哥伦比亚冰川退缩后的新型植物群落:(许多)损失和(很少)收获

IF 2.6 3区 生物学 Q2 PLANT SCIENCES
Fabien Anthelme, Ines Carrasquer, Jorge Luis Ceballos, Gwendolyn Peyre
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引用次数: 3

摘要

最近去冰川化地形中的早期植物初级演替是影响在气候变暖压力下迁移的新型高山植物群落的物种损失和获得的良好指标。在安第斯山脉北部的热带高山地区,这里是世界上最大的高山植物多样性的家园,强制初级演替将制约许多物种的保护。使用小冰河时代和Conejeras冰川(哥伦比亚)以下的冰川后时间序列作为时间空间替代方法,我们试图确定去冰川化以来的时间如何影响新型热带高山植物群落的组成、生物地理起源和生长形式分布。使用一系列多元技术和狄利克雷模型,我们评估了植物群落之间以及与环境因素之间的关系。在不到169年的时间里建立起来的群落缺乏一些通常在洛斯涅瓦多斯国家公园中发现的特色和特有物种,如Calamagrostis effusa、Senecio isabellis和Espeletia hartwegana。此外,这些群落已经被非本地物种定殖,例如乙酰胆碱酯酶Rumex acetosella。直立灌木和大型草丛是高山热带地区的特征,它们的生长缓慢,因为它们需要高度有机、发育缓慢的土壤。与温带类群相比,热带生物地理学起源的红豆杉在去冰川化后早期的代表性不足。这些结果表明,一些本地物种、热带生长形式和热带起源的分类群存在着强烈的气候债务,这可能会转化为显著的分类和功能损失,而少数观察到的收益与非本地物种的建立有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Novel plant communities after glacial retreat in Colombia: (many) losses and (few) gains

Novel plant communities after glacial retreat in Colombia: (many) losses and (few) gains

Early plant primary succession in recently deglacierized terrains is a good indicator of the species losses and gains that affect novel alpine plant communities migrating under the pressure of climate warming. In the tropical alpine -páramo- region of the northern Andes, home to the world's greatest alpine phyto-diversity, forced primary succession will condition the conservation of many species. Using a post-glacial chronosequence between the little ice age and present below the Conejeras glacier (Colombia) as a space-for-time substitution approach, we sought to determine how time since deglacierization affects the composition, the biogeographic origin and the growth form distribution of novel tropical alpine plant communities. Using an array of multivariate techniques and the Dirichlet model, we assessed relationships among plant communities and with environmental factors. Communities established in less than 169 years lacked a number of characteristic and endemic species usually found in the national park Los Nevados, such as Calamagrostis effusaSenecio isabelis and Espeletia hartwegiana. Moreover, these communities have been colonized by non-native species, e.g., Rumex acetosella. Upright shrubs and large tussock grasses, characteristic of the alpine tropics, established slowly because they required highly organic, slow-developing soils. Taxa of tropical biogeographic origin were under-represented early after deglacierization in comparison with temperate taxa. These results suggest the existence of a strong climatic debt for some native species, tropical growth forms and taxa of tropical origin, which may translate into significant taxonomic and functional losses whereas the few observed gains concern the establishment of non-native species.

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来源期刊
Alpine Botany
Alpine Botany PLANT SCIENCES-
CiteScore
5.10
自引率
18.50%
发文量
15
审稿时长
>12 weeks
期刊介绍: Alpine Botany is an international journal providing a forum for plant science studies at high elevation with links to fungal and microbial ecology, including vegetation and flora of mountain regions worldwide.
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