Rooting Portions of a Young Pseudosporochnalean from the Catskill Delta Complex of New York

IF 1.5 3区生物学 Q3 PLANT SCIENCES

INTERNATIONAL JOURNAL OF PLANT SCIENCES Pub Date : 2023-06-05 DOI:10.1086/726108

W. Stein, C. M. Berry, L. V. Hernick, Frank Mannolini

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引用次数: 0

Abstract

Premise of research. Pseudosporochnales (Cladoxylopsida) were conspicuous elements of the Earth’s earliest forests. Recent evidence has done much to clarify basic aspects of the pseudosporochnalean architecture, but important questions remain about the developmental processes responsible for growth from juvenile individuals to trees of sometimes considerable size. Methodology. Presented here is combined compression/permineralization evidence of a young member of the group from a late Devonian (early Frasnian) locality also containing Eospermatopteris (Wattieza), currently the largest reconstructed pseudosporochnalean tree. Standard pyrite preparations were made and analyzed with reflected light. Pivotal results. The anatomically preserved portion of the trunk with an expanded base lacking a central vascular column shows abundant evidence of appendages with apparent rooting function supplied by traces comprised of primary and often secondary xylem. Traces arise within parenchyma near the trunk center and follow lax courses with multiple divisions outward and downward to the surface, finally enveloping the plant base for some distance. In the upper portion of the specimen, likely near the transition between the base bearing rooting appendages and the aerial shoot, the traces form a vascular plexus toward the periphery of the stem, with the bulk of vascular tissues comprising secondary xylem. Similar but differently oriented vascularization also occurs near the base. Conclusions. Here we hypothesize a unique form of “bipolar” development in this specimen, and potentially all pseudosporochnaleans, by means of a trunk base bearing an appendicular system of positively geotropic rooting appendages. In addition, we hypothesize that diffuse meristematic activity of the base plus the vascular plexus may have a previously unrecognized role in the development of pseudosporochnaleans from the small specimen observed here to large body size. We also suggest that this tissue offers an explanation for the enigmatic genus Xenocladia known from tissue fragments of large size found in coeval marine sediments of New York State. Given current incomplete understanding of development within the Pseudosprochnales, considering the rooting system as sui generis confers the advantage of adequate description of this organ, without necessarily specifying correspondence or homology with other groups.

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来自纽约卡茨基尔三角洲复合体的一株年轻假孢子虫的生根部分

研究的前提。Pseudosporochnales (Cladoxylopsida)是地球上最早的森林中引人注目的元素。最近的证据已经在很大程度上澄清了假孢子体结构的基本方面，但重要的问题仍然是关于从幼年个体到有时相当大的树的发育过程。方法。本文展示了来自晚泥盆纪(早弗拉斯纪)地区的一个年轻成员的压缩/过矿化证据，该地区也含有目前重建的最大的假孢子树Eospermatopteris (Wattieza)。制备了标准黄铁矿制剂，并用反射光进行了分析。关键的结果。解剖上保存的树干基部膨大，缺乏中央维管柱的部分显示出大量的附属物，附属物具有明显的生根功能，由初生木质部和通常由次生木质部组成的痕迹提供。痕迹出现在树干中心附近的薄壁组织中，沿着松散的路线向外和向下延伸至表面，最终包围植物基部一段距离。在标本的上半部分，很可能靠近基部的生根附属物和气枝之间的过渡部分，这些痕迹向茎的外围形成了维管丛，其中大部分维管组织由次生木质部组成。类似但方向不同的血管化也发生在基部附近。结论。在这里，我们假设在这个标本中有一种独特的“双极”发育形式，并且可能所有的假孢子体，通过树干基部带有一个由正地向性生根附属物组成的附属物系统。此外，我们假设，基部和血管丛的弥漫性分生组织活动可能在假孢子孢子体从小标本到大体型的发育过程中起着以前未被认识到的作用。我们还认为，这种组织为在纽约州同时期海洋沉积物中发现的大尺寸组织碎片所知的神秘的Xenocladia属提供了解释。鉴于目前对pseudoprochnales内部发育的不完全理解，将生根系统视为自成体系赋予了充分描述该器官的优势，而不必指定与其他类群的对应或同源性。

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

INTERNATIONAL JOURNAL OF PLANT SCIENCES 生物-植物科学

CiteScore

4.50

自引率

4.30%

发文量

审稿时长

6-12 weeks

期刊介绍： The International Journal of Plant Sciences has a distinguished history of publishing research in the plant sciences since 1875. IJPS presents high quality, original, peer-reviewed research from laboratories around the world in all areas of the plant sciences. Topics covered range from genetics and genomics, developmental and cell biology, biochemistry and physiology, to morphology and anatomy, systematics, evolution, paleobotany, plant-microbe interactions, and ecology. IJPS does NOT publish papers on agriculture or crop improvement. In addition to full-length research papers, IJPS publishes review articles, including the open access Coulter Reviews, rapid communications, and perspectives. IJPS welcomes contributions that present evaluations and new perspectives on areas of current interest in plant biology. IJPS publishes nine issues per year and regularly features special issues on topics of particular interest, including new and exciting research originally presented at major botanical conferences.