Anatomy, microstructure, and endogenous hormone changes in Gnetum parvifolium during anthesis

IF 3.7

JOURNAL OF SYSTEMATICS AND EVOLUTION Pub Date : 2018-01-01 DOI:10.1111/jse.12263

Qian Lan, Jianfeng Liu, S. Shi, Nan Deng, Zeping Jiang, E. Chang

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引用次数: 6

Abstract

The study of the sexual systems of plants is very important for understanding their evolutionary process. Gnetum is a pivotal species in comprehending the seed plant phylogeny. However, the sexual systems of this genus are not fully understood. To investigate the sexual system of Gnetum, the anatomical structure, microstructure, and endogenous hormones were investigated from the differentiation of flower buds to fertilization in the floral organs of female and male of G. parvifolium (Warb.) C.Y. Cheng, widely distributed in the north of China. After 2 years of field investigations, the staminate strobili were observed on female plants for the first time and the abortive ovules were also found on male plants. In addition, high levels of gibberellin A3 and zeatin riboside led to masculinization, whereas a high level of indole‐3‐acetic acid favored feminization. A comprehensive analysis of the results indicates that G. parvifolium may not be completely dioecious on morphology, but female and male plants can only perform their own gender function, which would provide a better understanding of the diversity of sexual systems in Gnetum, and reproductive structures of seed plants.

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植物性系统的研究对了解植物的进化过程具有重要意义。麻属植物是了解种子植物系统发育的关键物种。然而，这个属的性系统还没有完全了解。摘要为探讨木耳属植物的性别系统，对木耳属植物(G. parvifolium, Warb.)雌雄花器官从花蕾分化到受精的解剖结构、微观结构和内源激素进行了研究。郑振英，广泛分布于中国北方。经过2年的野外调查，首次在雌株上发现雄蕊，雄株上也发现败育胚珠。此外，高水平的赤霉素A3和玉米蛋白核苷导致雄性化，而高水平的吲哚- 3 -乙酸则有利于雌性化。综合分析结果表明，小叶草在形态上可能不是完全雌雄异株，雌雄植株只能发挥各自的性别功能，这将有助于更好地了解麻属植物性别系统的多样性和种子植物的生殖结构。

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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JOURNAL OF SYSTEMATICS AND EVOLUTION

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