低估淡水生物多样性的困境:形态学和分子学方法。

IF 2.3 Q2 ECOLOGY
Alexandra Schoenle, Dominik Scepanski, Alexander Floß, Pascal Büchel, Ann-Kathrin Koblitz, Anja Scherwaß, Hartmut Arndt, Ann-Marie Waldvogel
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引用次数: 0

摘要

背景:人类活动对淡水栖息地的影响正在导致近期生物多样性的减少,其程度远远超过大多数陆地生态系统。然而,对淡水生物多样性的了解和描述仍然有限,尤其是针对所有大小级别的淡水,以揭示生物多样性在不同营养级之间的分布情况。我们评估了莱茵河下游及河漫滩平原相关水体的生物多样性,包括河道主干道、牛背梁和砾石湖,范围从原生生物到大型无脊椎动物捕食者和食草动物,按大小级别(纳米级、微型、小型和大型动物)划分。形态多样性由形态型确定,而分子多样性(扩增子测序变体,ASVs)则通过针对 18S rDNA V9 区域进行代谢编码的 eDNA 样本进行评估:考虑到所有四个调查的大小等级,eDNA(与参考序列的序列相似度为 80-100% 的 ASVs)和形态学(形态类型)两种方法之间的共享类群百分比始终低于 15%(5.4 ± 3.9%)。即使对 ASV(相似度为 98-100%)进行更严格的筛选,分类群的重叠率也只能达到 43%(18.3 ± 12%)。我们观察到公共数据库中淡水生物参考序列的分类分辨率较低,尤其是纳米、微型和小型动物,而且缺乏淡水、海洋或陆地生态系统中物种的元信息:结论:在我们的研究中,我们将形态型检测和代谢编码结合在一起,特别揭示了较小尺度级别的多样性,并进一步强调了参考数据库中缺乏这种多样性的遗传资源。特别是对于原生动物(纳米和微型动物),需要结合分子和形态学方法来获得尽可能高的群落分辨率。对淡水生物多样性的评估需要考虑其在不同生态规模等级和不同区系中的亚结构,以揭示多样性的生态层面及其分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The dilemma of underestimating freshwater biodiversity: morphological and molecular approaches.

The dilemma of underestimating freshwater biodiversity: morphological and molecular approaches.

Background: Anthropogenic impacts on freshwater habitats are causing a recent biodiversity decline far greater than that documented for most terrestrial ecosystems. However, knowledge and description of freshwater biodiversity is still limited, especially targeting all size classes to uncover the distribution of biodiversity between different trophic levels. We assessed the biodiversity of the Lower Rhine and associated water bodies in the river's flood plain including the river's main channel, oxbows and gravel-pit lakes, spanning from the level of protists up to the level of larger invertebrate predators and herbivores organized in size classes (nano-, micro, meio- and macrofauna). Morphological diversity was determined by morphotypes, while the molecular diversity (amplicon sequencing variants, ASVs) was assessed through eDNA samples with metabarcoding targeting the V9 region of the 18S rDNA.

Results: Considering all four investigated size classes, the percentage of shared taxa between both approaches eDNA (ASVs with 80-100% sequence similarity to reference sequences) and morphology (morphotypes), was always below 15% (5.4 ± 3.9%). Even with a more stringent filtering of ASVs (98-100% similarity), the overlap of taxa could only reach up to 43% (18.3 ± 12%). We observed low taxonomic resolution of reference sequences from freshwater organisms in public databases for all size classes, especially for nano-, micro-, and meiofauna, furthermore lacking metainformation if species occur in freshwater, marine or terrestrial ecosystems.

Conclusions: In our study, we provide a combination of morphotype detection and metabarcoding that particularly reveals the diversity in the smaller size classes and furthermore highlights the lack of genetic resources in reference databases for this diversity. Especially for protists (nano- and microfauna), a combination of molecular and morphological approaches is needed to gain the highest possible community resolution. The assessment of freshwater biodiversity needs to account for its sub-structuring in different ecological size classes and across compartments in order to reveal the ecological dimension of diversity and its distribution.

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