Hidden diversity: DNA metabarcoding reveals hyper-diverse benthic invertebrate communities.

Jennifer Erin Gleason, Robert H Hanner, Karl Cottenie
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引用次数: 2

Abstract

Background: Freshwater ecosystems, such as streams, are facing increasing pressures from agricultural land use and recent literature stresses the importance of robust biomonitoring to detect trends in insect decline globally. Aquatic insects and other macroinvertebrates are often used as indicators of ecological condition in freshwater biomonitoring programs; however, these diverse groups can present challenges to morphological identification and coarse-level taxonomic resolution can mask patterns in community composition. Here, we incorporate molecular identification (DNA metabarcoding) into a stream biomonitoring sampling design to explore the diversity and variability of aquatic macroinvertebrate communities at small spatial scales. While individual stream reaches can be very heterogenous, most community ecology studies focus on larger, landscape-level patterns of community composition. A high degree of community variability at the local scale has important implications for both biomonitoring and ecological research, and the incorporation of DNA metabarcoding into local biodiversity assessments will inform future sampling protocols.

Results: We sampled twenty streams in southern Ontario, Canada, for aquatic macroinvertebrates across multiple time points and assessed local community variability by comparing field replicates taken ten meters apart within the same stream. Using bulk-tissue DNA metabarcoding, we revealed that aquatic macroinvertebrate communities are highly diverse at small spatial scales with unprecedented levels of local taxonomic turnover. We detected over 1600 Operational Taxonomic Units (OTUs) from 149 families, and a single insect family, the Chironomidae, contained over one third of the total number of OTUs detected in our study. Benthic communities were largely comprised of rare taxa detected only once per stream despite multiple biological replicates (24-94% rare taxa per site). In addition to numerous rare taxa, our species pool estimates indicated that there was a large proportion of taxa that remained undetected by our sampling regime (14-94% per site). Our sites were located across a gradient of agricultural activity, and while we predicted that increased land use would homogenize benthic communities, this was not supported as within-stream dissimilarity was unrelated to land use. Within-stream dissimilarity estimates were consistently high for all levels of taxonomic resolution (invertebrate families, invertebrate OTUs, chironomid OTUs), indicating stream communities are very dissimilar at small spatial scales.

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隐藏的多样性:DNA元条形码揭示了超多样化的底栖无脊椎动物群落。
背景:淡水生态系统,如溪流,正面临着来自农业土地利用的越来越大的压力,最近的文献强调了强大的生物监测对检测全球昆虫下降趋势的重要性。在淡水生物监测中,水生昆虫等大型无脊椎动物常被用作生态状况的指示指标;然而,这些不同的群体给形态鉴定带来了挑战,而粗略的分类分辨率可能掩盖了群落组成的模式。在此,我们将分子鉴定(DNA元条形码)纳入溪流生物监测采样设计中,以探索水生大型无脊椎动物群落在小空间尺度上的多样性和变异性。虽然个别河流的河段可能非常异质性,但大多数群落生态学研究都集中在更大的、景观水平的群落组成模式上。在地方尺度上的高度群落变异对生物监测和生态研究具有重要意义,将DNA元条形码纳入地方生物多样性评估将为未来的采样方案提供信息。结果:我们在加拿大安大略省南部的20条河流中采样了多个时间点的水生大型无脊椎动物,并通过比较在同一条河流中相隔10米的实地重复来评估当地群落的变异性。利用大组织DNA元条形码技术,我们揭示了水生大型无脊椎动物群落在小空间尺度上的高度多样性和前所未有的局部分类转换水平。共检测到149个科的1600多个操作分类单元(otu),其中手摇蝇科(Chironomidae)单个昆虫科的otu数量占研究总otu数量的三分之一以上。底栖生物群落主要由每条河流只检测到一次的稀有类群组成,尽管有多次生物复制(每个站点24-94%的稀有类群)。除了大量的稀有分类群外,我们的物种库估计表明,还有很大比例的分类群未被我们的采样制度所检测到(每个站点14-94%)。我们的研究地点位于农业活动的梯度上,虽然我们预测土地利用的增加会使底栖生物群落同质化,但由于河内差异与土地利用无关,因此这一预测并不支持。所有分类分辨率(无脊椎动物科、无脊椎动物OTUs、chironomid OTUs)的流内差异估计值都很高,表明在小空间尺度上,溪流群落存在很大差异。
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