Nanopore environmental DNA sequencing of catch water for estimating species composition in demersal bottom trawl fisheries

Bycatch and discards, representing unwanted catches, undermine sustainable fisheries and hinder the conservation of vulnerable and endangered species. To effectively monitor bycatch and enhance the effectiveness of management measures while promoting sustainable fishing practices, reliable data is e...

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Bibliographic Details
Published in:Environmental DNA
Main Authors: Maggini, Sara, Jacobsen, Magnus Wulff, Urban, Paulina, Hansen, Brian Klitgaard, Kielgast, Jos, Bekkevold, Dorte, Jardim, Ernesto, Martinsohn, Jann T., Carvalho, Gary R., Nielsen, Einar E., Papadopulos, Alexander S.T.
Format: Article in Journal/Newspaper
Language:English
Published: 2024
Subjects:
Bottom trawling
Bycatch and discards
eDNA
Landing obligation
Marine fish species
Metabarcoding
Monitoring
Nanopore sequncing
/dk/atira/pure/sustainabledevelopmentgoals/life_below_water
name=SDG 14 - Life Below Water
North East Atlantic
Online Access:https://orbit.dtu.dk/en/publications/94a1d96a-a37e-4139-b42e-663865f5cde6
https://doi.org/10.1002/edn3.555
https://backend.orbit.dtu.dk/ws/files/360803657/Environmental_DNA_-_2024_-_Maggini_-_Nanopore_environmental_DNA_sequencing_of_catch_water_for_estimating_species.pdf
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Summary:Bycatch and discards, representing unwanted catches, undermine sustainable fisheries and hinder the conservation of vulnerable and endangered species. To effectively monitor bycatch and enhance the effectiveness of management measures while promoting sustainable fishing practices, reliable data is essential. Here, we explore the use of Nanopore metabarcoding to analyze the catch composition in demersal bottom fisheries. We collected eDNA samples directly from an onboard catch holding tank ( catch water ) for 10 fishing hauls from a fishing vessel operating in the Skagerrak (North-East Atlantic). The approach involved sequencing a combination of long (~2 kb) and short (~170–313 bp) mitochondrial amplicons and was validated by analyzing a fishery-related mock community sample and fishing haul replicates. Overall, the detection rate accuracy was 95% for landed species, and replicates obtained from the same fishing haul showed consistent results, validating the robustness of this approach. The detection rate accuracy for all caught species observed on board (including the non-landed fraction) was 81%. Undetected species were always limited to species in low abundance, but may also be attributed to problems with identifying closely related species due to the impact of sequencing errors and limited diagnostic variation in the genetic regions used. In the future, such biases may be reduced by using additional markers to increase species discrimination power and applying newly available technological advantages in flow cell chemistry to improve sequencing accuracy. In conclusion, this study demonstrates the effectiveness of Nanopore eDNA sequencing of catch water for estimating species composition in demersal bottom trawl fisheries, including catches of non-commercial and threatened and vulnerable species, without disrupting fishing activities. Incorporating eDNA analysis of catch water may therefore help facilitate effective monitoring, leading to better-informed fisheries management, biodiversity conservation efforts, ...

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