Seasonal trophic structure of the Scotia Sea pelagic ecosystem considered through biomass spectra and stable isotope analysis
Seasonal trophic structure of the Scotia Sea pelagic ecosystem considered through biomass spectra and stable isotope analysis
The biomass size structure of pelagic communities provides a system level perspective that can be instructive when considering trophic interactions. Such perspectives can become even more powerful when combined with taxonomic information and stable isotope analysis. Here we apply these approaches to the pelagic community of the Scotia Sea (Southern Ocean) and consider the structure and development of trophic interactions over different years and seasons. Samples were collected from three open-ocean cruises during the austral spring 2006, summer 2008 and autumn 2009. Three main sampling techniques were employed: sampling bottles for microplankton (0–50 m), vertically hauled fine meshed nets for mesozooplankton (0–400 m) and coarse-meshed trawls for macrozooplankton and nekton (0–1000 m). All samples were identified to the lowest practicable taxonomic level and their abundance, individual body weight and biomass (in terms of carbon) estimated. Slopes of normalised biomass spectrum versus size showed a significant but not substantial difference between cruises and were between ?1.09 and ?1.06. These slopes were shallower than expected for a community at equilibrium and indicated that there was an accumulation of biomass in the larger size classes (101–105 mg C ind?1). A secondary structure of biomass domes was also apparent, with the domes being 2.5–3 log10 intervals apart in spring and summer and 2 log10 intervals apart in autumn. The recruitment of copepod-consuming macrozooplankton, Euphausia triacantha and Themisto gaudichaudii into an additional biomass dome was responsible for the decrease in the inter-dome interval in autumn. Predator to prey mass ratios estimated from stable isotope analysis reached a minimum in autumn while the estimated trophic level of myctophid fish was highest in that season. This reflected greater amounts of internal recycling and increased numbers of trophic levels in autumn compared to earlier times of the year. The accumulation of biomass in larger size classes throughout the year in the Scotia Sea may reflect the prevalence of species that store energy and have multiyear life-cycles.
Southern Ocean, Phytoplankton, Zooplankton, Nekton, Myctophids, Predator–prey interactions
222-236
Tarling, G.A.
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Stowasser, G.
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Ward, P.
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Poulton, A.J.
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Zhou, M.
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Venables, H.J.
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McGill, R.A.R.
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Murphy, E.J.
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January 2012
Tarling, G.A.
11c6c41e-2840-4c60-b262-b404e58607ee
Stowasser, G.
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Ward, P.
be8f5e51-8144-43cf-8c11-e0c7cf87b86c
Poulton, A.J.
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Zhou, M.
3aceb291-c765-47b5-8f33-af180c1dde29
Venables, H.J.
721e7956-ccd4-48f5-be70-5bc035b52bb3
McGill, R.A.R.
0285de4a-aca9-4491-8b9d-69e4164e221b
Murphy, E.J.
c7e5f8f7-9fec-4dcb-98fb-5f68832a2bce
Tarling, G.A., Stowasser, G., Ward, P., Poulton, A.J., Zhou, M., Venables, H.J., McGill, R.A.R. and Murphy, E.J.
(2012)
Seasonal trophic structure of the Scotia Sea pelagic ecosystem considered through biomass spectra and stable isotope analysis.
Deep Sea Research Part II: Topical Studies in Oceanography, 59-60, .
(doi:10.1016/j.dsr2.2011.07.002).
Abstract
The biomass size structure of pelagic communities provides a system level perspective that can be instructive when considering trophic interactions. Such perspectives can become even more powerful when combined with taxonomic information and stable isotope analysis. Here we apply these approaches to the pelagic community of the Scotia Sea (Southern Ocean) and consider the structure and development of trophic interactions over different years and seasons. Samples were collected from three open-ocean cruises during the austral spring 2006, summer 2008 and autumn 2009. Three main sampling techniques were employed: sampling bottles for microplankton (0–50 m), vertically hauled fine meshed nets for mesozooplankton (0–400 m) and coarse-meshed trawls for macrozooplankton and nekton (0–1000 m). All samples were identified to the lowest practicable taxonomic level and their abundance, individual body weight and biomass (in terms of carbon) estimated. Slopes of normalised biomass spectrum versus size showed a significant but not substantial difference between cruises and were between ?1.09 and ?1.06. These slopes were shallower than expected for a community at equilibrium and indicated that there was an accumulation of biomass in the larger size classes (101–105 mg C ind?1). A secondary structure of biomass domes was also apparent, with the domes being 2.5–3 log10 intervals apart in spring and summer and 2 log10 intervals apart in autumn. The recruitment of copepod-consuming macrozooplankton, Euphausia triacantha and Themisto gaudichaudii into an additional biomass dome was responsible for the decrease in the inter-dome interval in autumn. Predator to prey mass ratios estimated from stable isotope analysis reached a minimum in autumn while the estimated trophic level of myctophid fish was highest in that season. This reflected greater amounts of internal recycling and increased numbers of trophic levels in autumn compared to earlier times of the year. The accumulation of biomass in larger size classes throughout the year in the Scotia Sea may reflect the prevalence of species that store energy and have multiyear life-cycles.
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Published date: January 2012
Keywords:
Southern Ocean, Phytoplankton, Zooplankton, Nekton, Myctophids, Predator–prey interactions
Organisations:
Marine Biogeochemistry
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Local EPrints ID: 336382
URI: http://eprints.soton.ac.uk/id/eprint/336382
ISSN: 0967-0645
PURE UUID: 9cb533da-45e9-4ec2-bf12-37a01c5cfd6c
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Date deposited: 22 Mar 2012 15:29
Last modified: 14 Mar 2024 10:42
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Contributors
Author:
G.A. Tarling
Author:
G. Stowasser
Author:
P. Ward
Author:
A.J. Poulton
Author:
M. Zhou
Author:
H.J. Venables
Author:
R.A.R. McGill
Author:
E.J. Murphy
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