推进分子方法在常规淡水大型无脊椎动物生物监测中的应用——校准实验的需要

Rosetta C. Blackman, E. Mächler, F. Altermatt, A. Arnold, P. Beja, P. Boets, Bastian Egeter, Vasco Elbrecht, A. Filipe, J. Jones, Jan-Niklas Macher, M. Majaneva, F. Martins, Cesc Múrria, Kristian Meissner, J. Pawłowski, Paul Schmidt Yáñez, V. Zizka, F. Leese, B. Price, Kristy Deiner
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引用次数: 42

摘要

在过去的十年中,在广泛的生态系统中使用基于dna的方法检测物种方面取得了稳步的进展。这一进展的高潮是分子监测方法被用于检测几种物种,以便在世界范围内对濒危、入侵和非法捕捞的物种进行强制管理。然而,常规应用基于dna的方法来监测整个群落(通常是元条形码方法)以评估生态系统的状况仍然有限。在水生生态系统中,这种有限的使用对大型无脊椎动物群落尤其如此。作为DNAqua-Net联盟的一部分,我们发起了一场结构化的讨论,旨在确定淡水大型无脊椎动物群落评估的潜在分子方法,并确定其常规应用的重要知识空白。我们专注于三种可以进行元条形码的互补DNA来源:1)均质样品中的DNA(散装DNA), 2)从样品防腐剂中提取的DNA(固定DNA),以及3)水或沉积物中的环境DNA (eDNA)。我们简要概述了来自每个DNA来源的元条形码大型无脊椎动物群落,并确定了将其应用于常规监测的挑战。为了推进基于dna的大型无脊椎动物监测的利用,我们提出了一系列方法学校准测试的实验设计模板。该模板比较DNA的来源,目的是确定分子处理步骤对精度和准确性的影响。此外,将对相同的样品进行形态学分析,这将使分子对传统处理方法进行基准测试。在这样做的过程中,我们希望突出发展基于dna的方法来监测淡水大型无脊椎动物的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advancing the use of molecular methods for routine freshwater macroinvertebrate biomonitoring – the need for calibration experiments
Over the last decade, steady advancements have been made in the use of DNA-based methods for detection of species in a wide range of ecosystems. This progress has culminated in molecular monitoring methods being employed for the detection of several species for enforceable management purposes of endangered, invasive, and illegally harvested species worldwide. However, the routine application of DNA-based methods to monitor whole communities (typically a metabarcoding approach) in order to assess the status of ecosystems continues to be limited. In aquatic ecosystems, the limited use is particularly true for macroinvertebrate communities. As part of the DNAqua-Net consortium, a structured discussion was initiated with the aim to identify potential molecular methods for freshwater macroinvertebrate community assessment and identify important knowledge gaps for their routine application. We focus on three complementary DNA sources that can be metabarcoded: 1) DNA from homogenised samples (bulk DNA), 2) DNA extracted from sample preservative (fixative DNA), and 3) environmental DNA (eDNA) from water or sediment. We provide a brief overview of metabarcoding macroinvertebrate communities from each DNA source and identify challenges for their application to routine monitoring. To advance the utilisation of DNA-based monitoring for macroinvertebrates, we propose an experimental design template for a series of methodological calibration tests. The template compares sources of DNA with the goal of identifying the effects of molecular processing steps on precision and accuracy. Furthermore, the same samples will be morphologically analysed, which will enable the benchmarking of molecular to traditional processing approaches. In doing so we hope to highlight pathways for the development of DNA-based methods for the monitoring of freshwater macroinvertebrates.
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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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