Vessel elements of two thelypteroid ferns-part I.

IF 4.1 3区 生物学 Q1 PLANT SCIENCES
Swastika Laskar, Utsha Ghoshal, Kakali Sen
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引用次数: 0

Abstract

Background: Hydraulically efficient xylem was evolved in the vascular plants as an apomorphy of the group. Main xylem components involved in water conduction are tracheid and vessel. Vessels, in which two ends are perforated, constituted major evolutionary innovation within vascular plants, presumably providing more efficient solute conduction. Not all vascular plants have vessels. In pteridophytes vessels are present only in seven genera. The contention lies regarding the presence and distribution of vessel in pteridophytes are the impulsive force of this investigation.

Methods: Tracheary elements are isolated following the standard maceration technique, then hand-razor cut longisections are passed through the aqueous alcohol grades and air-dried samples are placed on stub, sputter coated with gold and examined with SEM.

Results: Two thelypteroid ferns viz. Ampelopteris prolifera (Retz.) Copel. and Thelypteris interrupta (Willd.) K. Iwats. are having vessel elements in root, rhizome, stipe, rachis, primary vein/costa, root-rhizome and rhizome-petiole junction i.e. through entire vascular connection of the plant body though the vessel network is interrupted and joined with parenchyma at the end in some places. Presence of vessel elements in the costa of pteridophytic taxa is first time reported by this study. Vessel end-walls are obliquely placed (root, rhizome, and stipe) but oblique to horizontal orientation is noticed in the primary vein/costa. End-walls are with simple, intermediate and compound perforation plates observed through SEM imaging as well as with tissue specific stain. Studied taxa are grown either in terrestrial microclimate of two contrasting environments i.e. sun and shade (A. prolifera) or in open swampy land (T. interrupta) with moderate to highly disturbed places as rapid proliferating populations showing interpopulation variations of tracheary elements length-width(s) and vessel end-wall length-width(s).

Conclusion: Vessel elements are present throughout the entire vascular connections of the plant body of A. prolifera (Retz.) Copel. and T. interrupta (Willd.) K. Iwats. Interpopulation variation of tracheary elements length-width(s) and vessel end-wall length width(s) are noticed. Till date only seven genera of pteridophytes are reported for the presence of vessel and these two genera are the new addition with the previous.

Abstract Image

Abstract Image

Abstract Image

两种蕨类植物的叶脉元素--第一部分。
背景:水力高效木质部是维管植物进化而来的,是维管植物群落的一种特殊形态。木质部中参与水分传导的主要成分是气管和血管。血管两端穿孔,是维管植物在进化过程中的重大创新,可能提供了更高效的溶质传导。并非所有维管植物都有血管。在翼手目植物中,只有七个属有血管。关于翼手目植物中血管的存在和分布的争论是本次调查的动力:方法:按照标准浸渍技术分离气管元件,然后将手工剃刀切下的长切片通过水醇等级,将风干的样品放在柱子上,溅射镀金并用扫描电镜检查:结果:两种蕨类植物,即 Ampelopteris prolifera (Retz.) Copel.和 Thelypteris interrupta (Willd.) K. Iwats.的根、根茎、柄、轴、主脉/肋、根-根茎和根茎-叶柄交界处都有血管元素,即贯穿植物体的整个维管连接,尽管血管网络在某些地方中断,并在末端与实质连接。本研究首次报道了翼手目类群的叶缘存在血管元件。血管的端壁呈斜向排列(根、根茎和柄),但在主脉/脊柱中则呈斜向水平排列。通过扫描电子显微镜(SEM)成像和组织特异性染色观察到的端壁有单孔、中间孔和复合孔板。所研究的分类群生长在两种截然不同的陆地小气候环境中,即阳光和阴凉处(A. prolifera),或生长在开阔的沼泽地中(T. interrupta),在中度到高度受干扰的地方快速增殖,表现出气管元素长度-宽度和血管内壁长度-宽度的种群间差异:A.prolifera(Retz.)Copel.和 T.interrupta(Willd.)K.Iwats.植物体的整个维管连接中都有血管元件。注意到气管元素长宽和血管端壁长宽的种间差异。迄今为止,仅有 7 个属的翼手目植物被报道存在血管,而这两个属是新增加的属。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Botanical Studies
Botanical Studies PLANT SCIENCES-
CiteScore
4.80
自引率
2.90%
发文量
32
审稿时长
13 weeks
期刊介绍: Botanical Studies is an open access journal that encompasses all aspects of botany, including but not limited to taxonomy, morphology, development, genetics, evolution, reproduction, systematics, and biodiversity of all plant groups, algae, and fungi. The journal is affiliated with the Institute of Plant and Microbial Biology, Academia Sinica, Taiwan.
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