Unveiling errors in soil microbial community sequencing: a case for reference soils and improved diagnostics for nanopore sequencing

Daniel K. Manter; Catherine L. Reardon; Amanda J. Ashworth; Abasiofiok M. Ibekwe; R. Michael Lehman; Jude E. Maul; Daniel N. Miller; Timothy Creed; Patrick M. Ewing; Stanley Park; Thomas F. Ducey; Heather L. Tyler; Kristen S. Veum; Sharon L. Weyers; David B. Knaebel

doi:10.1038/s42003-024-06594-8

Communications Biology (Jul 2024)

Unveiling errors in soil microbial community sequencing: a case for reference soils and improved diagnostics for nanopore sequencing

Daniel K. Manter,
Catherine L. Reardon,
Amanda J. Ashworth,
Abasiofiok M. Ibekwe,
R. Michael Lehman,
Jude E. Maul,
Daniel N. Miller,
Timothy Creed,
Patrick M. Ewing,
Stanley Park,
Thomas F. Ducey,
Heather L. Tyler,
Kristen S. Veum,
Sharon L. Weyers,
David B. Knaebel

Affiliations

Daniel K. Manter: Soil Management and Sugar Beet Research, United States Department of Agriculture Agricultural Research Service (USDA-ARS)
Catherine L. Reardon: Soil and Water Conservation Research Unit, USDA-ARS
Amanda J. Ashworth: Poultry Production and Product Safety Research Unit, USDA-ARS
Abasiofiok M. Ibekwe: Water Efficiency and Salinity Research Unit, USDA-ARS
R. Michael Lehman: North Central Agricultural Research Laboratory, USDA-ARS
Jude E. Maul: Sustainable Agricultural Systems Laboratory, USDA-ARS
Daniel N. Miller: Agroecosystem Management Research Unit, USDA-ARS
Timothy Creed: Soil Management and Sugar Beet Research, United States Department of Agriculture Agricultural Research Service (USDA-ARS)
Patrick M. Ewing: Food Systems Research Unit, USDA-ARS
Stanley Park: Water Efficiency and Salinity Research Unit, USDA-ARS
Thomas F. Ducey: Coastal Plains Soil, Water and Plant Research Center, USDA-ARS
Heather L. Tyler: Crop Production Systems Research Unit, USDA-ARS
Kristen S. Veum: Cropping Systems and Water Quality Research Unit, USDA-ARS
Sharon L. Weyers: Soil Management Research Unit, USDA-ARS
David B. Knaebel: Federal government retiree

DOI: https://doi.org/10.1038/s42003-024-06594-8
Journal volume & issue: Vol. 7, no. 1
pp. 1 – 13

Abstract

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Abstract The sequencing platform and workflow strongly influence microbial community analyses through potential errors at each step. Effective diagnostics and experimental controls are needed to validate data and improve reproducibility. This cross-laboratory study evaluates sources of variability and error at three main steps of a standardized amplicon sequencing workflow (DNA extraction, polymerase chain reaction [PCR], and sequencing) using Oxford Nanopore MinION to analyze agricultural soils and a simple mock community. Variability in sequence results occurs at each step in the workflow with PCR errors and differences in library size greatly influencing diversity estimates. Common bioinformatic diagnostics and the mock community are ineffective at detecting PCR abnormalities. This work outlines several diagnostic checks and techniques to account for sequencing depth and ensure accuracy and reproducibility in soil community analyses. These diagnostics and the inclusion of a reference soil can help ensure data validity and facilitate the comparison of multiple sequencing runs within and between laboratories.

Published in Communications Biology

ISSN: 2399-3642 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General)
Website: https://www.nature.com/commsbio/

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