织形成退化稃片的芒柱。残余物和不育小花芒在解剖结构上与C4叶相似。
结论
向基部的分枝起始是黍亚科禾本科植物的一个新特征。分枝残余物是禾本科植物新的营养结构。不育小花芒柱可能是小穗轴的延伸。
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