全寄生被子植物南方菟丝子（旋花科，菟丝子属）种子的物理休眠：破除休眠的条件、水孔解剖结构及敏感性循环

Physical dormancy in seeds of the holoparasitic angiosperm Cuscuta australis (Convolvulaceae, Cuscuteae): dormancy-breaking requirements, anatomy of the water gap and sensitivity cycling.

作者信息

Jayasuriya K M G Gehan, Baskin Jerry M, Geneve Robert L, Baskin Carol C, Chien Ching-Te

机构信息

Department of Biology, University of Kentucky, Lexington, Kentucky 40506, USA.

出版信息

Ann Bot. 2008 Jul;102(1):39-48. doi: 10.1093/aob/mcn064. Epub 2008 May 2.

DOI:10.1093/aob/mcn064

PMID:18453546

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2712423/

Abstract

BACKGROUND AND AIMS

Dormancy in seeds of Cuscuta (Convolvulaceae, tribe Cuscuteae) is due to a water-impermeable seed coat (physical dormancy). In nondormant seeds of several species of this family, bulges adjacent to the micropyle have been identified as the initial route of water entry into seeds (water gap). However, there are claims that water enters seeds of Cuscuta spp. via the entire seed coat. Although several studies have been done on seed coat anatomy of Cuscuta, none has identified and/or characterized the morphology/anatomy of a water gap. Thus, the primary aim of this research was to identify and describe the morphology and anatomy of the water gap in seeds of Cuscuta australis. It was also determined if sensitivity cycling to dormancy-breaking treatments occurs in seeds of this species.

METHODS

Light microscopy, scanning electron microscopy, tissue-sectioning and dye-tracking and blocking experiments were used to investigate the morphology and anatomy of the water gap. Treatments simulating natural conditions were used to break seed dormancy. Storage of seeds at different temperatures was tested for their effect on sensitivity to dormancy-breaking treatment.

KEY RESULTS

Dormancy-breaking treatments caused the tightly closed hilar fissure to open. Staining was observed in cells below the hilum area but not in those below the seed coat away from the hilum. Sensitivity to dormancy-breaking treatment was induced by storing seeds dry and reduced by storing them wet.

CONCLUSIONS

Whereas bulges adjacent to the micropyle act as the water gap in other species of Convolvulaceae with physical dormancy, the hilar fissure serves this function in Cuscuta. Cuscuta australis can cycle between insensitivity <--> sensitivity to dormancy-breaking treatments.

摘要

背景与目的

菟丝子（旋花科，菟丝子族）种子的休眠是由于种皮不透水（物理休眠）。在该科几个物种的非休眠种子中，靠近珠孔的凸起已被确定为水分进入种子的初始途径（水孔）。然而，有人声称水分是通过菟丝子属植物种子的整个种皮进入的。尽管已经对菟丝子的种皮解剖结构进行了多项研究，但尚未有研究确定和/或描述水孔的形态/解剖结构。因此，本研究的主要目的是确定和描述南方菟丝子种子水孔的形态和解剖结构。还确定了该物种的种子是否会出现对打破休眠处理的敏感性循环。

方法

使用光学显微镜、扫描电子显微镜、组织切片以及染料追踪和阻断实验来研究水孔的形态和解剖结构。采用模拟自然条件的处理方法来打破种子休眠。测试了在不同温度下储存种子对其打破休眠处理敏感性的影响。

主要结果

打破休眠的处理导致紧密闭合的种脐裂缝打开。在种脐区域下方的细胞中观察到染色，但在远离种脐的种皮下方的细胞中未观察到染色。通过干燥储存种子可诱导对打破休眠处理的敏感性，而通过湿润储存则降低敏感性。

结论

在其他具有物理休眠的旋花科物种中，靠近珠孔的凸起充当水孔，而在菟丝子中种脐裂缝起到这个作用。南方菟丝子对打破休眠处理的敏感性可在不敏感<-->敏感之间循环。

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