Tracing basal resource use across sea-ice, pelagic, and benthic habitats in the early Arctic spring food web with essential amino acid carbon isotopes
Tracing basal resource use across sea-ice, pelagic, and benthic habitats in the early Arctic spring food web with essential amino acid carbon isotopes
A rapidly warming Arctic Ocean and associated sea-ice decline is resulting in changing sea-ice protist communities, affecting productivity of under-ice, pelagic, and benthic fauna. Quantifying such effects is hampered by a lack of biomarkers suitable for tracing specific basal resources (primary producers and microorganisms) through food webs. We investigate the potential of δ13C values of essential amino acids (EAAs) (δ13CEAA values) to estimate the proportional use of diverse basal resources by organisms from the under-ice (Apherusa glacialis), pelagic (Calanus hyperboreus) and benthic habitats (sponges, sea cucumber), and the cryo-pelagic fish Boreogadus saida. Two approaches were used: baseline δ13CEAA values, that is, the basal resource specific δ13CEAA values, and δ13CEAA fingerprints, or mean-centred baseline δ13CEAA values. Substantial use of sub-ice algae Melosira arctica by all studied organisms suggests that its role within Arctic food webs is greater than previously recognized. In addition, δ13CEAA fingerprints from algae-associated bacteria were clearly traced to the sponges, with an individually variable kelp use by sea cucumbers. Although mean-centred δ13CEAA values in A. glacialis, C. hyperboreus, and B. saida tissues were aligned with microalgae resources, they were not fully represented by the filtered pelagic- and sea-ice particulate organic matter constituting the spring diatom-dominated algal community. Under-ice and pelagic microalgae use could only be differentiated with baseline δ13CEAA values as similar microalgae clades occur in both habitats. We suggest that δ13CEAA fingerprints combined with microalgae baseline δ13CEAA values are an insightful tool to assess the effect of ongoing changes in Arctic basal resources on their use by organisms.
862-877
Vane, Kim
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Cobain, Matthew R.D.
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Trueman, Clive N.
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Vonnahme, Tobias R.
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Rokitta, Sebastian
b245eeb4-e988-4b25-b2c1-bfe11bc32f09
Polunin, Nicholas V.C.
45890a5f-33c9-433f-a3b4-649a204a21ec
Flores, Hauke
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April 2023
Vane, Kim
acedb56d-4ff9-4b7d-8d73-dfbb00a4c3bb
Cobain, Matthew R.D.
af8b6ff0-0fb7-4e82-9b21-15c10f8abded
Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Vonnahme, Tobias R.
a0d884f0-fdca-479e-a1aa-614346b5028b
Rokitta, Sebastian
b245eeb4-e988-4b25-b2c1-bfe11bc32f09
Polunin, Nicholas V.C.
45890a5f-33c9-433f-a3b4-649a204a21ec
Flores, Hauke
dba533f3-437a-47c7-bf9e-5025fc2f732c
Vane, Kim, Cobain, Matthew R.D., Trueman, Clive N., Vonnahme, Tobias R., Rokitta, Sebastian, Polunin, Nicholas V.C. and Flores, Hauke
(2023)
Tracing basal resource use across sea-ice, pelagic, and benthic habitats in the early Arctic spring food web with essential amino acid carbon isotopes.
Limnology and Oceanography, 68 (4), .
(doi:10.1002/lno.12315).
Abstract
A rapidly warming Arctic Ocean and associated sea-ice decline is resulting in changing sea-ice protist communities, affecting productivity of under-ice, pelagic, and benthic fauna. Quantifying such effects is hampered by a lack of biomarkers suitable for tracing specific basal resources (primary producers and microorganisms) through food webs. We investigate the potential of δ13C values of essential amino acids (EAAs) (δ13CEAA values) to estimate the proportional use of diverse basal resources by organisms from the under-ice (Apherusa glacialis), pelagic (Calanus hyperboreus) and benthic habitats (sponges, sea cucumber), and the cryo-pelagic fish Boreogadus saida. Two approaches were used: baseline δ13CEAA values, that is, the basal resource specific δ13CEAA values, and δ13CEAA fingerprints, or mean-centred baseline δ13CEAA values. Substantial use of sub-ice algae Melosira arctica by all studied organisms suggests that its role within Arctic food webs is greater than previously recognized. In addition, δ13CEAA fingerprints from algae-associated bacteria were clearly traced to the sponges, with an individually variable kelp use by sea cucumbers. Although mean-centred δ13CEAA values in A. glacialis, C. hyperboreus, and B. saida tissues were aligned with microalgae resources, they were not fully represented by the filtered pelagic- and sea-ice particulate organic matter constituting the spring diatom-dominated algal community. Under-ice and pelagic microalgae use could only be differentiated with baseline δ13CEAA values as similar microalgae clades occur in both habitats. We suggest that δ13CEAA fingerprints combined with microalgae baseline δ13CEAA values are an insightful tool to assess the effect of ongoing changes in Arctic basal resources on their use by organisms.
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Limnology Oceanography - 2023 - Vane - Tracing basal resource use across sea‐ice pelagic and benthic habitats in the
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Accepted/In Press date: 18 January 2023
e-pub ahead of print date: 9 February 2023
Published date: April 2023
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Local EPrints ID: 491048
URI: http://eprints.soton.ac.uk/id/eprint/491048
ISSN: 0024-3590
PURE UUID: 6e4e8f68-1b10-4264-9489-7600fbfa420d
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Date deposited: 11 Jun 2024 16:45
Last modified: 12 Jun 2024 01:39
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Author:
Kim Vane
Author:
Matthew R.D. Cobain
Author:
Tobias R. Vonnahme
Author:
Sebastian Rokitta
Author:
Nicholas V.C. Polunin
Author:
Hauke Flores
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