通过陆桥实现台湾岛与中国大陆之间的双向生物交流--Obeidia Walker(尺蠖蛾科,鳞翅目)个案研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Rui Cheng, Nan Jiang, Arong Luo, Michael Orr, Qingsong Zhou, Xiaoyu Shi, Hongxiang Han, Chaodong Zhu
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引用次数: 0

摘要

台湾与中国大陆之间的生物交流塑造了两地的生物多样性和生态系统。从中国大陆到台湾的生物交流受到更多关注,主要是陆生脊椎动物的研究,而反向交流和无脊椎动物的研究则被忽视。在此,我们以Obeidia三个种群的蛾类(包括台湾类群及其大陆亲缘种群)为基础,探讨了两地间的扩散事件。我们采用混合方法和分析方法,包括重建系统发生树、估计相关分化时间、推断祖先地区和来源区等,基于8个基因探讨了三个类群的系统地理结构和遗传模式。我们的研究结果显示了三个支系的结构,每个支系都包括至少一个台湾类群及其中国大陆的近缘类群,同时台湾也是两个大陆类群的重要来源地区。我们的研究揭示了以大戟科三个种群为基础的各种起源模式和扩散模式。通过陆桥发现了双向生物交流:四个台湾类群起源于大陆,其中两个迁回大陆。喜马拉雅山东部和华南地区都是台湾生物群的重要起源区,而主要的起源区可能需要多个昆虫案例来确认。我们的研究还从昆虫分子系统发育的角度提供了不连续分布的证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bidirectional biotic interchange between Taiwan Island and Mainland China via land bridges—A case study of Obeidia Walker (Geometridae, Lepidoptera)
Biotic exchanges between Taiwan and Mainland China have shaped the biodiversity and ecosystems of both regions. Exchanges from Mainland China to Taiwan have received more attention, mainly studied in terrestrial vertebrates, while the reverse direction and invertebrates have largely been overlooked. Here, we explore the dispersal events between these two regions based on the moths of three species groups of Obeidia, including Taiwan taxa and its relatives from mainland. We conducted mixed methods and analysis, including reconstructing a phylogenetic tree, estimating associated divergence times and inferring ancestral areas and source regions, to explore the phylogeographical structure and genetic pattern of three groups based on eight genes. Our results revealed a structure of three clades and every clade included at least one Taiwanese taxa and its closest relatives of mainland of China, and also served Taiwan as an important source region of two mainland taxa. Our study revealed various origin pattern and dispersal models on the basis of three species groups of Obeidia. Bi‐directional biotic exchange via a land bridge were found: four Taiwanese taxa originated from mainland, and two of them migrated back to mainland. Both eastern Himalayas and south China are important origin areas for Taiwan biota, and the dominant source region may need multiple insect cases to confirm. Our study also provided evidences for disjunct distribution from the perspective of insecta molecular phylogeny.
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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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