Spatial differences in East Scotia Ridge hydrothermal vent food webs: influences of chemistry, microbiology and predation on trophodynamics
Spatial differences in East Scotia Ridge hydrothermal vent food webs: influences of chemistry, microbiology and predation on trophodynamics
The hydrothermal vents on the East Scotia Ridge are the first to be explored in the Antarctic and are dominated by large peltospiroid gastropods, stalked barnacles (Vulcanolepas sp.) and anomuran crabs (Kiwa sp.) but their food webs are unknown. Vent fluid and macroconsumer samples were collected at three vent sites (E2, E9N and E9S) at distances of tens of metres to hundreds of kilometres apart with contrasting vent fluid chemistries to describe trophic interactions and identify potential carbon fixation pathways using stable isotopes. ?13C of dissolved inorganic carbon from vent fluids ranged from ?4.6‰ to 0.8‰ at E2 and from ?4.4‰ to 1.5‰ at E9. The lowest macroconsumer ?13C was observed in peltospiroid gastropods (?30.0‰ to ?31.1‰) and indicated carbon fixation via the Calvin-Benson-Bassham (CBB) cycle by endosymbiotic gamma-Proteobacteria. Highest ?13C occurred in Kiwa sp. (?19.0‰ to ?10.5‰), similar to that of the epibionts sampled from their ventral setae. Kiwa sp. ?13C differed among sites, which were attributed to spatial differences in the epibiont community and the relative contribution of carbon fixed via the reductive tricarboxylic acid (rTCA) and CBB cycles assimilated by Kiwa sp. Site differences in carbon fixation pathways were traced into higher trophic levels e.g. a stichasterid asteroid that predates on Kiwa sp. Sponges and anemones at the periphery of E2 assimilated a proportion of epipelagic photosynthetic primary production but this was not observed at E9N. Differences in the ?13C and ?34S values of vent macroconsumers between E2 and E9 sites suggest the relative contributions of photosynthetic and chemoautotrophic carbon fixation (rTCA v CBB) entering the hydrothermal vent food webs vary between the sites.
e65553
Reid, William D.K.
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Sweeting, Christopher J.
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Wigham, Ben D.
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Zwirglmaier, Katrin
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Hawkes, Jeffrey A.
19e298a9-b5bf-4987-bfea-07780ca5bd69
McGill, Rona A.R.
362c3f67-b8f2-4e04-b8ee-c2894fb5cc1c
Linse, Katrin
74d7ddc0-74a1-4777-ac1d-3f39ae1935ad
Polunin, Nicholas V.C.
685aa92d-01f3-4d0d-b804-b9ee28e9888a
7 June 2013
Reid, William D.K.
40d8b78a-635c-4bba-a861-d64d5d4daefe
Sweeting, Christopher J.
71971132-559e-49aa-837d-b003cbbc748a
Wigham, Ben D.
07fe38d7-d7b9-431b-9f52-32c68954982c
Zwirglmaier, Katrin
bab5e123-33f1-4b50-8d94-a34d438a5826
Hawkes, Jeffrey A.
19e298a9-b5bf-4987-bfea-07780ca5bd69
McGill, Rona A.R.
362c3f67-b8f2-4e04-b8ee-c2894fb5cc1c
Linse, Katrin
74d7ddc0-74a1-4777-ac1d-3f39ae1935ad
Polunin, Nicholas V.C.
685aa92d-01f3-4d0d-b804-b9ee28e9888a
Reid, William D.K., Sweeting, Christopher J., Wigham, Ben D., Zwirglmaier, Katrin, Hawkes, Jeffrey A., McGill, Rona A.R., Linse, Katrin and Polunin, Nicholas V.C.
(2013)
Spatial differences in East Scotia Ridge hydrothermal vent food webs: influences of chemistry, microbiology and predation on trophodynamics.
PLoS ONE, 8 (6), .
(doi:10.1371/journal.pone.0065553).
Abstract
The hydrothermal vents on the East Scotia Ridge are the first to be explored in the Antarctic and are dominated by large peltospiroid gastropods, stalked barnacles (Vulcanolepas sp.) and anomuran crabs (Kiwa sp.) but their food webs are unknown. Vent fluid and macroconsumer samples were collected at three vent sites (E2, E9N and E9S) at distances of tens of metres to hundreds of kilometres apart with contrasting vent fluid chemistries to describe trophic interactions and identify potential carbon fixation pathways using stable isotopes. ?13C of dissolved inorganic carbon from vent fluids ranged from ?4.6‰ to 0.8‰ at E2 and from ?4.4‰ to 1.5‰ at E9. The lowest macroconsumer ?13C was observed in peltospiroid gastropods (?30.0‰ to ?31.1‰) and indicated carbon fixation via the Calvin-Benson-Bassham (CBB) cycle by endosymbiotic gamma-Proteobacteria. Highest ?13C occurred in Kiwa sp. (?19.0‰ to ?10.5‰), similar to that of the epibionts sampled from their ventral setae. Kiwa sp. ?13C differed among sites, which were attributed to spatial differences in the epibiont community and the relative contribution of carbon fixed via the reductive tricarboxylic acid (rTCA) and CBB cycles assimilated by Kiwa sp. Site differences in carbon fixation pathways were traced into higher trophic levels e.g. a stichasterid asteroid that predates on Kiwa sp. Sponges and anemones at the periphery of E2 assimilated a proportion of epipelagic photosynthetic primary production but this was not observed at E9N. Differences in the ?13C and ?34S values of vent macroconsumers between E2 and E9 sites suggest the relative contributions of photosynthetic and chemoautotrophic carbon fixation (rTCA v CBB) entering the hydrothermal vent food webs vary between the sites.
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Published date: 7 June 2013
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 358434
URI: http://eprints.soton.ac.uk/id/eprint/358434
ISSN: 1932-6203
PURE UUID: a655b3ba-66f7-423d-bca4-2dea09beb8b2
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Date deposited: 04 Oct 2013 15:41
Last modified: 14 Mar 2024 15:04
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Author:
William D.K. Reid
Author:
Christopher J. Sweeting
Author:
Ben D. Wigham
Author:
Katrin Zwirglmaier
Author:
Jeffrey A. Hawkes
Author:
Rona A.R. McGill
Author:
Katrin Linse
Author:
Nicholas V.C. Polunin
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