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Mingulay reef complex: an interdisciplinary study of cold-water coral habitat, hydrography and biodiversity

Mingulay reef complex: an interdisciplinary study of cold-water coral habitat, hydrography and biodiversity
Mingulay reef complex: an interdisciplinary study of cold-water coral habitat, hydrography and biodiversity
The Mingulay reef complex in the Sea of the Hebrides west of Scotland was first mapped in 2003 with a further survey in 2006 revealing previously unknown live coral reef areas at 120 to 190m depth. Habitat mapping confirmed that distinctive mounded bathymetry was formed by reefs of Lophelia pertusa with surficial coral debris dating to almost 4000 yr. Benthic lander and mooring deployments revealed 2 dominant food supply mechanisms to the reefs: a regular rapid downwelling of surface water delivering pulses of warm fluorescent water, and periodic advection of high turbidity bottom waters. Closed chamber respirometry studies suggest that L. pertusa responds to seawater warming, such as that seen during the rapid downwelling events, with increases in metabolic rate. Lipid biomarker analysis implies that corals at Mingulay feed predominantly on herbivorous calanoid copepods. Integrating geophysical and hydrographical survey data allowed us to quantify the roles of these environmental factors in controlling biodiversity of attached epifaunal species across the reefs. Longitudinal structuring of these communities is striking: species richness (?) and turnover (?) change significantly west to east, with variation in community composition largely explained by bathymetric variables that are spatially structured on the reef complex. Vibro-cores through the reef mounds show abundant coral debris with significant hiatuses. High resolution side-scan sonar revealed trawl marks in areas south of the coral reefs where vessel monitoring system data showed the highest density of local fishing activity. The interdisciplinary approach in this study allowed us to record the food supply and hydrographic environment experienced by L. pertusa and determine how it may be ecophysiologically adapted to these conditions. Improved basic understanding of cold-water coral biology and biodiversity alongside efforts to map and date these long-lived habitats are vital to development of future conservation policies.
Ecological engineer, Lophelia pertusa, Seamounts, Internal waves
0171-8630
139-151
Roberts, J.M.
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Davies, A.J.
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Henry, L.A.
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Dodds, L.A.
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Duineveld, G.C.A.
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Lavaleye, M.S.S.
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Maier, C.
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van Soest, R.W.M.
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Bergman, M.J.N.
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Hühnerbach, V.
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Huvenne, V.A.I.
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Sinclair, D.J.
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Watmough, T.
87b3b6b6-2f7d-4181-b718-8b7d990fc44e
Long, D.
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Green, S.L.
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van Haren, H.
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Roberts, J.M.
58762646-1ccb-4f99-b8c3-ca47871b8f32
Davies, A.J.
8e454b51-0375-4b27-ac01-86ec2de3d0e2
Henry, L.A.
b5351661-0ad8-478b-811b-1c61f7948503
Dodds, L.A.
4b799455-8dce-4de4-ac2c-4f5bb0bc4fcd
Duineveld, G.C.A.
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Lavaleye, M.S.S.
bed898f6-cdb4-4262-b473-bb70cc938c79
Maier, C.
559f61c8-ec0b-40b4-8af5-bc7be0eac777
van Soest, R.W.M.
40952d66-2183-4e72-b1de-59ad82fbf84d
Bergman, M.J.N.
b6bdeb31-d56d-4a33-9350-a348b2723dd9
Hühnerbach, V.
1ea7cdde-a6fd-4749-b880-504c958c588c
Huvenne, V.A.I.
f22be3e2-708c-491b-b985-a438470fa053
Sinclair, D.J.
255ef2f9-0a16-48d6-97c6-209abbccca1a
Watmough, T.
87b3b6b6-2f7d-4181-b718-8b7d990fc44e
Long, D.
8ca18273-e058-4c3a-b52a-1e598cf4726a
Green, S.L.
e6692f94-5b53-440a-ae13-1ee9277021fd
van Haren, H.
4a35b5de-e99e-42ac-9721-64472f36a1bc

Roberts, J.M., Davies, A.J., Henry, L.A., Dodds, L.A., Duineveld, G.C.A., Lavaleye, M.S.S., Maier, C., van Soest, R.W.M., Bergman, M.J.N., Hühnerbach, V., Huvenne, V.A.I., Sinclair, D.J., Watmough, T., Long, D., Green, S.L. and van Haren, H. (2009) Mingulay reef complex: an interdisciplinary study of cold-water coral habitat, hydrography and biodiversity. Marine Ecology Progress Series, 397, 139-151. (doi:10.3354/meps08112).

Record type: Article

Abstract

The Mingulay reef complex in the Sea of the Hebrides west of Scotland was first mapped in 2003 with a further survey in 2006 revealing previously unknown live coral reef areas at 120 to 190m depth. Habitat mapping confirmed that distinctive mounded bathymetry was formed by reefs of Lophelia pertusa with surficial coral debris dating to almost 4000 yr. Benthic lander and mooring deployments revealed 2 dominant food supply mechanisms to the reefs: a regular rapid downwelling of surface water delivering pulses of warm fluorescent water, and periodic advection of high turbidity bottom waters. Closed chamber respirometry studies suggest that L. pertusa responds to seawater warming, such as that seen during the rapid downwelling events, with increases in metabolic rate. Lipid biomarker analysis implies that corals at Mingulay feed predominantly on herbivorous calanoid copepods. Integrating geophysical and hydrographical survey data allowed us to quantify the roles of these environmental factors in controlling biodiversity of attached epifaunal species across the reefs. Longitudinal structuring of these communities is striking: species richness (?) and turnover (?) change significantly west to east, with variation in community composition largely explained by bathymetric variables that are spatially structured on the reef complex. Vibro-cores through the reef mounds show abundant coral debris with significant hiatuses. High resolution side-scan sonar revealed trawl marks in areas south of the coral reefs where vessel monitoring system data showed the highest density of local fishing activity. The interdisciplinary approach in this study allowed us to record the food supply and hydrographic environment experienced by L. pertusa and determine how it may be ecophysiologically adapted to these conditions. Improved basic understanding of cold-water coral biology and biodiversity alongside efforts to map and date these long-lived habitats are vital to development of future conservation policies.

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More information

Published date: 17 December 2009
Keywords: Ecological engineer, Lophelia pertusa, Seamounts, Internal waves

Identifiers

Local EPrints ID: 72122
URI: http://eprints.soton.ac.uk/id/eprint/72122
ISSN: 0171-8630
PURE UUID: ea8fdcb7-3ff9-4dc2-aef8-da36de8c2578
ORCID for V.A.I. Huvenne: ORCID iD orcid.org/0000-0001-7135-6360

Catalogue record

Date deposited: 21 Jan 2010
Last modified: 14 Mar 2024 02:49

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Contributors

Author: J.M. Roberts
Author: A.J. Davies
Author: L.A. Henry
Author: L.A. Dodds
Author: G.C.A. Duineveld
Author: M.S.S. Lavaleye
Author: C. Maier
Author: R.W.M. van Soest
Author: M.J.N. Bergman
Author: V. Hühnerbach
Author: V.A.I. Huvenne ORCID iD
Author: D.J. Sinclair
Author: T. Watmough
Author: D. Long
Author: S.L. Green
Author: H. van Haren

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