下一代系统地理学揭示了濒危洪泛区苦丁(Acheilognathus longipinnis)意想不到的种群历史、气候和人类影响。

IF 2.3 Q2 ECOLOGY
Keisuke Onuki, Ryosuke K Ito, Tappei Mishina, Yasuyuki Hashiguchi, Koki Ikeya, Kazuhiko Uehara, Masaki Nishio, Ryoichi Tabata, Seiichi Mori, Katsutoshi Watanabe
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引用次数: 0

摘要

背景:洪泛平原蕴藏着高度生物多样性的生态系统,受到过去气候变化和近期人类活动的强烈影响,导致许多濒危物种在这些栖息地大量出现。了解洪泛区物种在不同时间尺度上的历史有助于制定有效的保护规划。我们利用有丝分裂基因组和全基因组序列,基于系统发育分析、人口模型和历史人口分析,重建了日本濒危洪泛区鱼类--板泉苦丁鱼(Acheilognathus longipinnis)的种群形成史。作为重测序分析的参考,新组装了一个基因组序列。这种苦草分布在三个被高山脉分隔的平原地区,表现出非常适合洪泛区环境的生态特征:结果:我们的分析发现了一种意想不到的种群分支模式、基因流和分化时间,这种分化发生在几十万年之内,即在被认为是种群分化主要地质原因的山地隆起之后很久。分析还表明,在上一个冰川期和后冰川期,所有当地种群都经历了严重的衰退:我们的研究结果表明,洪泛平原苦丁在山地隆起后能够通过未知路线扩散,其种群受到冰川-间冰期周期中气候和地理变化以及随后人类活动的强烈影响,这可能与其依赖洪泛平原的生态环境有关。基因组数据突显了该物种意想不到的分布过程和人类活动的巨大影响,对其保护具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Next-generation phylogeography reveals unanticipated population history and climate and human impacts on the endangered floodplain bitterling (Acheilognathus longipinnis).

Background: Floodplains harbor highly biodiverse ecosystems, which have been strongly affected by both past climate change and by recent human activities, resulting in a high prevalence of many endangered species in these habitats. Understanding the history of floodplain species over a wide range of timescales can contribute to effective conservation planning. We reconstructed the population formation history of the Itasenpara bitterling Acheilognathus longipinnis, an endangered floodplain fish species in Japan, over a broad timescale based on phylogenetic analysis, demographic modeling, and historical demographic analysis using mitogenome and whole-genome sequences. A genome sequence was newly assembled as a reference for the resequencing analysis. This bitterling is distributed in three plains separated by high mountain ranges and exhibits ecological characteristics well adapted to floodplain environments.

Results: Our analyses revealed an unexpected population branching pattern, gene flow, and timing of the differentiation that occurred within a few hundred thousand years, i.e., long after the mountain uplift that was assumed to be the primary geological cause of the population differentiation. The analyses also showed that all local populations experienced a severe decline during the last glacial and post-glacial periods.

Conclusions: Our results suggest that the floodplain bitterling was able to disperse through unknown routes after mountain uplift and that its populations were strongly influenced by climatic and geographic changes in glacial-interglacial cycles and subsequent human activities, probably related to its floodplain-dependent ecology. The genomic data highlight the unanticipated distribution process of this species and the magnitude of the impact of human activities, with important implications for its conservation.

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