气候变化对瑞士阿尔卑斯山多风山脊和雪床植被的影响对比

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Loïc Liberati, Swanee Messerli, Magalì Matteodo, Pascal Vittoz
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引用次数: 16

摘要

气候变化对高山峰顶植物群的影响已被广泛研究。然而,只有少数研究包括高山草原,并普遍得出结论,积雪持续时间长、生长季节短的雪床和积雪持续时间短、冬季霜冻强烈的多风山脊是最敏感的高山草原。然而,这些栖息地大多在不同的地区进行了调查,当地因素(如氮沉积、放牧)可能会随着气候变化而变化,从而可能掩盖栖息地之间的差异。在这里,我们重点关注采尔马特地区(瑞士阿尔卑斯山),以调查气候变化对雪床和多风山脊的影响。大约23年后,在准永久性地块中重复了43份详尽的风脊(嗜酸或嗜碱)历史植物清单和31份雪床(典型或潮湿)植物清单。将历史和近期记录与Simpson指数、Bray–Curtis相异性、主成分分析、生态指标值以及物种的频率和覆盖变化进行比较。α-多样性普遍增加,β-多样性下降(均化)。地块中的大多数新物种都是来自周围草原的多面手。在嗜酸性风脊和典型的雪床上,植物成分往往更嗜热。嗜酸性风脊的植物区系与嗜碱性风脊的更相似,更富营养化。我们解释说,这可能是由于山谷中不断膨胀的冰川冰碛产生的风尘沉积造成的施肥。在雪床中,该物种表现出越来越干燥的条件,尤其是在潮湿的雪床中。气候变暖导致降雪量减少,融雪时间提前,导致积雪持续时间缩短。因此,潮湿的雪床无疑是阿尔卑斯山受气候变化威胁最大的植物群落之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Contrasting impacts of climate change on the vegetation of windy ridges and snowbeds in the Swiss Alps

Contrasting impacts of climate change on the vegetation of windy ridges and snowbeds in the Swiss Alps

The impacts of climate change on alpine summit floras have been widely investigated. However, only few studies included alpine grasslands and generally concluded that snowbeds, with a long snow cover duration and a short growing season, and windy ridges, with a short snow cover duration and strong winter frosts, are the most sensitive alpine grasslands. However, these habitats were mostly investigated in different regions, where local factors (e.g. nitrogen deposition, grazing) can co-vary with climate changes, potentially obscuring differences between habitats. Here, we focused on the Zermatt region (Swiss Alps) to investigate the impacts of climate change on snowbeds and windy ridges. Forty-three exhaustive historical plant inventories on windy ridges (acidophilic or basophilic) and 31 inventories in snowbeds (typical or wet) were repeated in quasi-permanent plots after approximately 23 years. Historical and recent records were compared with the Simpson index, Bray–Curtis dissimilarity, a PCA, ecological indicator values and the frequency and cover changes of species. There was a general increase in α-diversity and a decrease in β-diversity (homogenisation). Most of the new species in the plots were generalists from surrounding grasslands. The plant composition tended to be more thermophilous on acidophilic windy ridges and in typical snowbeds. The flora of acidophilic windy ridges became more similar to that of basophilic windy ridges and more eutrophic. We interpreted this as possibly arising from fertilisation by the aeolian dust deposition coming from the expanding glacial moraine in the valley. In snowbeds, the species indicated increasingly drier conditions, especially in wet snowbeds. Warming climate induces lower snowfall and earlier snowmelt, leading to a shorter snow cover duration. Hence, wet snowbeds are certainly among the most threatened plant communities by climate change in the Alps.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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