Spore dispersal of Selaginella denticulata, S. helvetica, and S. selaginoides, and the significance of heterospory in Selaginellacae

IF 0.7 4区 生物学 Q4 PLANT SCIENCES American Fern Journal Pub Date : 2020-05-28 DOI:10.1640/0002-8444-110.2.58
J. Schneller, M. Kessler
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引用次数: 3

Abstract

Abstract. Little is known about the functional significance of heterospory in land plants, nor about how species ensure that mega- and microspores, which have strongly different wind dispersal, are dispersed over similar distances to ensure cross-fertilization. We studied active ejection distances and heights of megaspores of Selaginella denticulata, S. helvetica, and S. selaginoides. Under laboratory conditions, the maximum horizontal and vertical ejection distances of megaspores from the sporangia were 24 cm and 22 cm for S. denticulata, 65 cm and 45 cm for S. helvetica, and 120 cm and 76 cm for S. selaginoides. The function of this active spore ejection thus should not only be seen in the ability of horizontal dispersal but also as a means to bring the megaspores into the wind currents. Under laboratory conditions, microspores of all three species showed a maximum horizontal ejection distance of about 10 cm. However, experiments in the open showed that under natural conditions with wind, microspore dispersal occurs over much longer distances and that the megaspores are partly also wind assisted and reach similar distances. In addition, we observed synaptospory, in which microspores electrostatically adhered to megaspores and were dispersed with them. Our results suggest that the active ejection of the megaspores is a means of ensuring similar dispersal distances of micro- and megaspores and thus cross-fertilization. Very little is known about the breeding system in Selaginella, but we surmise that both self-fertilization and outcrossing occur.
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小齿卷柏、helvetica卷柏和selaginides卷柏的孢子散布及其异孢子的意义
摘要人们对异孢子在陆地植物中的功能意义知之甚少,也不知道物种如何确保大孢子和小孢子在相似的距离上传播以确保异受精,而大孢子和小孢子在风的传播上有很大的不同。研究了小齿卷柏、helvetica卷柏和selaginides卷柏的主动喷射距离和高度。在实验条件下,大孢子离孢子囊的最大水平和垂直射出距离分别为:小齿松24 cm和22 cm,黑绒松65 cm和45 cm,柏油松120 cm和76 cm。因此,这种活跃孢子喷射的作用不仅表现在水平扩散的能力上,而且还表现为将大孢子带入气流的一种手段。在实验室条件下,三种小孢子的最大水平喷射距离约为10 cm。然而,露天实验表明,在有风的自然条件下,小孢子的传播距离要远得多,大孢子的传播距离在一定程度上也有风的帮助。此外,我们还观察到突触孢子,在突触孢子中,小孢子静电粘附在大孢子上并随大孢子分散。我们的研究结果表明,大孢子的主动喷射是确保小孢子和大孢子相似的扩散距离的一种手段,从而实现交叉受精。我们对卷柏属植物的繁殖系统了解甚少,但我们推测自交受精和异交都有发生。
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来源期刊
American Fern Journal
American Fern Journal 生物-植物科学
CiteScore
1.20
自引率
0.00%
发文量
28
审稿时长
6 months
期刊介绍: The American Fern Journal is a peer-reviewed journal focused on the biology of ferns and lycophytes.
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