Population genetic structure of the bottlenose dolphin in the Turkish waters based on mtDNA sequences with implications for the Black Sea subspecies Tursiops truncatus ponticus.

Arda M Tonay, Begüm Uzun, Ayhan Dede, Erdem Danyer, Işıl Aytemiz Danyer, Ayaka Amaha Öztürk, Frederick I Archer, Bayram Öztürk, Raşit Bilgin
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Abstract

The bottlenose dolphin is a widely distributed species found in temperate waters, including the Mediterranean and Black Seas. The Black Sea population is recognized as a distinct subspecies, Tursiops truncatus ponticus, due to genetic and morphological differences. This study analyzed mitochondrial DNA (mtDNA) sequences of 73 bottlenose dolphin samples collected between 1999 and 2016 along the Turkish Black Sea coast, Turkish Straits System (TSS), Aegean, and Mediterranean Seas revealing 14 haplotypes, eight of which are reported here for the first time.

The haplotype network shows two main nodes with star-like sub-networks, but no apparent geographic pattern. The lack of geographical groupings of haplotypes indicates the high mobility of the species within the sampled area. The northern Black Sea bottlenose dolphins (NBS) appear to be genetically differentiated from those in the southwestern Black Sea (SBS), Mediterranean, and Atlantic Ocean, but not from the TSS and Aegean Sea populations. Besides, SBS bottlenose dolphins were differentiated only from those in the western Mediterranean (WM) and the Atlantic. Therefore, NBS and SBS bottlenose dolphins should at least be categorized as different populations. However, contrary to some previous studies there was no evidence supporting the classification of Black Sea bottlenose dolphins as a separate subspecies.

The TSS differs only from the Atlantic and the Aegean, and functions like a migratory 'melting pot' for surrounding populations. Despite the largest sample size, NBS bottlenose dolphins exhibited the lowest haplotype and nucleotide diversity. This low genetic diversity and potential isolation from adjacent populations highlight the need for prioritizing the conservation of NBS bottlenose dolphins.

基于 mtDNA 序列的土耳其水域瓶鼻海豚种群遗传结构及其对黑海亚种 Tursiops truncatus ponticus 的影响。
瓶鼻海豚是一种广泛分布于温带水域的物种,包括地中海和黑海。由于遗传和形态上的差异,黑海种群被认定为一个独特的亚种,即 Tursiops truncatus ponticus。本研究分析了1999年至2016年期间在土耳其黑海沿岸、土耳其海峡系统(TSS)、爱琴海和地中海采集的73个瓶鼻海豚样本的线粒体DNA(mtDNA)序列,发现了14个单倍型,其中8个是首次报道。单倍型缺乏地理分组表明该物种在采样区域内具有很高的流动性。黑海北部瓶鼻海豚(NBS)似乎与黑海西南部(SBS)、地中海和大西洋的瓶鼻海豚在基因上有所区别,但与TSS和爱琴海的瓶鼻海豚种群没有区别。此外,SBS 的瓶鼻海豚只与地中海西部(WM)和大西洋的瓶鼻海豚有差异。因此,NBS 和 SBS 瓶鼻海豚至少应归类为不同的种群。然而,与之前的一些研究相反,没有证据支持将黑海瓶鼻海豚划分为一个单独的亚种。地中海瓶鼻海豚仅与大西洋和爱琴海的瓶鼻海豚不同,其功能就像周边种群迁徙的 "熔炉"。尽管样本量最大,NBS 瓶鼻海豚的单倍型和核苷酸多样性却最低。这种低遗传多样性以及与邻近种群的潜在隔离突出表明,有必要优先保护 NBS 瓶鼻海豚。
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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