Morphology and development of Nigrosabulum globosum, a cleistothecial coprophile in the Bionectriaceae (Hypocreales)

Marcie J.R. Plishka, Akihiko Tsuneda, Randolph S. Currah
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引用次数: 5

Abstract

Recent DNA sequence analyses indicated that Nigrosabulum globosum is a cleistothecial representative of the Bionectriaceae in the Hypocreales, but morphological characters supporting this relationship are unknown. Using light and electron microscopy we followed the development of the ascomata of this species, from the formation of gametangia through to the development of mature ascospores, and observed a series of characters that confirmed its hypocrealean affinities. These included the formation of a gel-filled centrum during early stages of ascoma development, the subsequent appearance of hyaline peridial tissue enclosed within a layer we interpret as representing a melanized uniloculate stroma, apically derived paraphyses, and an ascogenous system that gives rise to asci that were both cylindrical to clavate and globose. Ascospores, previously reported to be smooth, were ornamented with a honeycomb-like reticulum and were able to germinate within the ascoma. The carbonaceous outer (stromatic) walls of the mature, grit-like cleistothecia indicate possible resistance to UV radiation and desiccation. Furthermore, the complement of germinated ascospores would enable mature ascomata to function as propagules that could quickly initiate new growth when transferred to fresh substrate. Our reexamination of N. globosum also provides data that support the hypothesized close relationship with other bionectriaceous, cleistothecial coprophiles, i.e., species of Hapsidospora, and Bulbithecium in particular.

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龙舌兰科一种闭囊虫的形态与发育
最近的DNA序列分析表明,黑球球是下creale中Bionectriaceae的闭门代表,但形态学特征支持这种关系尚不清楚。利用光镜和电镜观察了该物种子囊孢子的发育过程,从配子囊的形成到成熟子囊孢子的发育,并观察到一系列的特征,证实了其与子囊的亲缘关系。这些包括在肿瘤早期形成的充满凝胶的中心,随后出现的透明周组织被包裹在一层内,我们解释为代表黑化的单胞间质,根尖衍生的畸形,以及产生圆柱形、棒状和球形的血管系统。先前报道的子囊孢子是光滑的,具有蜂窝状网状结构,能够在子囊内发芽。成熟的沙砾状闭锁藻的碳质外层(基质)壁表明它可能抵抗紫外线辐射和干燥。此外,萌发子囊孢子的补充将使成熟的子囊孢子具有繁殖体的功能,当转移到新鲜基质时,可以迅速启动新的生长。我们对N. globosum的重新研究也提供了数据,支持与其他生物共生体,闭锁共生体,即Hapsidospora物种,特别是Bulbithecium物种的密切关系的假设。
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