Estructura morfo-anatómica y salida de dormición física de las semillas de Malvastrum coromandelianum ssp. coromandelianum (Malvaceae)

IF 0.6 4区生物学 Q4 PLANT SCIENCES

Boletin De La Sociedad Argentina De Botanica Pub Date : 2019-11-27 DOI:10.31055/1851.2372.v54.n4.24162

G. Galíndez, D. López-Spahr, C. A. Gómez, Valeria Pastrana-Ignes, R. Díaz, T. Bertuzzi, Pablo Ortega-Baes

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引用次数: 3

Abstract

Background and aims: The occurrence of seeds with physical dormancy is an obstacle for the use and management of many plant species. Here, we studied the presence of physical dormancy in mericarps (seed-dispersal units) and seeds, the morpho-anatomical structures responsible for physical dormancy, and the effects of possible methods for breaking dormancy in seeds of Malvastrum coromandelianum (Malvaceae). M&M: Imbibition essays were used to confirm the presence of physical dormancy in mericarps and seeds, and the morpho-anatomical seed structure was described by using a scanning electron microscopy. The effects of mechanical, chemical and thermal scarifications on seed germination and seed structure were also evaluated. Results: Mericarps and scarified seeds increased > 160% of their initial weight, whereas intact seeds increased < 40% of their initial weight. The presence of a palisade cell layer in seed coat and a water-gaps complex in the chalazal region were observed. Higher germination percentages and lower t 50 were registered after mechanical scarification, followed by chemical and thermal scarifications (dry heat). Chemical and thermal scarifications caused the chalazal cap elimination and the contiguous cracks to form around the chalazal region; whereas the formation of a chalazal blister and its elimination were only observed after chemical scarification. Conclusions: Seeds of M. coromandelianum have physical dormancy. Water enters the seeds through a water-gap complex (Type III compound) located in the chalazal region. Mechanical, chemical and thermal scarifications are effective methods for breaking physical dormancy and increase germination.

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Malvastrum coromandelianum ssp种子的形态解剖结构和物理休眠输出。coromandelianum (Malvaceae)

背景与目的:具有物理休眠的种子的发生是许多植物物种利用和管理的障碍。本文研究了Malvastrum coromandelianum (malvacae)种子分节和种子中存在的物理休眠、负责物理休眠的形态解剖结构以及打破休眠的可能方法的效果。M&M:吸胀论文用于证实分果和种子中存在物理休眠，并用扫描电子显微镜描述了种子的形态解剖结构。评价了机械、化学和热割伤对种子萌发和种子结构的影响。结果:分条和瘢痕化种子的初始重量增加了> 160%，而完整种子的初始重量增加了< 40%。种皮上存在栅栏细胞层，合点区存在水隙复合体。机械划伤后种子萌发率较高，t50较低，其次是化学划伤和热划伤(干热)。化学和热割伤导致合点帽消除，并在合点周围形成连续裂纹;而合点水疱的形成和消除只有在化学划伤后才能观察到。结论:黄花种子具有生理休眠。水通过位于合点区的水隙复合物(III型化合物)进入种子。机械、化学和热切割是打破物理休眠和提高发芽的有效方法。

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来源期刊

Boletin De La Sociedad Argentina De Botanica PLANT SCIENCES-

CiteScore

1.00

自引率

33.30%

发文量

审稿时长

>12 weeks

期刊介绍： Bol. Soc. Argent. Bot. publishes original scientific works from the whole spectrum of Plant Biology (structure, anatomy, development, physiology, cytology, genetics, evolution, ecology, paleobotany, palynology, ethnobotany, etc.) in the diverse vegetable organisms and related groups (mycology, ficology, lichenology, briology, etc.), both in basic and applied aspects. Taxonomic works (of systematics, phylogeny, monographs, revisions, lectotypifications, nomenclatural acts, descriptions of taxa), phytogeographic and phytosociological works (survey and classification of vegetation at different spatial scales and without restriction of methodological approaches) are considered for publication. Contributions that address complete phytogeographic units or sub-units and those that fill gaps in knowledge of vegetation in little-known territories are especially welcome. Extensions of geographical areas are published only when it comes to new citations for a country. Checklists and lists of annotated plants are not published. Articles submitted for publication must be original and must not have been submitted to another publisher or previously published (print or electronic format). Submissions of papers already published in another language will not be accepted (autoplagio for translation).