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Predation by small mobile aquatic predators regulates populations of the intertidal limpet Patella vulgata (L.)

Predation by small mobile aquatic predators regulates populations of the intertidal limpet Patella vulgata (L.)
Predation by small mobile aquatic predators regulates populations of the intertidal limpet Patella vulgata (L.)
Highly mobile aquatic predators are known to forage in the intertidal during periods of immersion. There is limited quantitative information, however, on the extent to which these predators influence the abundance of grazing molluscs which are known to have a key role in structuring intertidal assemblages. Our preliminary video observations revealed that crabs and small fish were abundant on shores in southwest England during high-tide. We then used manipulative experiments to quantify the effect of small mobile aquatic predators on the abundance of limpets (Patella vulgata L.). On the lower shore at two moderately sheltered rocky shores three treatments were established: complete cage, partial cage (cage control) and uncaged (natural condition). The complete cages excluded all predators. The partial cage treatment allowed full access to small predators and the uncaged treatment allowed access to all predators. After two months, limpet abundance in uncaged and partial cage treatments had declined by around 50% compared to the complete cage treatment. Population structure also changed with survival of larger individuals being greater than smaller individuals in the open and partial cage treatments compared to the complete cage treatment. The effects of excluding predators were consistent at small (meters) and large spatial scales (kilometres) and hence, it would appear that the outcomes of our research are generally applicable to similar shores in the region.

To explore the mechanism behind the differential effects of predators according to prey size, we compared the detachment force required to remove limpets of differing sizes from the shore. This was around four times greater for larger individuals than for smaller ones indicating that smaller limpets were more vulnerable to predation. These effects were also consistent between locations. Subsequent laboratory observations showed that the crabs Carcinus maenas (L.), Necora puber (L.) and Cancer pagurus (L.) which are locally abundant predators of limpets, had differing handling behaviour but were all highly efficient at removing limpets from substratum. Hence, shell width and attachment force appeared to be critical factors influencing the vulnerability of limpets to predation by these crabs. Limpets are known to control the abundance of macroalgae on shores in the North-east Atlantic and so our conclusions about the role of mobile predators in regulating the abundance of these grazers are important to our broader understanding of the ecology of these shores.
Crabs, Detachment force, Feeding behaviour, Small fish, molluscs, Subtidal-intertidal, Top-down control
0022-0981
259-265
Silva, A.C.F.
2182db33-ed20-4228-be4f-3b99483dafb0
Hawkins, S.J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Boaventura, D.M.
27b71323-5219-46d2-b1b0-0e1675933763
Thompson, R.C.
d632e905-6f51-49a0-9426-13c42c3d0a18
Silva, A.C.F.
2182db33-ed20-4228-be4f-3b99483dafb0
Hawkins, S.J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Boaventura, D.M.
27b71323-5219-46d2-b1b0-0e1675933763
Thompson, R.C.
d632e905-6f51-49a0-9426-13c42c3d0a18

Silva, A.C.F., Hawkins, S.J., Boaventura, D.M. and Thompson, R.C. (2008) Predation by small mobile aquatic predators regulates populations of the intertidal limpet Patella vulgata (L.). Journal of Experimental Marine Biology and Ecology, 367 (2), 259-265. (doi:10.1016/j.jembe.2008.10.010).

Record type: Article

Abstract

Highly mobile aquatic predators are known to forage in the intertidal during periods of immersion. There is limited quantitative information, however, on the extent to which these predators influence the abundance of grazing molluscs which are known to have a key role in structuring intertidal assemblages. Our preliminary video observations revealed that crabs and small fish were abundant on shores in southwest England during high-tide. We then used manipulative experiments to quantify the effect of small mobile aquatic predators on the abundance of limpets (Patella vulgata L.). On the lower shore at two moderately sheltered rocky shores three treatments were established: complete cage, partial cage (cage control) and uncaged (natural condition). The complete cages excluded all predators. The partial cage treatment allowed full access to small predators and the uncaged treatment allowed access to all predators. After two months, limpet abundance in uncaged and partial cage treatments had declined by around 50% compared to the complete cage treatment. Population structure also changed with survival of larger individuals being greater than smaller individuals in the open and partial cage treatments compared to the complete cage treatment. The effects of excluding predators were consistent at small (meters) and large spatial scales (kilometres) and hence, it would appear that the outcomes of our research are generally applicable to similar shores in the region.

To explore the mechanism behind the differential effects of predators according to prey size, we compared the detachment force required to remove limpets of differing sizes from the shore. This was around four times greater for larger individuals than for smaller ones indicating that smaller limpets were more vulnerable to predation. These effects were also consistent between locations. Subsequent laboratory observations showed that the crabs Carcinus maenas (L.), Necora puber (L.) and Cancer pagurus (L.) which are locally abundant predators of limpets, had differing handling behaviour but were all highly efficient at removing limpets from substratum. Hence, shell width and attachment force appeared to be critical factors influencing the vulnerability of limpets to predation by these crabs. Limpets are known to control the abundance of macroalgae on shores in the North-east Atlantic and so our conclusions about the role of mobile predators in regulating the abundance of these grazers are important to our broader understanding of the ecology of these shores.

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Published date: 15 December 2008
Keywords: Crabs, Detachment force, Feeding behaviour, Small fish, molluscs, Subtidal-intertidal, Top-down control
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Identifiers

Local EPrints ID: 187913
URI: http://eprints.soton.ac.uk/id/eprint/187913
DOI: doi:10.1016/j.jembe.2008.10.010
ISSN: 0022-0981
PURE UUID: f4a1c250-fd5b-4339-adaf-55526185290e

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Date deposited: 18 May 2011 15:35
Last modified: 14 Mar 2024 03:28

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Contributors

Author: A.C.F. Silva
Author: S.J. Hawkins
Author: D.M. Boaventura
Author: R.C. Thompson

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