Shell ecophenotype in the blue mussel (Mytilus edulis) determines the spatial pattern in foraging behaviour of an oystercatcher (Haematopus ostralegus) population
Shell ecophenotype in the blue mussel (Mytilus edulis) determines the spatial pattern in foraging behaviour of an oystercatcher (Haematopus ostralegus) population
When feeding on blue mussels (Mytilus edulis), oystercatchers (Haematopus ostralegus) either stab into the mollusc’s gaping valves or hammer through its dorsal or ventral shell. Whilst the selectivity of hammering and stabbing oystercatchers for specific prey morphologies has been well studied, the way in which the effects of environment on M. edulis morphology can in turn affect feeding methods of H. ostralegus is very poorly understood. Based on morphological analyses on randomly selected shells from three intertidal zones, this study failed to detect differences in morphology or distribution of dorsally and ventrally hammered shells but confirms the finding of previous authors that hammering oystercatchers select thinner mussels than stabbing birds. Additionally, we show that this difference in optimal prey morphology can lead to spatial patterns in oystercatcher feeding behaviour. Whilst at the low intertidal and higher mid intertidal zones, characterised by comparatively thick shells, most empty shells had apparently been stabbed, hammering was the dominant feeding behaviour at the lower mid intertidal zone, where shells were thinner. Preference of hammering birds for smaller mussels was not ubiquitous. Sagittal shell shape was predominantly influenced by allometric growth effects and had only minor effect on prey selection. All oystercatchers preferred less inflated mussels, with the degree of shell inflation gradually increasing with higher intertidal elevation. Our results illustrate the importance of small-scale patterns in prey ecophenotypes in determining the distribution and feeding dynamics of wading birds.
863-872
Zieritz, Alexandra
66b87295-b09e-4c37-8e0d-6b8696748995
Clucas, Gemma
01c99eb2-5dbb-4f55-847c-1283065b40e1
Axtmann, Lauren
8fb22908-1d13-47bf-80d0-d82e52cb845d
Aldridge, David C.
a415b170-c66d-43e1-906f-401532e8a6b4
2012
Zieritz, Alexandra
66b87295-b09e-4c37-8e0d-6b8696748995
Clucas, Gemma
01c99eb2-5dbb-4f55-847c-1283065b40e1
Axtmann, Lauren
8fb22908-1d13-47bf-80d0-d82e52cb845d
Aldridge, David C.
a415b170-c66d-43e1-906f-401532e8a6b4
Zieritz, Alexandra, Clucas, Gemma, Axtmann, Lauren and Aldridge, David C.
(2012)
Shell ecophenotype in the blue mussel (Mytilus edulis) determines the spatial pattern in foraging behaviour of an oystercatcher (Haematopus ostralegus) population.
Marine Biology, 159 (4), .
(doi:10.1007/s00227-011-1862-9).
Abstract
When feeding on blue mussels (Mytilus edulis), oystercatchers (Haematopus ostralegus) either stab into the mollusc’s gaping valves or hammer through its dorsal or ventral shell. Whilst the selectivity of hammering and stabbing oystercatchers for specific prey morphologies has been well studied, the way in which the effects of environment on M. edulis morphology can in turn affect feeding methods of H. ostralegus is very poorly understood. Based on morphological analyses on randomly selected shells from three intertidal zones, this study failed to detect differences in morphology or distribution of dorsally and ventrally hammered shells but confirms the finding of previous authors that hammering oystercatchers select thinner mussels than stabbing birds. Additionally, we show that this difference in optimal prey morphology can lead to spatial patterns in oystercatcher feeding behaviour. Whilst at the low intertidal and higher mid intertidal zones, characterised by comparatively thick shells, most empty shells had apparently been stabbed, hammering was the dominant feeding behaviour at the lower mid intertidal zone, where shells were thinner. Preference of hammering birds for smaller mussels was not ubiquitous. Sagittal shell shape was predominantly influenced by allometric growth effects and had only minor effect on prey selection. All oystercatchers preferred less inflated mussels, with the degree of shell inflation gradually increasing with higher intertidal elevation. Our results illustrate the importance of small-scale patterns in prey ecophenotypes in determining the distribution and feeding dynamics of wading birds.
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Published date: 2012
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 350574
URI: http://eprints.soton.ac.uk/id/eprint/350574
ISSN: 0025-3162
PURE UUID: e8c6490d-8c4c-4603-874a-71b64ff15ddb
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Date deposited: 26 Mar 2013 17:19
Last modified: 14 Mar 2024 13:27
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Author:
Alexandra Zieritz
Author:
Gemma Clucas
Author:
Lauren Axtmann
Author:
David C. Aldridge
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