Behavioral Analysis of the Escape Response in the Juvenile Lobster Homarus Americanus Over the Molt Cycle

S I Cromarty,J S Cobb,G Kass-Simon

doi:10.1242/jeb.158.1.565

S I Cromarty, J S Cobb + Show 1 more

Open Access

https://doi.org/10.1242/jeb.158.1.565

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Abstract

ABSTRACT Components of the escape response of the American lobster were compared over the molt cycle. Number of tailflips, frequency, duration and distance were measured. Velocity, acceleration, force and work were computed from the above measurements, using time-lapse video-recordings of escaping lobsters. Soft-shelled postmolt lobsters (stage B) traveled further, spent more time tailflipping and performed a larger number of tailflips than hard-shelled premolt lobsters (stage D). Hard-shelled lobsters had a more forceful initial power swim, achieved a higher overall velocity and acceleration and, therefore, produced more forceful swims with greater energy expenditure (measured by work output) than soft-shelled animals. Among hard-shelled lobsters, velocity, acceleration, force and work fell off markedly in the latter part of their subsequent swims as a consequence of the prolonged duration and reduced frequency of these swims. Soft-shelled lobsters sustained their swimming velocity, acceleration, force and work for their entire subsequent swimming response. There are likely to be large molt-related differences in energy metabolism, endocrinology and nerve and muscle physiology which lead to the observed differences in the escape response.

Highlights

Throughout their lives, decapod crustaceans undergo periodic molting to accommodate growth and regeneration (Drach, 1939)
The addedmass forces (Batchelor, 1967) which act on accelerating bodies in fluids were ignored since these are a simple multiple of mass. [Added-mass=o-xpFd£/x/df, where ax represents the added-mass coefficient of body orientation in the x direction, p is the density of water, Ux is the instantaneous velocity of the body, V is the volume and t is time (Daniel and Meyhofer, 1989).] We have found in our animals that the mass to volume ratio was 1.12±0.04 and that volume varied linearly with mass
There were no significant differences in the weights of lobsters over the four molt stages [analysis of variance (ANOVA), F(3,32) = 1.537, P>0.05]

Summary

Introduction

Throughout their lives, decapod crustaceans undergo periodic molting to accommodate growth and regeneration (Drach, 1939). Over the course of the molt cycle, metabolic, neuroendocrine and neurophysiological changes occur (Knowles and Carlisle, 1956; Passano, 1960; Kleinholz and Keller, 1979; Quakenbush, 1986); these are reflected in the physical appearance of the animal and in the emergence of distinct patterns of behavior that are characteristic of the given molt stage. |fey words: escape response, molt cycle, behavioral analysis, tailflips, Homarus americanus.

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