跨越秦岭-淮河一线的系统地理断裂:中国药食同源植物(薤白)的第四纪进化史。

IF 2.3 Q2 ECOLOGY
Chunxue Jiang, Tian Shi, Zhongmei Mo, Cai Zhao
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引用次数: 0

摘要

基因流动的生物地理屏障是植物系统地理学研究的核心。中国有许多物理和地理屏障,但很少有研究利用分子生态学证据来研究秦岭-淮河线这一天然地理隔离屏障。薤白是一种珍贵的多年生草本植物,属于天南星科。薤白既可食用,又可入药,具有多种保健和治疗功效。本研究利用 5 个 SSR 标记、3 个叶绿体 DNA(cpDNA)标记(psbA-trnH、rps16 和 trnL-F)、1 个核核糖体 DNA(nrDNA)标记(ITS)和简化基因组 GBS 测序来分析大茎薤白的遗传多样性和结构。结合 SSR、cpDNA、nrDNA ITS 数据和 GBS 分析结果,我们将大戟科植物种群分为北方群和南方群,其中南方群又分为西南群和中部-东南群。生态位模拟结果表明,大戟科植物的分布区在未来将达到最大值。这些数据表明,大戟科植物的区域分离是在地理屏障和第四纪气候的共同影响下维持的,QHL和第四纪气候的前后波动在这一过程中发挥了重要作用。QHL在系统地理学和种群遗传结构中起到了南北分界线的作用,促进了物理地理隔离。这项研究为大戟科植物资源的保护、开发和利用提供了理论依据。它还为了解中国植物大尺度空间分布的系统地理格局提供了参考,丰富了我们对地形复杂地区第四纪植物演化的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Across a phylogeographic break in the Qinling Mountains-Huaihe River Line: Quaternary evolutionary history of a medicinal and edible homologous plant (Allium macrostemon) in China.

Across a phylogeographic break in the Qinling Mountains-Huaihe River Line: Quaternary evolutionary history of a medicinal and edible homologous plant (Allium macrostemon) in China.

Biogeographic barriers to gene flow are central to studies of plant phylogeography. There are many physical and geographic barriers in China, but few studies have used molecular ecological evidence to investigate the natural geographic isolation barrier of the Qinling Mountains-Huaihe River Line (QHL). Allium macrostemon is a precious Chinese perennial herb belonging to the Amaryllidaceae family. It is used as a food and medicine, with a variety of health and healing properties. Five SSR markers, three chloroplast DNA (cpDNA) markers (psbA-trnH, rps16 and trnL-F), one nuclear ribosomal DNA (nrDNA) marker (ITS), and simplified genome GBS sequencing were used to analyse the genetic diversity and structure of A. macrostemon. Combining SSR, cpDNA, nrDNA ITS data and GBS analysis results, we divided A. macrostemon populations into northern and southern groups, with the southern group further divided into southwestern and central-southeastern groups. Niche simulation results reveal that the distribution area of A. macrostemon will reach its maximum in the future. These data indicate that the regional separation of A. macrostemon has been maintained by the combined influence of a geographical barrier and Quaternary climate, and that the back-and-forth fluctuations of QHL and Quaternary climate have played an important role in this process. QHL acts as a north-south dividing line in phylogeography and population genetic structure, promoting physical geographic isolation. This study provides a theoretical basis for the conservation, development, and utilization of A. macrostemon resources. It further provides a reference for understanding the systematic geographical pattern of the large-scale spatial distribution of plants in China and enriches our understanding of Quaternary plant evolution in areas with complex terrain.

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