Unearthing soil arthropod diversity through DNA metabarcoding

DNA metabarcoding has the potential to greatly advance understanding of soil biodiversity, but this approach has seen limited application for the most abundant and species-rich group of soil fauna–the arthropods. This study begins to address this gap by comparing information on species composition r...

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Bibliographic Details
Published in:PeerJ
Main Authors: Monica R. Young, Paul D. N. Hebert
Format: Article in Journal/Newspaper
Language:English
Published: PeerJ Inc. 2022
Subjects:
Metabarcoding
Arthropods
Soil
Biodiversity
NGS
Environmental DNA
Medicine
R
Biology (General)
QH301-705.5
Arctic
Online Access:https://doi.org/10.7717/peerj.12845
https://doaj.org/article/ae336c2b8a7740caae334d46800ed682
Description
Summary:DNA metabarcoding has the potential to greatly advance understanding of soil biodiversity, but this approach has seen limited application for the most abundant and species-rich group of soil fauna–the arthropods. This study begins to address this gap by comparing information on species composition recovered from metabarcoding two types of bulk samples (specimens, soil) from a temperate zone site and from bulk soil samples collected at eight sites in the Arctic. Analysis of 22 samples (3 specimen, 19 soil) revealed 410 arthropod OTUs belonging to 112 families, 25 orders, and nine classes. Studies at the temperate zone site revealed little overlap in species composition between soil and specimen samples, but more overlap at higher taxonomic levels (families, orders) and congruent patterns of α- and β-diversity. Expansion of soil analyses to the Arctic revealed locally rich, highly dissimilar, and spatially structured assemblages compatible with dispersal limited and environmentally driven assembly. The current study demonstrates that DNA metabarcoding of bulk soil enables rapid, large-scale assessments of soil arthropod diversity. However, deep sequence coverage is required to adequately capture the species present in these samples, and expansion of the DNA barcode reference library is necessary to improve taxonomic resolution of the sequences recovered through this approach.

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