The discovery of a microbialite-associated freshwater fish in the world’s largest saline soda lake, Lake Van (Turkey)

IF 1.6 2区生物学 Q2 ZOOLOGY

Zoosystematics and Evolution Pub Date : 2021-03-16 DOI:10.3897/ZSE.97.62120

M. Akkuş, M. Sari, F. Ekmekçi, B. Yoğurtçuoğlu

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引用次数: 9

Abstract

Lake Van is the largest saline soda lake in the world and one of the world’s few endorheic lakes of greater than 3,000 km2 surface area. Despite its huge size, no fish species have so far been known to permanently occur in this lake due to its extreme environmental conditions. Here, we report the discovery of a fish population that permanently inhabits some of the unique microbialites of the lake, at a maximum depth of 13 m and about 500 m offshore. We tested whether this is an undescribed species or a new occurrence of a known species. A molecular and morphological examination showed that the newly discovered fish represents an isolated population of Oxynoemacheilus ercisianus, the only nemacheilid loach native to the freshwater tributaries of the Lake Van endorheic basin. Our further hypotheses on the prediction that (a) stream fishes would have a more anterior placement of fins than lake fishes were supported; but, that (b) stream fishes would be more slender bodied than their lake conspecifics was not supported. The lake dwelling population also shows very small sequence divergence (0.5% K2P distance) to its stream dwelling conspecific in the mtDNA-COI barcode region. The notable morphological difference with minute molecular divergence implies that the newly discovered population might have lost its link to freshwater during desiccation and transgressional phases of the Lake Van, and has adapted to a life on the microbialites.

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在世界上最大的盐碱湖——土耳其凡湖——发现了一种与微生物石有关的淡水鱼。

凡湖是世界上最大的盐碱湖，也是世界上为数不多的面积超过3000平方公里的内陆湖之一。尽管它的体积巨大，但由于其极端的环境条件，到目前为止还没有一种鱼类在这个湖中永久存在。在这里，我们报告了一种鱼类的发现，这种鱼类永久居住在湖泊的一些独特的微生物群落中，最大深度为13米，离岸约500米。我们测试了这是一个未被描述的物种还是一个已知物种的新出现。分子和形态学分析表明，新发现的泥鳅是一种孤立的Oxynoemacheilus ercisianus，这是唯一一种原产于Van endorheic湖盆地淡水支流的泥鳅。我们对(a)河流鱼类比湖泊鱼类鳍的位置更靠前的预测的进一步假设得到了支持;但是，(b)流鱼的身体会比它们的湖泊同类更纤细的说法是不支持的。在mtDNA-COI条形码区，湖泊居群与其河流居群的序列差异也非常小(0.5% K2P距离)。这些显著的形态差异和微小的分子差异表明，新发现的种群可能在凡湖的干燥和海侵阶段失去了与淡水的联系，并适应了在微生物岩上的生活。

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

Zoosystematics and Evolution ZOOLOGY-

CiteScore

3.50

自引率

5.00%

发文量

审稿时长

16 weeks

期刊介绍： Zoosystematics and Evolution, formerly Mitteilungen aus dem Museum für Naturkunde in Berlin, is an international, open access, peer-reviewed life science journal devoted to whole-organism biology. It publishes original research and review articles in the field of Metazoan taxonomy, biosystematics, evolution, morphology, development and biogeography at all taxonomic levels. The journal''s scope encompasses primary information from collection-related research, taxonomic descriptions and discoveries, revisions, annotated type catalogues, aspects of the history of science, and contributions on new methods and principles of systematics. Articles whose main topic is ecology, functional anatomy, physiology, or ethology are only acceptable when of systematic or evolutionary relevance and perspective.