Mesoscale refugia for European alpine grasslands based on climatic envelopes

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
George P. Malanson, Riccardo Testolin, Elizabeth R. Pansing, Borja Jiménez-Alfaro
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引用次数: 2

Abstract

Refugia will be important to the response of alpine vegetation to climate change. Potential refugia exist at multiple scales, including a range-wide mesoscale. The climates of alpine grasslands of 23 mountain ranges of southern and central Europe were evaluated to assess whether each range would support potential refugia in projected future climates. The mean temperature the warmest month and quarter with the precipitation of the warmest quarter, derived from gridded global climate data at ~ 1 km resolution, were examined range-wide and for areas identified as alpine grassland to identify limits within each range. The overlap of current grassland climate and future range-wide climates, the latter calculated using regional projections from three global models with three socioeconomic driving scenarios, were assessed as potential refugia. Among the nine projections, three had none of the current grassland climates in any of the 23 ranges by 2100, while two retained more than 20% in more than half of the ranges. Most of the potential mesoscale refugia were in the Alps. Micro-refugia and warmer and drier fundamental climatic niches for alpine grassland species could mitigate these bleak results, but otherwise they are extremely threatened.

Abstract Image

基于气候包络的欧洲高山草原中尺度避难所
避难所对于高山植被应对气候变化具有重要意义。潜在避难所存在于多个尺度上,包括范围广泛的中尺度。对欧洲南部和中部23个山脉的高山草原的气候进行了评估,以评估每个山脉在预测的未来气候中是否支持潜在的避难所。最热月份和季度的平均温度,以及最热季度的降水量,来源于 ~ 1公里分辨率,在整个范围内进行了检查,并对被确定为高山草原的地区进行了检查以确定每个范围内的界限。当前草原气候和未来大范围气候的重叠,后者使用三个全球模型的区域预测和三种社会经济驱动情景进行计算,被评估为潜在的避难所。在9个预测中,有3个预测到2100年在23个范围内都没有目前的草原气候,而有2个预测在超过一半的范围内保持了20%以上的草原气候。大多数潜在的中尺度避难所都在阿尔卑斯山。高山草原物种的微型避难所和温暖干燥的基本气候生态位可以缓解这些惨淡的结果,但除此之外,它们将受到极大的威胁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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