Silicified bulliform cells of Poaceae: morphological characteristics that distinguish subfamilies.

IF 4.1 3区 生物学 Q1 PLANT SCIENCES Botanical Studies Pub Date : 2020-03-02 DOI:10.1186/s40529-020-0282-x
Iju Chen, Kuang-Ti Li, Cheng-Hwa Tsang
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引用次数: 15

Abstract

Background: Grass phytoliths are the most common phytoliths in sediments; recognizing grass phytolith types is important when using phytoliths as a tool to reconstruct paleoenvironments. Grass bulliform cells may be silicified to large size parallelepipedal or cuneiform shaped phytoliths, which were often regarded as of no taxonomic value. However, studies in eastern Asia had identified several forms of grass bulliform phytoliths, including rice bulliform phytolith, a phytolith type frequently used to track the history of rice domestication. Identification with a higher level of taxonomic resolution is possible, yet a systematic investigation on morphology of Poaceae bulliform phytoliths is lacking. We aimed at providing a morphological description of bulliform phytoliths of Poaceae from Taiwan based on morphometric measurements in anatomical aspect. The results are important references for paleo-ecological studies.

Result: The morphology of grass bulliform phytoliths is usually consistent within a subfamily; the end profile is relatively rectangular in Panicoideae and Micrairoideae, whereas cuneiform to nearly circular in Oryzoideae, Bambusoideae, Arundinoideae, and Chloridoideae. Bulliform phytoliths were seldom observed in Pooideae. Certain morphotypes are limited to plants growing in specific environments. For example, large, thin, and pointed bulliform phytoliths are associated with wet habitat; Chloridoideae types are mostly from C4 plants occupying open arid places.

Conclusion: Grass bulliform phytoliths can be identified at least to the subfamily level, and several forms were distinguished within large subfamilies. Previously un-reported silicified cell types, i.e., arm cells and fusoids, and two special trichome phytolith types associated with bulliform phytoliths, were described. Morphometric methods were great tools for delimiting morphotypes; with refined morphological classification the association between forms and habit/habitats was revealed. The knowledge provides new ways to interpret phytolith assemblage data, and it is especially useful when the sediments are enriched in large blocky phytoliths.

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豆科硅化球状细胞:区分亚科的形态学特征。
背景:禾本科植物岩是沉积物中最常见的植物岩;识别禾草植物岩类型是利用植物岩重建古环境的重要工具。禾草球状细胞可能硅化成大尺寸的平行六面体或楔形植物岩,这些植物岩通常被认为没有分类价值。然而,在东亚的研究已经确定了几种形式的草球状植物岩,包括水稻球状植物岩,这是一种经常用于追踪水稻驯化历史的植物岩类型。以较高的分类学分辨率进行鉴定是可能的,但对豆科球状植物岩的形态还缺乏系统的研究。摘要从解剖学角度对台湾禾本科植物的球状植物岩进行形态学描述。研究结果对古生态学研究具有重要的参考价值。结果:草球状植物岩的形态在一个亚科内通常是一致的;Panicoideae科和micoroideae科的末端轮廓相对呈矩形,而Oryzoideae科、Bambusoideae科、Arundinoideae科和Chloridoideae科的末端轮廓呈楔形或近圆形。球状植物岩在池亚科中少见。某些形态仅限于在特定环境中生长的植物。例如,大的、薄的和尖的球状植物岩与潮湿的栖息地有关;蠓科类型主要来自于开阔干旱地区的C4植物。结论:草球状植物岩至少在亚科水平上可以识别,并在大亚科中区分出几种类型。先前未报道的硅化细胞类型,即臂细胞和梭状体,以及与球状植物岩相关的两种特殊的毛状植物岩类型,被描述。形态计量学方法是划分形态类型的重要工具;通过精细的形态分类,揭示了形态与习性/生境之间的联系。这些知识为解释植物岩组合数据提供了新的途径,当沉积物富含大块块状植物岩时尤其有用。
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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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