Effects of drainage reorganization on phytogeographic pattern in Sino-Himalaya

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hang Sun, Zhimin Li, Jacob B. Landis, Lishen Qian, Ticao Zhang, Tao Deng
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引用次数: 7

Abstract

The Sino-Himalaya region is located in the southeast margin of the Qinghai-Tibetan Plateau (QTP) with several Asian rivers in this area, namely the Yarlung Zangbo River (YZR), Salween, Mekong, and Jinshajiang River and their tributaries. All these rivers currently flow independently into the Indian Ocean, the South China Sea (Pacific Ocean) and the East China Sea (Pacific Ocean). In geologic history, however, these rivers flowed southward into the Paleo-Red River (PRR), forming a huge drainage system, which then flowed into the South China Sea. From the end of the Neogene to the beginning of the Quaternary, with further uplift of the QTP, the monsoon climate was formed and strengthened bringing abundant precipitation leading to river erosion, rapid undercutting and a series of river capture events resulting in modern drainage systems and the beheading of the huge PRR. The reorganization of the PRR led to changes in the spatial pattern of river systems, subsequently affecting the geographical distribution of plants in the river valley. This paper reviews the effects of drainage evolution on the genetic structure and geographical pattern of plants in this region, and summarizes the resulting four types of discontinuous distribution patterns observed, namely: (1) the discontinuous distribution pattern between the Three River Valleys (TRV) (Salween, Mekong, Jinshajiang and their tributaries) and the Red River Basin (RRB); (2) the discontinuity between the Yarlung Zangbo River and the TRV–RRB; (3) the discontinuity among the TRV, and (4) the discontinuity between the east and west ends of the QTP. The conclusions from this review, while providing botanical evidence supporting and confirming the drainage evolution in Sino-Himalaya China, are the following: (1) the reorganization of drainage systems made the original continuous distribution pattern discontinuous, forming unique genetic and biogeographical characteristics, promoting the genetic differentiation of species and the formation of new taxa; (2) river capture events link different river systems together, bringing together the genetic diversity of different river valley species, increasing the richness of genetic diversity and the exchange of genes among populations; (3) the reorganization of river systems impacts the evolutionary history of valley plants and shapes their modern distribution patterns.

水系重组对喜马拉雅山植物地理格局的影响
中喜马拉雅地区位于青藏高原东南缘,境内有雅鲁藏布江、萨尔温江、湄公河、金沙江及其支流等亚洲河流。所有这些河流目前都独立流入印度洋、南中国海(太平洋)和东海(太平洋)。然而,在地质史上,这些河流向南流入古红河,形成了一个巨大的排水系统,然后流入南中国海。从新第三纪末到第四纪初,随着QTP的进一步抬升,季风气候的形成和加强,带来了充足的降水,导致河流侵蚀、快速下切和一系列河流捕获事件,形成了现代排水系统,并斩首了巨大的PRR。PRR的重组导致了河流系统空间格局的变化,随后影响了河谷中植物的地理分布。本文综述了流域演化对该地区植物遗传结构和地理格局的影响,总结了由此产生的四种不连续分布格局,即:(1)三江流域(萨尔温江、湄公河、金沙江及其支流)与红河流域(RRB)之间的不连续分布模式;(2) 雅鲁藏布江和TRV–RRB之间的不连续性;(3) TRV之间的不连续性以及(4)QTP的东端和西端之间的不间断性。本综述的结论在为支持和证实中喜马拉雅流域演化提供植物学证据的同时,主要有以下几点:(1)流域系统的重组使原有的连续分布格局不连续,形成了独特的遗传和生物地理学特征,促进物种的遗传分化和新分类群的形成;(2) 河流捕获事件将不同的河流系统连接在一起,汇集了不同河谷物种的遗传多样性,增加了遗传多样性的丰富性和种群之间的基因交换;(3) 河流系统的重组影响了河谷植物的进化史,并塑造了其现代分布格局。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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