Estimating the number of sequencing errors in microbial diversity studies

IF 3 4区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Environmental and Ecological Statistics Pub Date : 2024-04-30 DOI:10.1007/s10651-024-00614-w

Davide Di Cecco, Andrea Tancredi

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Abstract

Species diversity analysis of microbial communities is an important tool for assessing an ecosystem health. The advent of high-throughput genome sequencing techniques has made it possible to process an unprecedented number of RNA sequences. However, many studies report the presence of a significant number of fictitious rare species in datasets generated using these techniques. These species are the product of errors that can occur at any step of the sequence analysis pipeline. The overcount of rare species (especially singletons) affects the estimation of the total number of species, and of the diversity of the community as measured by Shannon’s index. To avoid overestimating these quantities, it is crucial to model the source of error. In this work, we present a new model that treats spurious singletons as false-negative record linkage errors, and compare it with another approach where spurious singletons are considered for deletion. We discuss the two inferential approaches both with an application to real data and on theoretical grounds. We demonstrate that, while Shannon’s index can differ significantly under the two models, the estimate of the total number of species is equivalent.

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估算微生物多样性研究中的测序错误数量

微生物群落的物种多样性分析是评估生态系统健康状况的重要工具。高通量基因组测序技术的出现使得处理数量空前的 RNA 序列成为可能。然而，许多研究报告称，在使用这些技术生成的数据集中存在大量虚构的稀有物种。这些物种是序列分析管道中任何一步都可能出现的错误的产物。稀有物种（尤其是单体物种）的过量计算会影响物种总数的估算，也会影响用香农指数衡量的群落多样性。为了避免过高估计这些数量，对误差源进行建模至关重要。在这项工作中，我们提出了一个新模型，该模型将虚假单子视为假阴性记录链接错误，并将其与另一种考虑删除虚假单子的方法进行比较。我们通过对真实数据的应用和理论依据对这两种推论方法进行了讨论。我们证明，虽然香农指数在两种模型下会有很大差异，但对物种总数的估计是相同的。

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来源期刊

Environmental and Ecological Statistics 环境科学-环境科学

CiteScore

5.90

自引率

2.60%

发文量

审稿时长

>36 weeks

期刊介绍： Environmental and Ecological Statistics publishes papers on practical applications of statistics and related quantitative methods to environmental science addressing contemporary issues. Emphasis is on applied mathematical statistics, statistical methodology, and data interpretation and improvement for future use, with a view to advance statistics for environment, ecology and environmental health, and to advance environmental theory and practice using valid statistics. Besides clarity of exposition, a single most important criterion for publication is the appropriateness of the statistical method to the particular environmental problem. The Journal covers all aspects of the collection, analysis, presentation and interpretation of environmental data for research, policy and regulation. The Journal is cross-disciplinary within the context of contemporary environmental issues and the associated statistical tools, concepts and methods. The Journal broadly covers theory and methods, case studies and applications, environmental change and statistical ecology, environmental health statistics and stochastics, and related areas. Special features include invited discussion papers; research communications; technical notes and consultation corner; mini-reviews; letters to the Editor; news, views and announcements; hardware and software reviews; data management etc.