Cardiac and behavioural responses of mussels to risk of predation by dogwhelks

Cardiac and behavioural responses of mussels to risk of predation by dogwhelks

We used noninvasive, infrared phototransducers to record continuously the heartbeat of common mussels,Mytilus edulis , experiencing successive phases of interaction with the predatory gastropod Nucella lapillus, from initial threat to attack and consumption. Coupling physiological monitoring with be...

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Bibliographic Details
Published in:Animal behaviour Vol. 58; no. 4; pp. 707 - 714
Main Authors: ROVERO, FRANCESCO, HUGHES, ROGER N., CHELAZZI, GUIDO
Format: Journal Article
Language:English
Published: Kent Elsevier Ltd 01-10-1999
Elsevier
Harcourt Brace Jovanovich Ltd
Subjects:
Animal behavior
Animal ethology
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
Marine
Mollusks
Mytilus edulis
Nucella lapillus
Predation
Protozoa. Invertebrata
Psychology. Psychoanalysis. Psychiatry
Laboratory study
Mytilus edulis
Nucella lapillus
Risk
Gastropoda
Feeding
Heart rate
Energy balance
Bivalvia
Paralysis
Predation
Invertebrata
Mollusca
Respiration
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Summary:We used noninvasive, infrared phototransducers to record continuously the heartbeat of common mussels,Mytilus edulis , experiencing successive phases of interaction with the predatory gastropod Nucella lapillus, from initial threat to attack and consumption. Coupling physiological monitoring with behavioural analysis allowed us to investigate in detail the responses of mussels to predation threat. Compared to values of normal feeding activity, heart rate increased significantly when mussels were in the presence of effluent from dogwhelks. When attacked by dogwhelks, mussels increased their heart rate further, together with the rate of valve gaping. Considering the heart rate as a reliable estimator of respiratory function, these cardiac responses might be a mechanism to compensate for increased energy demand in order to cope with predation hazard. If so, the theoretical importance of trading off energy balance against risk of predation is supported by our results. Cardiac and behavioural responses varied throughout the attack according to the penetration method adopted by dogwhelks. When mussels were attacked through a drilled hole, heart rate tended to increase and periods of cardiac pausing appeared close to the point of death. In contrast, mussels attacked by penetration between the valves showed decreasing heart rate throughout the attack, together with relatively earlier cessation of valve gaping and appearance of cardiac pausing. These differences clearly support the hypothesis that dogwhelks penetrating between the valves are able to induce muscular paralysis of prey by injecting toxins.
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ISSN:0003-3472
1095-8282
DOI:10.1006/anbe.1999.1176