eDNA metabarcoding reveals biodiversity and depth stratification patterns of dinoflagellate assemblages within the epipelagic zone of the western Coral Sea.

IF 2.3 Q2 ECOLOGY
Megan Carve, Tahnee Manning, Aidyn Mouradov, Jeff Shimeta
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Abstract

Background: Dinoflagellates play critical roles in the functioning of marine ecosystems but also may pose a hazard to human and ecosystem health by causing harmful algal blooms (HABs). The Coral Sea is a biodiversity hotspot, but its dinoflagellate assemblages in pelagic waters have not been studied by modern sequencing methods. We used metabarcoding of the 18 S rRNA V4 amplicon to assess the diversity and structure of dinoflagellate assemblages throughout the water column to a depth of 150 m at three stations in the Western Coral Sea. Additionally, at one station we compared metabarcoding with morphological methods to optimise identification and detection of dinoflagellates.

Results: Stratification of dinoflagellate assemblages was evident in depth-specific relative abundances of taxonomic groups; the greatest difference was between the 5-30 m assemblages and the 130-150 m assemblages. The relative abundance of Dinophyceae (photosynthetic and heterotrophic) decreased with increasing depth, whereas that of Syndiniales (parasitic) increased with increasing depth. The composition of major taxonomic groups was similar among stations. Taxonomic richness and diversity of amplicon sequence variants (ASVs) were similar among depths and stations; however, the abundance of dominant taxa was highest within 0-30 m, and the abundance of rare taxa was highest within 130-150 m, indicating adaptations to specific depth strata. The number of unclassified ASVs at the family and species levels was very high, particularly for Syndinian representatives.

Conclusions: Dinoflagellate assemblages in open water of the Coral Sea are highly diverse and taxonomically stratified by depth; patterns of relative abundance along the depth gradient reflect environmental factors and ecological processes. Metabarcoding detects more species richness than does traditional microscopical methods of sample analysis, yet the methods are complementary, with morphological analysis revealing additional richness. The large number of unclassified dinoflagellate-ASVs indicates a need for improved taxonomic reference databases and suggests presence of dinoflagellate-crypto and-morphospecies.

eDNA 代谢编码揭示了珊瑚海西部上深海区甲藻群的生物多样性和深度分层模式。
背景:甲藻在海洋生态系统的运作中发挥着关键作用,但也可能因引起有害藻华(HABs)而对人类和生态系统的健康造成危害。珊瑚海是生物多样性热点地区,但其浮游水域中的甲藻群尚未通过现代测序方法进行研究。我们利用 18 S rRNA V4 扩增子的元条码技术评估了珊瑚海西部三个站点 150 米深处整个水柱中甲藻群的多样性和结构。此外,我们还在一个站点比较了代谢编码和形态学方法,以优化甲藻的识别和检测:结果:甲藻集合体的分层在特定深度的分类群相对丰度上很明显;5-30 米集合体与 130-150 米集合体之间的差异最大。随着深度的增加,双子叶类(光合和异养)的相对丰度下降,而合成双子叶类(寄生)的相对丰度上升。各站的主要分类群组成相似。不同深度和站位的生物分类丰富度和扩增子序列变体(ASVs)多样性相似;但是,优势类群的丰富度在 0-30 米内最高,稀有类群的丰富度在 130-150 米内最高,这表明生物对特定深度层的适应性。科级和种级未分类的 ASV 数量非常多,尤其是辛迪宁代表类:珊瑚海开阔水域中的甲藻种类繁多,并按深度进行了分类分层;沿深度梯度的相对丰度模式反映了环境因素和生态过程。与传统的显微镜样本分析方法相比,元条形码能检测到更丰富的物种,但这两种方法是互补的,形态分析能揭示更丰富的物种。大量未分类的甲藻-ASV 表明需要改进分类参考数据库,并表明存在甲藻-隐藻和变态物种。
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