First Population Genetic Structure Analysis of the Freshwater Crab Potamon fluviatile (Brachyura: Potamidae) Reveals Fragmentation at Small Geographical Scale

Q4 Agricultural and Biological Sciences

Genetics of Aquatic Organisms Pub Date : 2020-01-24 DOI:10.4194/2459-1831-v4_1_05

A. Vella, N. Vella

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引用次数: 3

Abstract

The freshwater crab, Potamon fluviatile inhabits a number of watercourses in Italy, the Balkan Peninsula and some neighbouring islands. In this study, P. fluviatile specimens (n = 176) were tissue sampled from different watercourses in Maltese archipelago and were genetically analysed to investigate the population structure of the species within this small geographical area. The DNA sequences analysed included 622 nucleotides from cytochrome oxidase c subunit 1 gene, and 3160 nucleotides from the sequence between the NADH dehydrogenase subunit 6 gene and the 16S rRNA gene. Results indicated the occurrence of two main clades, with most populations exhibiting different haplotype frequencies and were characterized by private haplotypes that radiate from the main haplotype of each clade. This led to significant pairwise differences between most of the sampled populations. On grouping populations based on their geographical region, it was found that there are significantly large genetic differences between regions, with AMOVA analyses showing that over 90% of the genetic variation is due to differences between distant water systems. The population structure and the lack of genetic connectivity found among populations inhabiting different valleys highlight the urgent need for targeted conservation management of this legally protected species that is fragmented in small isolated populations.

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淡水蟹(短尾目:短尾目:短尾目)首次种群遗传结构分析揭示了小地理尺度上的破碎化

淡水蟹Potamon fluviatile栖息在意大利、巴尔干半岛和一些邻近岛屿的许多水道中。在这项研究中，从马耳他群岛的不同水道中抽取了176个河豚标本，并对其进行了基因分析，以调查该小地理区域内该物种的种群结构。分析的DNA序列包括细胞色素氧化酶c亚基1基因的622个核苷酸，以及NADH脱氢酶亚基6基因和16S rRNA基因之间的3160个核苷酸。结果表明，存在两个主要分支，大多数种群表现出不同的单倍型频率，并以从每个分支的主要单倍型辐射而来的私人单倍型为特征。这导致了大多数抽样群体之间的显著成对差异。根据地理区域对种群进行分组，发现区域之间存在显著的遗传差异，AMOVA分析表明，90%以上的遗传变异是由于遥远水系之间的差异造成的。居住在不同山谷的种群结构和缺乏基因连接，突显出迫切需要对这种分散在小规模孤立种群中的受法律保护物种进行有针对性的保护管理。

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来源期刊

Genetics of Aquatic Organisms Agricultural and Biological Sciences-Aquatic Science

CiteScore

0.90

自引率

0.00%

发文量