Using unsorted sweep-net samples to rapidly assess macroinvertebrate biodiversity

Macroinvertebrate biodiversity is routinely used to assess the ecological condition of freshwater environments. Macroinvertebrates are traditionally identified morphologically to mostly family level, but by using DNA metabarcoding, they can be rapidly and reliably identified to species. Developing s...

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Bibliographic Details
Published inFreshwater science Vol. 40; no. 3; pp. 551 - 565
Main Authors Carew, Melissa E., Coleman, Rhys A., Robinson, Katie L., Hoffmann, Ary A.
Format Journal Article
LanguageEnglish
Published Lawrence The University of Chicago Press 01.09.2021
University of Chicago Press
Subjects
Biodiversity
Cost control
Deoxyribonucleic acid
DNA
Ecological conditions
Feasibility studies
Freshwater
Freshwater ecology
Freshwater environments
Identification
Inland water environment
Invertebrates
Macroinvertebrates
Primers
Streamlines
Zoobenthos
bulk samples
freshwater
macroinvertebrates
DNA metabarcoding
DNA barcoding
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Summary:Macroinvertebrate biodiversity is routinely used to assess the ecological condition of freshwater environments. Macroinvertebrates are traditionally identified morphologically to mostly family level, but by using DNA metabarcoding, they can be rapidly and reliably identified to species. Developing standardized, robust, and cost-effective protocols would enable DNA metabarcoding to be broadly used for routine freshwater biological assessments leading to both potential cost savings and increased taxonomic resolution. To further reduce the cost and time it takes to process samples, we examined the feasibility of DNA metabarcoding unsorted macroinvertebrates (macroinvertebrates and debris) from sweep-net samples collected from stream pool or edge habitats. We processed these unsorted samples with a standardized method and tested multiple primer sets widely used for invertebrate DNA metabarcoding. We found that currently available DNA metabarcoding primers are well suited for processing unsorted samples, though some performed better than others. However, macroinvertebrate density affected the number of species detected with DNA metabarcoding, particularly the detection of rare taxa. These findings show that DNA metabarcoding of unsorted net contents could streamline macroinvertebrate sample processing for bioassessment, but the optimal amounts of unsorted material for subsampling need to be considered when assessing macroinvertebrate biodiversity.
ISSN:2161-9549
2161-9565
DOI:10.1086/716215