Brute force prey metabarcoding to explore the diets of small invertebrates

Flo, Snorre; Vader, Anna; Præbel, Kim

doi:10.1002/ece3.11369

Ecology and Evolution

2024

DOI: 10.1002/ece3.11369

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Brute force prey metabarcoding to explore the diets of small invertebrates

Snorre Flo,

Anna Vader,

Kim Præbel

Abstract: Prey metabarcoding has become a popular tool in molecular ecology for resolving trophic interactions at high resolution, from various sample types and animals. To date, most predator–prey studies of small‐sized animals (<1 mm) have met the problem of overabundant predator DNA in dietary samples by adding blocking primers/peptide nucleic acids. These primers aim to limit the PCR amplification and detection of the predator DNA but may introduce bias to the prey composition identified by interacting with seque… Show more

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Dietary plasticity in small Arctic copepods as revealed with prey metabarcoding

Flo,

Svensen,

Præbel

et al. 2024

Journal of Plankton Research

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Objectives Small copepods (<2 mm) compose an important constituent of the Arctic marine food web, but their trophic interactions remain largely unexplored, partly due to methodological limitations. Methods We here characterize the prey of the abundant cyclopoid Oithona similis, harpacticoid Microsetella norvegica and calanoid Microcalanus spp. from the Arctic Barents Sea and Nansen Basin during four seasons using brute force prey metabarcoding of the 18S rRNA gene. Key findings Chaetognaths were unexpectedly the most consistently identified taxa and composed 47% of all prey reads. Some taxa were seasonally important, including diatoms in April–May (43%), dinoflagellates in December (15%) and March (17%), and urochordates in August (20%). Compositional differences among species were also discernible, and the M. norvegica diet was significantly different from both O. similis and Microcalanus spp. The diets varied nevertheless more with season than species despite the inherent trophic traits that distinguish the ambush-predator O. similis, chemosensoric particle-chaser M. norvegica and current-feeding Microcalanus spp. Conclusions Our results thus indicate that dietary plasticity is common in small Arctic copepods, regardless of their behaviors or strategies for finding sustenance. We further hypothesize that such plasticity is an important adaptation in systems where prey availability is highly seasonal.

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Dietary plasticity in small Arctic copepods as revealed with prey metabarcoding

Flo,

Svensen,

Præbel

et al. 2024

Journal of Plankton Research

View full text Add to dashboard Cite

show abstract

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Brute force prey metabarcoding to explore the diets of small invertebrates

Cited by 1 publication

References 78 publications

Dietary plasticity in small Arctic copepods as revealed with prey metabarcoding

Dietary plasticity in small Arctic copepods as revealed with prey metabarcoding

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