Exploring benthic diatom diversity in the West Antarctic Peninsula: insights from a morphological and molecular approach

Katherina Schimani, Nélida Abarca, O. Skibbe, Heba Mohamad, R. Jahn, Wolf-Henning Kusber, G. Campana, J. Zimmermann
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Abstract

Polar regions are among the most extreme habitats on Earth. However, diatom biodiversity in those regions is much more extensive and ecologically diverse than previously thought. The objective of this study was to add knowledge to benthic diatom biodiversity in Western Antarctic coastal zones via identification by means of morphology, DNA metabarcoding and cultured isolates. In addition, a taxonomically validated reference library for Antarctic benthic diatoms was established with comprehensive information on habitat, morphology and DNA barcodes (rbcL and 18SV4). Benthic samples from marine, brackish and freshwater habitats were taken at the Antarctic Peninsula. A total of 162 clonal cultures were established, resulting in the identification of 60 taxa. The combination of total morphological richness of 174 taxa, including the clones, with an additional 73 taxa just assigned by metabarcoding resulted in 247 infrageneric taxa. Of those taxa, 33 were retrieved by all three methods and 111 only by morphology. The barcode reference library of Antarctic species with the new references obtained through culturing allowed the assignment of 47 taxa in the metabarcoding analyses, which would have been left unassigned because no matching reference sequences were available before. Non–metric multidimensional scaling analyses of morphological as well as molecular data showed a clear separation of diatom communities according to water and substratum types. Many species, especially marine taxa, still have no record in reference databases. This highlights the need for a more comprehensive reference library to further improve routine diatom metabarcoding. Overall, a combination of morphological and molecular methods, along with culturing, provides complementary information on the biodiversity of benthic diatoms in the region.
探索南极半岛西部底栖硅藻多样性:形态学和分子方法的启示
极地地区是地球上最极端的栖息地之一。然而,这些地区的硅藻生物多样性比以前认为的要广泛得多,生态多样性也要丰富得多。本研究的目的是通过形态学、DNA元条形码和培养分离物的鉴定,增加对南极西部沿海底栖硅藻生物多样性的认识。此外,还建立了一个完整的南极底栖硅藻生境、形态和DNA条形码(rbcL和18SV4)的分类验证参考文库。在南极半岛采集了海洋、咸淡水和淡水生境的底栖生物样本。共建立了162个克隆培养,鉴定出60个分类群。包括无性系在内的174个类群的形态丰富度与元条形码鉴定的73个类群的形态丰富度相结合,共得到247个亚属类群。3种方法检索到的分类群33个,形态学检索到的分类群111个。利用培养获得的新参考文献建立的南极物种条形码参考文库,可以在元条形码分析中对47个类群进行分配,而这些类群在以前由于没有匹配的参考序列而无法分配。形态学和分子数据的非度量多维尺度分析表明,硅藻群落根据水和基质类型有明显的分离。许多物种,特别是海洋分类群,在参考数据库中仍然没有记录。这突出了需要一个更全面的参考库来进一步改进常规硅藻元条形码。总的来说,形态学和分子方法的结合,以及培养,提供了关于该地区底栖硅藻生物多样性的补充信息。
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
Metabarcoding and Metagenomics
Metabarcoding and Metagenomics Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
5.40
自引率
0.00%
发文量
25
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