Origins of cryophilous lineages and the role of Beringia: evidence from the cosmopolitan angiosperm genus Stellaria L. (Caryophyllaceae)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Mathew T Sharples, Erin A Manzitto-Tripp
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Abstract

Abstract The cosmopolitan angiosperm genus Stellaria L. (Caryophyllaceae) occurs across the Arctic and is most diverse in the high southern Asian mountains, including presence at the most extreme latitudinal and elevational limits of vascular plants. Using the primary fossil record and double digest restriction site-associated DNA sequencing data, we estimated divergence times of Stellaria and relatives across the Caryophyllaceae. We then used ancestral area and ancestral state reconstructions to interpret the biogeographical history of the group. We found that Stellaria originated in the Miocene and gave rise to repeated New World lineages, mostly from temperate Old World regions and probably via Bering Land Bridges. Circumboreal lineages were recovered of recent, Pleistocene origin and several might have originated in southerly mountains of both the Old World and the New World before subsequently colonizing the Arctic. Ancestral state reconstruction of inhabitance of cold vs. temperate climates and of wet vs. dry habitats revealed repeated evolutionary transitions across these extremes by members of the genus worldwide. Our study, which samples nearly all species within a diverse and cosmopolitan lineage of flowering plants, recovers a group characterized by niche lability and helps to support prior findings of temperate origins of many cryophilous plant lineages. Pre-adaptation to cold might have been a prerequisite for colonization of the Arctic.
低温谱系的起源和白令陆桥的作用:来自世界性被子植物星属(石竹科)的证据
星形植物属(Stellaria L.,石竹科)分布于整个北极地区,在南亚高山地区分布最为多样,包括维管植物最极端的纬度和海拔极限。利用原始化石记录和双消化酶切位点相关的DNA测序数据,我们估计了星属及其近缘种在石竹科的分化时间。然后,我们使用祖先区域和祖先状态重建来解释该群体的生物地理历史。我们发现,星属起源于中新世,并产生了重复的新世界谱系,主要来自温带的旧世界地区,可能通过白令海陆桥。在最近的更新世起源的环环谱系中,有几个可能在随后殖民北极之前起源于旧世界和新世界的南部山脉。对寒冷与温带气候以及潮湿与干燥栖息地的祖先状态重建揭示了世界范围内该属成员在这些极端条件下的重复进化转变。我们的研究对开花植物的多样性和世界性谱系中的几乎所有物种进行了采样,恢复了一个以生态位不稳定性为特征的群体,并有助于支持许多低温植物谱系的温带起源的先前发现。对寒冷的预适应可能是北极殖民的先决条件。
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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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