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Data from: Rapid scavenging of jellyfish carcasses reveals the importance of gelatinous material to deep-sea food webs

Data from: Rapid scavenging of jellyfish carcasses reveals the importance of gelatinous material to deep-sea food webs
Data from: Rapid scavenging of jellyfish carcasses reveals the importance of gelatinous material to deep-sea food webs
Jellyfish blooms are common in many oceans, and anthropogenic changes appear to have increased their magnitude in some regions. Although mass falls of jellyfish carcasses have been observed recently at the deep seafloor, the dense necrophage aggregations and rapid consumption rates typical for vertebrate carrion have not been documented. This has led to a paradigm of limited energy transfer to higher trophic levels at jelly falls relative to vertebrate organic falls. We show from baited camera deployments in the Norwegian deep sea that dense aggregations of deep-sea scavengers (more than 1000 animals at peak densities) can rapidly form at jellyfish baits and consume entire jellyfish carcasses in 2.5 h. We also show that scavenging rates on jellyfish are not significantly different from fish carrion of similar mass, and reveal that scavenging communities typical for the NE Atlantic bathyal zone, including the Atlantic hagfish, galatheid crabs, decapod shrimp and lyssianasid amphipods, consume both types of carcasses. These rapid jellyfish carrion consumption rates suggest that the contribution of gelatinous material to organic fluxes may be seriously underestimated in some regions, because jelly falls may disappear much more rapidly than previously thought. Our results also demonstrate that the energy contained in gelatinous carrion can be efficiently incorporated into large numbers of deep-sea scavengers and food webs, lessening the expected impacts (e.g. smothering of the seafloor) of enhanced jellyfish production on deep-sea ecosystems and pelagic–benthic coupling.,Proc B dryad filesExcel, R-script and video files
DRYAD
Sweetman, Andrew K.
5304cde0-8e83-4a68-8249-fa2d9e70d8bb
Smith, Craig R.
a99f491d-b292-47c1-9f16-3cde8f85bc0d
Dale, Trine
6d875630-02f1-48fb-b0a7-08bca3f9db84
Jones, Daniel O. B.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Sweetman, Andrew K.
5304cde0-8e83-4a68-8249-fa2d9e70d8bb
Smith, Craig R.
a99f491d-b292-47c1-9f16-3cde8f85bc0d
Dale, Trine
6d875630-02f1-48fb-b0a7-08bca3f9db84
Jones, Daniel O. B.
44fc07b3-5fb7-4bf5-9cec-78c78022613a

(2014) Data from: Rapid scavenging of jellyfish carcasses reveals the importance of gelatinous material to deep-sea food webs. DRYAD doi:10.5061/dryad.90kt3 [Dataset]

Record type: Dataset

Abstract

Jellyfish blooms are common in many oceans, and anthropogenic changes appear to have increased their magnitude in some regions. Although mass falls of jellyfish carcasses have been observed recently at the deep seafloor, the dense necrophage aggregations and rapid consumption rates typical for vertebrate carrion have not been documented. This has led to a paradigm of limited energy transfer to higher trophic levels at jelly falls relative to vertebrate organic falls. We show from baited camera deployments in the Norwegian deep sea that dense aggregations of deep-sea scavengers (more than 1000 animals at peak densities) can rapidly form at jellyfish baits and consume entire jellyfish carcasses in 2.5 h. We also show that scavenging rates on jellyfish are not significantly different from fish carrion of similar mass, and reveal that scavenging communities typical for the NE Atlantic bathyal zone, including the Atlantic hagfish, galatheid crabs, decapod shrimp and lyssianasid amphipods, consume both types of carcasses. These rapid jellyfish carrion consumption rates suggest that the contribution of gelatinous material to organic fluxes may be seriously underestimated in some regions, because jelly falls may disappear much more rapidly than previously thought. Our results also demonstrate that the energy contained in gelatinous carrion can be efficiently incorporated into large numbers of deep-sea scavengers and food webs, lessening the expected impacts (e.g. smothering of the seafloor) of enhanced jellyfish production on deep-sea ecosystems and pelagic–benthic coupling.,Proc B dryad filesExcel, R-script and video files

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Published date: 2014

Identifiers

Local EPrints ID: 448917
URI: http://eprints.soton.ac.uk/id/eprint/448917
PURE UUID: fb814b38-80d8-4f20-b03e-517ef147a206

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Date deposited: 10 May 2021 16:33
Last modified: 05 May 2023 18:13

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Contributors

Contributor: Andrew K. Sweetman
Contributor: Craig R. Smith
Contributor: Trine Dale
Contributor: Daniel O. B. Jones

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