在模拟高山微型庇护所的过程中,物种丰富度与缓冲区的有效性和竞争的优先次序息息相关

IF 3.4 2区 环境科学与生态学 Q2 ECOLOGY
George P. Malanson, Stefan Dullinger, Harald Pauli, Manuela Winkler, Patrick Saccone, Borja Jiménez-Alfaro
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引用次数: 0

摘要

目的:在气候变暖的情况下,高山斜坡上的微型庇护所可能使物种得以存活。研究探讨了植物物种丰富度如何对气候缓冲作用的有效性做出反应,气候缓冲作用是指在竞争优先效应的介导下,微型庇护所的气候变化与开阔高山斜坡的气候变化之间的差异。在实验框架中,小生境在缓冲气候变化方面的有效性和竞争优先效应的水平被列为改变人口统计率的因素。此外,还模拟了小生境的空间模式和扩散差异。结果相对于相同气候变化下的瞬时平衡计算,随着变化时期的加入(瞬时变化与瞬时平衡变化),物种保存数量会减少,而随着竞争优先效应的增加,物种保存数量会进一步减少。在这些模拟中,受保护物种的数量并没有像假设的那样随着缓冲区有效性的提高而增加,而是呈双峰分布。这是一种时间性生态陷阱,在这种陷阱中,适应气候梯度中段的物种会灭绝,因为它们在小生境中的定居受到了常住物种灭绝债务的阻碍。竞争的优先次序增加了造成这些人口后果的惯性。最高水平的缓冲和由此产生的惰性不会无处不在,但这种双峰模式表明,对微庇护所作用的评估需要认识到物种-环境和物种-物种之间的时间性相互作用,这种相互作用将改变物种保存的数量和灭绝的数量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Species richness responds to buffer effectiveness and competitive priorities in simulations of alpine microrefugia

Species richness responds to buffer effectiveness and competitive priorities in simulations of alpine microrefugia

Aim

Microrefugia on alpine slopes may allow species to persist in a warming climate. How plant species richness could respond to of the effectiveness of climatic buffering, defined as the difference in climate change in a microrefugium in comparison to that of an open alpine slope as mediated by competitive priority effects, is explored.

Location

Alpine habitat anywhere.

Taxon

Vascular plants.

Methods

A simple spatially explicit model of plant species with adaptations across a climatic gradient simulates reproduction, dispersal, and mortality through climatic change. The effectiveness of microrefugia in buffering climate change and levels of competitive priority effects are included as factors that alter demographic rates in an experimental framework. Spatial patterns of microrefugia and differences in dispersal are also simulated. Differences in mean species richness were analysed.

Results

The number of species conserved, relative to an instantaneous equilibrium calculation with the same climatic change, decreases with inclusion of a period of change (transient vs. instantaneous, equilibrium change) and further with competitive priority effects. In these simulations, the number of species conserved does not simply increase with buffer effectiveness, as hypothesized, but instead is bimodal.

Main Conclusions

The dip in number of species conserved in the middle range of buffer effectiveness occurs because barriers develop. These are temporal ecological traps, wherein species adapted to the middle of a climatic gradient become extinct, because their colonization of microrefugia is blocked by an extinction debt of resident species. The inertia that allows these demographic consequences is increased by competitive priorities. The highest levels of buffering and resulting inertia will not be ubiquitous but the bimodal pattern indicates that assessments of the role of microrefugia need to recognize the temporal species-environment and species-species interactions that will change the number of species conserved versus extinctions.

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来源期刊
Journal of Biogeography
Journal of Biogeography 环境科学-生态学
CiteScore
7.70
自引率
5.10%
发文量
203
审稿时长
2.2 months
期刊介绍: Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.
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