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一种关于空心牵牛(旋花科)种子物理休眠打破的推测机制。

A proposed mechanism for physical dormancy break in seeds of Ipomoea lacunosa (Convolvulaceae).

作者信息

Jayasuriya K M G Gehan, Baskin Jerry M, Geneve Robert L, Baskin Carol C

机构信息

Department of Biology, University of Kentucky, Lexington, KY 40546, USA.

出版信息

Ann Bot. 2009 Feb;103(3):433-45. doi: 10.1093/aob/mcn240. Epub 2008 Dec 19.

DOI:10.1093/aob/mcn240
PMID:19098068
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2707335/
Abstract

BACKGROUND AND AIMS

The water-impermeable seeds of Ipomoea lacunosa undergo sensitivity cycling to dormancy breaking treatment, and slits are formed around bulges adjacent to the micropyle during dormancy break, i.e. the water gap opens. The primary aim of this research was to identify the mechanism of slit formation in seeds of this species.

METHODS

Sensitive seeds were incubated at various combinations of relative humidity (RH) and temperature after blocking the hilar area in different places. Increase in seed mass was measured before and after incubation. Scanning electron microscopy (SEM) and staining of insensitive and sensitive seeds were carried out to characterize these states morphologically and anatomically. Water absorption was monitored at 35 and 25 degrees C at 100 % RH.

KEY RESULTS

There was a significant relationship between incubation temperature and RH with percentage seed dormancy break. Sensitive seeds absorbed water vapour, but insensitive seeds did not. Different amounts of water were absorbed by seeds with different blocking treatments. There was a significant relationship between dormancy break and the amount of water absorbed during incubation.

CONCLUSIONS

Water vapour seals openings that allow it to escape from seeds and causes pressure to develop below the bulge, thereby causing slits to form. A model for the mechanism of formation of slits (physical dormancy break) is proposed.

摘要

背景与目的

缺叶牵牛的不透水种子对打破休眠处理存在敏感性循环,在休眠打破期间,靠近种孔的凸起周围会形成裂缝,即水隙打开。本研究的主要目的是确定该物种种子中裂缝形成的机制。

方法

在不同位置堵塞种脐区域后,将敏感种子在不同相对湿度(RH)和温度组合下进行培养。在培养前后测量种子质量的增加。对不敏感和敏感种子进行扫描电子显微镜(SEM)观察和染色,以从形态学和解剖学上表征这些状态。在100%RH下,于35℃和25℃监测吸水率。

关键结果

培养温度和RH与种子休眠打破百分比之间存在显著关系。敏感种子吸收水蒸气,而不敏感种子则不吸收。不同堵塞处理的种子吸收的水量不同。休眠打破与培养期间吸收的水量之间存在显著关系。

结论

水蒸气封闭了使其能从种子逸出的开口,并在凸起下方产生压力,从而导致裂缝形成。提出了裂缝形成机制(物理休眠打破)的模型。

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3
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5
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