Possible mechanisms for a marine benthic regime shift in the North Sea
Possible mechanisms for a marine benthic regime shift in the North Sea
A sharp regime shift from a brittle star Amphiura filiformis dominated state to a burrowing
mud shrimp Callianassa subterranea dominated situation was observed in a region of the North
Sea known as the Frisian Front in the mid-1990s. No indications exist that food levels or other relevant
conditions in this part of the North Sea had changed significantly. However, the new state has
persisted until the present. This could suggest that this regime shift represents a transition between
alternative stable community states. We propose a potential explanation for the existence of 2 stable
states, which agrees with experimental and field observations. We demonstrated experimentally that
sediments inhabited by burrowing shrimps are more susceptible to sediment resuspension by tidal
currents and wave forces than sediments inhabited by brittle stars. Although the burrowing shrimps
apparently thrive under these conditions, successful recruitment of brittle stars may be hampered on
such unstable frequently resuspended sediments. This implies a positive feedback; brittle stars promote
sediment stability, which favors their persistence. We created a model to demonstrate that this
feedback between the benthic community and sediment stability may cause both the shrimp dominated
state and the brittle star dominated state to be stable under the same external conditions.
regime shift, Amphiura filiformis, Callianassa subterranea, catastrophic shift ·
Alternative stable state · Bioturbation · Resuspension · Competition
39-47
Van Nes, E.H.
b720d723-6885-47ff-89c9-c71bf167d6df
Amaro, T.
6eb60095-3fdb-455a-86bd-55077ad896e9
Scheffer, M.
78938e5f-f221-4fb6-9df5-350549868453
Duineveld, G.C.A.
7332ce75-00fa-4eae-a6d4-a1c1af1cafc2
25 January 2007
Van Nes, E.H.
b720d723-6885-47ff-89c9-c71bf167d6df
Amaro, T.
6eb60095-3fdb-455a-86bd-55077ad896e9
Scheffer, M.
78938e5f-f221-4fb6-9df5-350549868453
Duineveld, G.C.A.
7332ce75-00fa-4eae-a6d4-a1c1af1cafc2
Van Nes, E.H., Amaro, T., Scheffer, M. and Duineveld, G.C.A.
(2007)
Possible mechanisms for a marine benthic regime shift in the North Sea.
Marine Ecology Progress Series, 330, .
(doi:10.3354/meps330039).
Abstract
A sharp regime shift from a brittle star Amphiura filiformis dominated state to a burrowing
mud shrimp Callianassa subterranea dominated situation was observed in a region of the North
Sea known as the Frisian Front in the mid-1990s. No indications exist that food levels or other relevant
conditions in this part of the North Sea had changed significantly. However, the new state has
persisted until the present. This could suggest that this regime shift represents a transition between
alternative stable community states. We propose a potential explanation for the existence of 2 stable
states, which agrees with experimental and field observations. We demonstrated experimentally that
sediments inhabited by burrowing shrimps are more susceptible to sediment resuspension by tidal
currents and wave forces than sediments inhabited by brittle stars. Although the burrowing shrimps
apparently thrive under these conditions, successful recruitment of brittle stars may be hampered on
such unstable frequently resuspended sediments. This implies a positive feedback; brittle stars promote
sediment stability, which favors their persistence. We created a model to demonstrate that this
feedback between the benthic community and sediment stability may cause both the shrimp dominated
state and the brittle star dominated state to be stable under the same external conditions.
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More information
Published date: 25 January 2007
Keywords:
regime shift, Amphiura filiformis, Callianassa subterranea, catastrophic shift ·
Alternative stable state · Bioturbation · Resuspension · Competition
Identifiers
Local EPrints ID: 49954
URI: http://eprints.soton.ac.uk/id/eprint/49954
ISSN: 0171-8630
PURE UUID: 6e530ad1-38b9-4b88-a787-e2bd39b5eec9
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Date deposited: 20 Dec 2007
Last modified: 15 Mar 2024 10:01
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Contributors
Author:
E.H. Van Nes
Author:
T. Amaro
Author:
M. Scheffer
Author:
G.C.A. Duineveld
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