Endemics determine bioregionalization in the alpine zone of the Irano-Anatolian biodiversity hotspot (South-West Asia)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jalil Noroozi, Sina Khalvati, Haniyeh Nafisi, Akram Kaveh, Behnaz Nazari, Golshan Zare, Masoud Minaei, Ernst Vitek, Gerald M. Schneeweiss
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引用次数: 8

Abstract

Alpine habitats are characterized by a high rate of range restricted species compared to those of lower elevations. This is also the case for the Irano-Anatolian global biodiversity hotspot in South-West Asia, which is a mountainous area harbouring a high amount of endemic species. Using two quantitative approaches, Endemicity Analysis and Network-Clustering, we want to identify areas of concordant species distribution patterns in the alpine zone of this region as well as to test the hypothesis that, given the high proportion of endemics among alpine species, delimitation of these areas is determined mainly by endemic alpine species, i.e., areas of concordant species distribution patterns are congruent with areas of endemism. Endemicity Analysis identified six areas of concordant species distribution patterns irrespective of dataset (total alpine species versus endemic alpine species), whereas the Network-Clustering approach identified five and four Bioregions from total alpine species and endemic alpine species, respectively. Most of these areas have been previously identified using the endemic flora of different elevational zones. The identified units using both methods and both datasets are strongly congruent, proposing that they reveal meaningful distribution patterns. Bioregionalization in the Irano-Anatolian biodiversity hotspot appears to be strongly influenced by the endemic alpine species, a pattern likely to hold in alpine regions outside the Irano-Anatolian hotspot.

地方学决定了伊拉诺-安纳托利亚生物多样性热点(西南亚)高山地区的生物区域化
与低海拔地区相比,阿尔卑斯山栖息地的特点是范围限制物种的比例很高。西南亚的伊拉诺-安纳托利亚全球生物多样性热点地区也是如此,该地区是一个拥有大量特有物种的山区。使用两种定量方法,即地方性分析和网络聚类,我们希望确定该地区高山地带物种分布模式一致的区域,并检验以下假设:鉴于高山物种中地方性的比例很高,这些区域的划界主要由高山特有物种决定,即:。,物种分布模式一致的区域与特有性区域一致。地方性分析确定了六个物种分布模式一致的区域,而不考虑数据集(高山总物种与高山特有物种),而网络聚类方法分别从高山总物种和高山特有物种中确定了五个和四个生物区。这些地区中的大多数以前都是利用不同海拔带的特有植物群确定的。使用两种方法和两个数据集确定的单元是强一致的,表明它们揭示了有意义的分布模式。伊拉诺-安纳托利亚生物多样性热点的生物区划似乎受到当地高山物种的强烈影响,这种模式可能在伊拉诺-阿纳托利亚热点以外的高山地区保持。
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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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