Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem

The deep-sea is vast, remote, and largely underexplored. However, methodological advances in environmental DNA (eDNA) surveys could aid in the exploration efforts, such as using sponges as natural eDNA filters for studying fish biodiversity. In this study, we analyzed the eDNA from 116 sponge tissue...

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Published in:	Environmental DNA
Main Authors:	Brodnicke, Ole Bjørn, Meyer, Heidi Kristina, Busch, Kathrin, Xavier, Joana R., Knudsen, Steen Wilhelm, Møller, Peter Rask, Hentschel, Ute Humeida, Sweet, Michael John
Format:	Article in Journal/Newspaper
Language:	English
Published:	2023
Subjects:	12S Arctic Mid-Ocean Ridge baseline biodiversity eDNA metabarcoding monitoring sponge grounds vulnerable ecosystems Arctic Greenland
Online Access:	https://curis.ku.dk/portal/da/publications/deepsea-sponge-derived-environmental-dna-analysis-reveals-demersal-fish-biodiversity-of-a-remote-arctic-ecosystem(8004a283-1d8c-49dc-a346-742aa6f207f5).html https://doi.org/10.1002/edn3.451 https://curis.ku.dk/ws/files/380414797/Environmental_DNA_2023_Brodnicke_Deep_sea_sponge_derived_environmental_DNA_analysis_reveals_demersal_fish.pdf

id	ftcopenhagenunip:oai:pure.atira.dk:publications/8004a283-1d8c-49dc-a346-742aa6f207f5
record_format	openpolar
spelling	ftcopenhagenunip:oai:pure.atira.dk:publications/8004a283-1d8c-49dc-a346-742aa6f207f5 2024-06-09T07:42:28+00:00 Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem Brodnicke, Ole Bjørn Meyer, Heidi Kristina Busch, Kathrin Xavier, Joana R. Knudsen, Steen Wilhelm Møller, Peter Rask Hentschel, Ute Humeida Sweet, Michael John 2023 application/pdf https://curis.ku.dk/portal/da/publications/deepsea-sponge-derived-environmental-dna-analysis-reveals-demersal-fish-biodiversity-of-a-remote-arctic-ecosystem(8004a283-1d8c-49dc-a346-742aa6f207f5).html https://doi.org/10.1002/edn3.451 https://curis.ku.dk/ws/files/380414797/Environmental_DNA_2023_Brodnicke_Deep_sea_sponge_derived_environmental_DNA_analysis_reveals_demersal_fish.pdf eng eng info:eu-repo/semantics/openAccess Brodnicke , O B , Meyer , H K , Busch , K , Xavier , J R , Knudsen , S W , Møller , P R , Hentschel , U H & Sweet , M J 2023 , ' Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem ' , Environmental DNA , vol. 5 , no. 6 , pp. 1405-1417 . https://doi.org/10.1002/edn3.451 12S Arctic Mid-Ocean Ridge baseline biodiversity eDNA metabarcoding monitoring sponge grounds vulnerable ecosystems article 2023 ftcopenhagenunip https://doi.org/10.1002/edn3.451 2024-05-16T11:29:30Z The deep-sea is vast, remote, and largely underexplored. However, methodological advances in environmental DNA (eDNA) surveys could aid in the exploration efforts, such as using sponges as natural eDNA filters for studying fish biodiversity. In this study, we analyzed the eDNA from 116 sponge tissue samples and compared these to 18 water eDNA samples and visual surveys obtained on an Arctic seamount. Across survey methods, we revealed approximately 30% of the species presumed to inhabit this area and 11 fish species were detected via sponge derived eDNA alone. These included commercially important fish such as the Greenland halibut and Atlantic mackerel. Fish eDNA detection was highly variable across sponge samples. Highest detection rates were found in sponges with low microbial activity such as those from the class Hexactinellida. The different survey methods also detected alternate fish communities, highlighted by only one species overlap between the visual surveys and the sponge eDNA samples. Therefore, we conclude that sponge eDNA can be a useful tool for surveying deep-sea demersal fish communities and it synergises with visual surveys improving overall biodiversity assessments. Datasets such as this can form comprehensive baselines on fish biodiversity across seamounts, which in turn can inform marine management and conservation practices in the regions where such surveys are undertaken. The deep-sea is vast, remote, and largely underexplored. However, methodological advances in environmental DNA (eDNA) surveys could aid in the exploration efforts, such as using sponges as natural eDNA filters for studying fish biodiversity. In this study, we analyzed the eDNA from 116 sponge tissue samples and compared these to 18 water eDNA samples and visual surveys obtained on an Arctic seamount. Across survey methods, we revealed approximately 30% of the species presumed to inhabit this area and 11 fish species were detected via sponge derived eDNA alone. These included commercially important fish such as the ... Article in Journal/Newspaper Arctic Arctic Greenland University of Copenhagen: Research Arctic Greenland Environmental DNA 5 6 1405 1417
institution	Open Polar
collection	University of Copenhagen: Research
op_collection_id	ftcopenhagenunip
language	English
topic	12S Arctic Mid-Ocean Ridge baseline biodiversity eDNA metabarcoding monitoring sponge grounds vulnerable ecosystems
spellingShingle	12S Arctic Mid-Ocean Ridge baseline biodiversity eDNA metabarcoding monitoring sponge grounds vulnerable ecosystems Brodnicke, Ole Bjørn Meyer, Heidi Kristina Busch, Kathrin Xavier, Joana R. Knudsen, Steen Wilhelm Møller, Peter Rask Hentschel, Ute Humeida Sweet, Michael John Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem
topic_facet	12S Arctic Mid-Ocean Ridge baseline biodiversity eDNA metabarcoding monitoring sponge grounds vulnerable ecosystems
description	The deep-sea is vast, remote, and largely underexplored. However, methodological advances in environmental DNA (eDNA) surveys could aid in the exploration efforts, such as using sponges as natural eDNA filters for studying fish biodiversity. In this study, we analyzed the eDNA from 116 sponge tissue samples and compared these to 18 water eDNA samples and visual surveys obtained on an Arctic seamount. Across survey methods, we revealed approximately 30% of the species presumed to inhabit this area and 11 fish species were detected via sponge derived eDNA alone. These included commercially important fish such as the Greenland halibut and Atlantic mackerel. Fish eDNA detection was highly variable across sponge samples. Highest detection rates were found in sponges with low microbial activity such as those from the class Hexactinellida. The different survey methods also detected alternate fish communities, highlighted by only one species overlap between the visual surveys and the sponge eDNA samples. Therefore, we conclude that sponge eDNA can be a useful tool for surveying deep-sea demersal fish communities and it synergises with visual surveys improving overall biodiversity assessments. Datasets such as this can form comprehensive baselines on fish biodiversity across seamounts, which in turn can inform marine management and conservation practices in the regions where such surveys are undertaken. The deep-sea is vast, remote, and largely underexplored. However, methodological advances in environmental DNA (eDNA) surveys could aid in the exploration efforts, such as using sponges as natural eDNA filters for studying fish biodiversity. In this study, we analyzed the eDNA from 116 sponge tissue samples and compared these to 18 water eDNA samples and visual surveys obtained on an Arctic seamount. Across survey methods, we revealed approximately 30% of the species presumed to inhabit this area and 11 fish species were detected via sponge derived eDNA alone. These included commercially important fish such as the ...
format	Article in Journal/Newspaper
author	Brodnicke, Ole Bjørn Meyer, Heidi Kristina Busch, Kathrin Xavier, Joana R. Knudsen, Steen Wilhelm Møller, Peter Rask Hentschel, Ute Humeida Sweet, Michael John
author_facet	Brodnicke, Ole Bjørn Meyer, Heidi Kristina Busch, Kathrin Xavier, Joana R. Knudsen, Steen Wilhelm Møller, Peter Rask Hentschel, Ute Humeida Sweet, Michael John
author_sort	Brodnicke, Ole Bjørn
title	Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem
title_short	Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem
title_full	Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem
title_fullStr	Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem
title_full_unstemmed	Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem
title_sort	deep-sea sponge derived environmental dna analysis reveals demersal fish biodiversity of a remote arctic ecosystem
publishDate	2023
url	https://curis.ku.dk/portal/da/publications/deepsea-sponge-derived-environmental-dna-analysis-reveals-demersal-fish-biodiversity-of-a-remote-arctic-ecosystem(8004a283-1d8c-49dc-a346-742aa6f207f5).html https://doi.org/10.1002/edn3.451 https://curis.ku.dk/ws/files/380414797/Environmental_DNA_2023_Brodnicke_Deep_sea_sponge_derived_environmental_DNA_analysis_reveals_demersal_fish.pdf
geographic	Arctic Greenland
geographic_facet	Arctic Greenland
genre	Arctic Arctic Greenland
genre_facet	Arctic Arctic Greenland
op_source	Brodnicke , O B , Meyer , H K , Busch , K , Xavier , J R , Knudsen , S W , Møller , P R , Hentschel , U H & Sweet , M J 2023 , ' Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem ' , Environmental DNA , vol. 5 , no. 6 , pp. 1405-1417 . https://doi.org/10.1002/edn3.451
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1002/edn3.451
container_title	Environmental DNA
container_volume	5
container_issue	6
container_start_page	1405
op_container_end_page	1417
_version_	1801371319314415616

Deep-sea sponge derived environmental DNA analysis reveals demersal fish biodiversity of a remote Arctic ecosystem

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