Changes in plant diversity in a water-limited and isolated high-mountain range (Sierra Nevada, Spain)

IF 2.6 3区 生物学 Q2 PLANT SCIENCES
Andrea Lamprecht, Harald Pauli, Maria Rosa Fernández Calzado, Juan Lorite, Joaquín Molero Mesa, Klaus Steinbauer, Manuela Winkler
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引用次数: 20

Abstract

Climate change impacts are of a particular concern in small mountain ranges, where cold-adapted plant species have their optimum zone in the upper bioclimatic belts. This is commonly the case in Mediterranean mountains, which often harbour high numbers of endemic species, enhancing the risk of biodiversity losses. This study deals with shifts in vascular plant diversity in the upper zones of the Sierra Nevada, Spain, in relation with climatic parameters during the past two decades. We used vegetation data from permanent plots of three surveys of two GLORIA study regions, spanning a period of 18 years (2001–2019); ERA5 temperature and precipitation data; and snow cover durations, derived from on-site soil temperature data. Relationships between diversity patterns and climate factors were analysed using GLMMs. Species richness showed a decline between 2001 and 2008, and increased thereafter. Species cover increased slightly but significantly, although not for endemic species. While endemics underwent cover losses proportional to non-endemics, more widespread shrub species increased. Precipitation tended to increase during the last decade, after a downward trend since 1960. Precipitation was positively related to species richness, colonisation events, and cover, and negatively to disappearance events. Longer snow cover duration and rising temperatures were also related to increasing species numbers, but not to cover changes. The rapid biotic responses of Mediterranean alpine plants indicate a tight synchronisation with climate fluctuations, especially with water availability. Thus, it rather confirms concerns about biodiversity losses, if projections of increasing temperature in combination with decreasing precipitation hold true.

水资源有限且与世隔绝的高山山脉(西班牙内华达山脉)植物多样性的变化
气候变化的影响在小山脉中尤其令人担忧,在那里,适应寒冷的植物物种的最佳区域位于上层生物气候带。地中海山区通常是这种情况,那里经常有大量的特有物种,增加了生物多样性丧失的风险。本研究研究了过去二十年中,西班牙内华达山脉上部地区维管束植物多样性与气候参数的关系。我们使用了来自两个GLORIA研究区域的三次调查的永久地块的植被数据,时间跨度为18年(2001–2019);ERA5温度和降水数据;以及根据现场土壤温度数据得出的积雪持续时间。利用GLMM分析了多样性模式与气候因素之间的关系。物种丰富度在2001年至2008年间有所下降,此后有所增加。物种覆盖率略有增加,但显著增加,尽管地方性物种没有。虽然特有种的覆盖损失与非特有种成正比,但更广泛分布的灌木物种增加了。降水量在1960年以来呈下降趋势后,在过去十年中趋于增加。降水量与物种丰富度、殖民事件和覆盖呈正相关,与消失事件呈负相关。积雪持续时间的延长和气温的升高也与物种数量的增加有关,但与覆盖层的变化无关。地中海高山植物的快速生物反应表明,它们与气候波动,特别是与水的可用性密切同步。因此,如果气温上升和降水减少的预测成立,这反而证实了人们对生物多样性丧失的担忧。
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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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