Phylogenetics of the skyhoppers (Kosciuscola) of the Australian Alps: evolutionary and conservation implications

IF 1.6 Q3 BIODIVERSITY CONSERVATION

Pacific Conservation Biology Pub Date : 2021-07-15 DOI:10.1071/pc21015

K. Umbers, R. Slatyer, N. Tatarnic, Giselle Muschett, Shichen Wang, Hojun Song

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引用次数: 3

Abstract

The true biodiversity of Australia’s alpine and subalpine endemics is unknown. Genetic studies to date have focused on sub-regions and restricted taxa, but even so, indicate deep divergences across small geographic scales and therefore that the bulk of biodiversity remains to be discovered. We aimed to study the phylogeography of the Australian Alps by focusing on the skyhoppers (Kosciuscola), a genus of five species of flightless grasshoppers whose combined distributions both span the region and are almost exclusively contained within it. Our sampling covered 650 km on the mainland and several sites in Tasmania with total of 260 specimens used to reconstruct a robust phylogeny of Koscisucola. Phylogenies were based on single nucleotide polymorphism data generated from double-digested restriction-associated DNA sequencing. Skyhoppers diverged around 2 million years ago and have since undergone complex diversification seemingly driven by climatic oscillations throughout the Pleistocene. We recovered not 5 but 14 clades indicating the presence of many unknown species. Our results support conspicuous geographic features as genetic breaks; e.g. the Murray Valley, and inconspicuous ones; e.g. between the Bogong High Plains and Mt Hotham. Climate change is progressing quickly in the region and its impact, particularly on snow, could have severe consequences for the skyhoppers’ overwinter survival. The true diversity of skyhoppers highlights that biodiversity loss in the Alps as a result of climate change is likely to be far greater than what can be estimated based on current species numbers and that management including small geographical scales is key.

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澳大利亚阿尔卑斯山脉跳天鸟的系统发育:进化和保护意义

澳大利亚高山和亚高山特有物种的真正生物多样性尚不清楚。迄今为止的遗传研究主要集中在子区域和受限分类群上，但即使如此，也表明在小地理尺度上存在深刻的差异，因此大部分生物多样性仍有待发现。我们的目标是研究澳大利亚阿尔卑斯山脉的系统地理学，重点是skyhoppers (Kosciuscola)，这是一个由五种不会飞的蚱蜢组成的属，它们的分布既跨越了该地区，又几乎完全包含在该地区。我们在大陆和塔斯马尼亚州的几个地点进行了650公里的采样，共收集了260个标本，用于重建Koscisucola的强大系统发育。系统发育是基于双酶切限制性相关DNA测序产生的单核苷酸多态性数据。跳天龙大约在200万年前分化，此后经历了复杂的多样化，似乎是由更新世的气候波动驱动的。我们发现了不是5个而是14个枝，这表明存在许多未知物种。我们的研究结果支持显著的地理特征作为遗传断裂;例如墨累河谷和不显眼的地方;例如，在博公高原和霍特姆山之间。气候变化在该地区迅速发展，其影响，特别是对雪的影响，可能对跳楼鸟的越冬生存造成严重后果。跳高者的真实多样性突出表明，气候变化导致的阿尔卑斯山生物多样性损失可能远远超过基于当前物种数量的估计，包括小地理尺度在内的管理是关键。

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

Pacific Conservation Biology Environmental Science-Nature and Landscape Conservation

CiteScore

3.60

自引率

6.70%

发文量

期刊介绍： Pacific Conservation Biology provides an important discussion forum for regional conservation issues, debate about management priorities, and dissemination of research results. The journal publishes original research, reviews, perspectives and book reviews.