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缺失孢子的命运——超出产孢藓最接近范围的实际扩散模式。

The fate of the missing spores--patterns of realized dispersal beyond the closest vicinity of a sporulating moss.

机构信息

Plant Ecology, Department of Botany, Stockholm University, Stockholm, Sweden.

出版信息

PLoS One. 2012;7(7):e41987. doi: 10.1371/journal.pone.0041987. Epub 2012 Jul 27.

DOI:10.1371/journal.pone.0041987
PMID:22870183
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3411459/
Abstract

It is well-known that many species with small diaspores can disperse far during extended temporal scales (many years). However, studies on short temporal scales usually only cover short distances (in, e.g., bryophytes up to 15 m). By using a novel experimental design, studying the realized dispersal, we extend this range by almost two orders of magnitude. We recorded establishment of the fast-growing moss Discelium nudum on introduced suitable substrates, placed around a translocated, sporulating mother colony. Around 2,000 pots with acidic clay were placed at different distances between 5 m and 600 m, in four directions, on a raised bog, with increased pot numbers with distance. The experiment was set up in April-May and the realized dispersal (number of colonized pots) was recorded in September. Close to the mother colony (up to 10 m), the mean colonization rates (ratio of colonized pots) exceeded 50%. At distances between 10 and 50 m colonization dropped sharply, but beyond 50 m the mean colonization rates stabilized and hardly changed (1-3%). The estimated density of spores causing establishments at the further distances (2-6 spores/m²) was realistic when compared to the estimated spore output from the central colonies. Our study supports calculations from earlier studies, limited to short distances, that a majority of the spores disperse beyond the nearest vicinity of a source. The even colonization pattern at further distances raises interesting questions about under what conditions spores are transported and deposited. However, it is clear that regular establishment is likely at the km-scale for this and many other species with similar spore output and dispersal mechanism.

摘要

众所周知,许多具有小孢子的物种可以在很长的时间内(多年)远距离扩散。然而,在短时间尺度上的研究通常只涵盖短距离(例如,苔藓植物可达 15 米)。通过使用新颖的实验设计,研究实现的扩散,我们将这个范围扩大了近两个数量级。我们记录了快速生长的苔藓 Discelium nudum 在引入的适宜基质上的建立,这些基质放置在一个已转移的、有孢子的母菌落周围。在一个凸起的沼泽地上,以不同的方向放置了大约 2000 个装有酸性粘土的花盆,距离母菌落 5 米至 600 米不等,随着距离的增加,花盆的数量也会增加。实验于 4 月至 5 月进行,9 月记录了实现的扩散(已定植的花盆数量)。在靠近母菌落的地方(高达 10 米),定植率(定植花盆的比例)平均值超过 50%。在 10 至 50 米的距离之间,定植率急剧下降,但在 50 米以外,定植率稳定且几乎不变(1-3%)。与从中部菌落估计的孢子输出量相比,在更远的距离上引起定植的孢子密度(每平方米 2-6 个孢子)是现实的。我们的研究支持了早期研究的计算结果,这些研究仅限于短距离,即大多数孢子会扩散到源的最近范围之外。在更远的距离上均匀的定植模式提出了一个有趣的问题,即在什么条件下孢子会被运输和沉积。然而,很明显,对于这种和许多其他具有类似孢子输出和扩散机制的物种来说,在公里范围内,定期定植是很有可能的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e598/3411459/8dfd86ad0f58/pone.0041987.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e598/3411459/635330c1e2d1/pone.0041987.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e598/3411459/8dfd86ad0f58/pone.0041987.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e598/3411459/635330c1e2d1/pone.0041987.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e598/3411459/8dfd86ad0f58/pone.0041987.g002.jpg

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