自1880年以来,赤道安第斯山脉高海拔地区páramo植物在温度和湿度变化中的分布变化

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Petr Sklenář, Katya Romoleroux, Priscilla Muriel, Ricardo Jaramillo, Antonella Bernardi, Mauricio Diazgranados, Pierre Moret
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引用次数: 10

摘要

气候变化威胁着赤道安第斯山脉的多样性和高度地方性的帕拉莫植物群,物种减少,植物群落多样性减少。爱德华·温珀在1880年对厄瓜多尔安第斯山脉的植物学探索中的发现为研究气候变化对物种分布的影响提供了一个机会。为了实现这些目标,我们修改了Whymper的历史植物物种集合,记录了同一物种在Chimborazo和Antisana两座火山1880年采样路线上的海拔分布,并将其应用于生态指标值。在Whymper记录的物种中,24个在Antisana,21个在Chimborazo,我们在2020年分别对其中21个和14个物种进行了重新采样。我们在Chimborazo上发现的最高记录是5385米,比Whymper分布数据预测的零丰富度海拔高出7米,在Antisana上发现的4937米,比零丰富度海拔低113米。Chimbora佐和Antisana的物种平均上限分别向上移动了91.7米和27.1米,表明平均移动率分别为每十年6.6米和1.9米。这种上坡迁移率是世界上报告的最慢的迁移率之一。湿度生态指标值表明,自1880年以来,帕拉莫植物群落的物种组成发生了变化,这不仅是对温度上升的反应,也是对干旱加剧的反应。páramo植物对赤道安第斯山脉气候变化的反应不是均匀的上坡迁移,而是特定物种的反应,可能是由温度升高和湿度下降的共同影响等因素驱动的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distribution changes in páramo plants from the equatorial high Andes in response to increasing temperature and humidity variation since 1880

Climatic changes threaten the diverse and highly endemic páramo flora of the equatorial Andes with species loss and reduction of plant community diversity. Edward Whymper’s findings in his botanical exploration of the Ecuadorian Andes in 1880 offer an opportunity to examine the impact of climate changes on species distribution over time. To achieve these goals, we revised Whymper’s historical plant species collections, recorded elevational distribution of the same species along his 1880 sampling routes on two volcanoes, Chimborazo and Antisana, and applied to them ecological indicator values. Of the species recorded by Whymper, 24 on Antisana and 21 on Chimborazo, we resampled 21 and 14 of those species, respectively, in 2020. The highest record we found on Chimborazo was at 5385 m, seven meters above the zero-richness elevation predicted from Whymper’s distribution data, and at 4937 m on Antisana, 113 m below it. Mean upper range limits of species have shifted upward by 91.7 m on Chimborazo and by 27.1 m on Antisana, suggesting mean shift rates of 6.6 m and 1.9 m per decade, respectively. This rate of upslope migration ranks among the slowest reported worldwide. Humidity ecological indicator values suggest that species composition of páramo plant communities changed since 1880 in response not only to rising temperature, but also increasing dryness. Rather than a uniform upslope migration, the response of páramo plants to climate changes in the equatorial Andes has been species-specific, likely driven, among other factors, by coupled effects of increasing temperature and declining humidity.

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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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