History and evolution of the afroalpine flora: in the footsteps of Olov Hedberg

IF 2.6 3区 生物学 Q2 PLANT SCIENCES
Christian Brochmann, Abel Gizaw, Desalegn Chala, Martha Kandziora, Gerald Eilu, Magnus Popp, Michael D. Pirie, Berit Gehrke
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引用次数: 13

Abstract

The monumental work of Olov Hedberg provided deep insights into the spectacular and fragmented tropical alpine flora of the African sky islands. Here we review recent molecular and niche modelling studies and re-examine Hedberg’s hypotheses and conclusions. Colonisation started when mountain uplift established the harsh diurnal climate with nightly frosts, accelerated throughout the last 5 Myr (Plio-Pleistocene), and resulted in a flora rich in local endemics. Recruitment was dominated by long-distance dispersals (LDDs) from seasonally cold, remote areas, mainly in Eurasia. Colonisation was only rarely followed by substantial diversification. Instead, most of the larger genera and even species colonised the afroalpine habitat multiple times independently. Conspicuous parallel evolution occurred among mountains, e.g., of gigantism in Lobelia and Dendrosenecio and dwarf shrubs in Alchemilla. Although the alpine habitat was ~ 8 times larger and the treeline was ~ 1000 m lower than today during the Last Glacial Maximum, genetic data suggest that the flora was shaped by strong intermountain isolation interrupted by rare LDDs rather than ecological connectivity. The new evidence points to a much younger and more dynamic island scenario than envisioned by Hedberg: the afroalpine flora is unsaturated and fragile, it was repeatedly disrupted by the Pleistocene climate oscillations, and it harbours taxonomic and genetic diversity that is unique but severely depauperated by frequent bottlenecks and cycles of colonisation, extinction, and recolonisation. The level of intrapopulation genetic variation is alarmingly low, and many afroalpine species may be vulnerable to extinction because of climate warming and increasing human impact.

非洲高山植物群的历史和进化:跟随Olov Hedberg的脚步
Olov Hedberg的不朽作品深入了解了非洲天空群岛壮观而支离破碎的热带高山植物群。在这里,我们回顾了最近的分子和生态位建模研究,并重新审视了Hedberg的假设和结论。当山脉隆起形成了夜间霜冻的恶劣昼夜气候时,殖民就开始了,在最后5年(上新世-更新世)加速了,并形成了富含当地特有植物的植物群。招聘主要来自季节性寒冷的偏远地区,主要在欧亚大陆。殖民之后很少有实质性的多样化。相反,大多数较大的属甚至物种多次独立地在亚高山栖息地定居。在山脉之间发生了明显的平行进化,例如,半边莲和Dendrosenecio的巨人症,以及Alchemilla的矮灌木。尽管高山栖息地 ~ 8倍大,树线 ~ 在上一次冰川盛期,比今天低1000米,遗传数据表明,该植物群是由强烈的山间隔离所形成的,这种隔离被罕见的LDD打断,而不是生态连接。新的证据表明,一个比海德伯格设想的更年轻、更具活力的岛屿场景:非洲高山植物群是不饱和和脆弱的,它一再受到更新世气候振荡的破坏,它拥有独特的分类和遗传多样性,但由于殖民、灭绝和再殖民的频繁瓶颈和周期而严重削弱。种群内部基因变异水平低得惊人,由于气候变暖和人类影响的增加,许多非洲高山物种可能容易灭绝。
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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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