Size- and scale-dependent chemical attraction contribute to an ontogenetic shift in sociality

Caribbean spiny lobsters, Panulirus argus, reside solitarily during the first months postsettlement, but shift to gregarious shelter use in later juvenile stages, at sizes as small as 15 mm in carapace length. To determine whether receptivity to or production of a chemical attractant among spiny lobster conspecifics is dependent upon body size or spatial scale, we conducted a series of overnight Y-maze shelter choice experiments. We placed a test lobster in an experimental arena and allowed it to choose between two shelters, which differed only in that water flowing by one shelter contained sea water that had passed through a header tank containing a conspecific. We varied the size of the lobster in the arena, the size and number of lobsters in the header tank, and the size of the experimental arena. Lobsters of all sizes tested released odours that attracted conspecifics; however, a single small lobster could attract other conspecifics only in the small arena. Lobsters greater than 15 mm in carapace length were attracted to shelters from which conspecific odours were emanating, while smaller lobsters were not. The results of this study suggest that: (1) the earliest benthic stages (less than 15 mm in carapace length) are unresponsive to conspecific odours, but lobsters greater than 15 mm in carapace length are attracted by conspecific odours; and (2) large lobsters produce a sufficient quantity of scent to attract conspecifics over distances of at least a few metres, whereas small lobsters (15-30 mm in carapace length) cannot. Body size- and spatial scale-dependent attraction could contribute to the shift from solitary to gregarious shelter use among Caribbean spiny lobsters. Copyright 1998 The Association for the Study of Animal Behaviour.

[1]  B. Hazlett,et al.  Behavioural Responses of Hermit Crabs to Shell Cues, Predator Haemolymph And Body Odour , 1997, Journal of the Marine Biological Association of the United Kingdom.

[2]  R. Forward,et al.  Effects of chemical cues on settlement behavior of blue crab Callinectes sapidus postlarvae , 1997 .

[3]  Jelle Atema,et al.  Shelter sharing and chemical courtship signals in the lobster, Homarus americanus , 1997 .

[4]  W. Herrnkind,et al.  The ontogeny of social behaviour among juvenile Caribbean spiny lobsters , 1996, Animal Behaviour.

[5]  R. K. Zimmer-Faust,et al.  Evidence for hydrodynamic orientation by spiny lobsters in a patch reef environment , 1995, The Journal of experimental biology.

[6]  Lohmann,et al.  Magnetic orientation of spiny lobsters in the ocean: experiments with undersea coil systems , 1995, The Journal of experimental biology.

[7]  B. Boudreau,et al.  Behavioural responses of competent lobster postlarvae to odor plumes , 1993 .

[8]  Marc J. Weissburg,et al.  Life and Death in Moving Fluids: Hydrodynamic Effects on Chemosensory‐Mediated Predation , 1993 .

[9]  R. Wahle Body-size dependent anti-predator mechanisms of the American lobster , 1992 .

[10]  Romuald N. Lipcius,et al.  Shelter Selection by Spiny Lobster Under Variable Predation Risk, Social Conditions, and Shelter Size , 1992 .

[11]  Kenneth N. Smith,et al.  Predation on early juvenile spiny lobsters Panulirus argus (Latreille): influence of size and shelter , 1992 .

[12]  G. Jensen Competency, settling behavior, and postsettlement aggregation by porcelain crab megalopae (Anomura: Porcellanidae) , 1991 .

[13]  R. K. Zimmer-Faust,et al.  Gregariousness and sociality in spiny lobsters: implications for den habitation , 1987 .

[14]  J. Case,et al.  CHEMICAL ATTRACTION CAUSING AGGREGATION IN THE SPINY LOBSTER, PANULIRUS INTERRUPTUS (RANDALL), AND ITS PROBABLE ECOLOGICAL SIGNIFICANCE , 1985 .

[15]  R. Caldwell A test of individual recognition in the stomatopod Gonodactylus festate , 1985, Animal Behaviour.

[16]  J. D Costlaw,et al.  Marine Biodeterioration: An Interdisciplinary Study , 1984 .

[17]  T. Baker,et al.  Sexual Communication with Pheromones , 1984 .

[18]  W. Wellington,et al.  Environmental orientation by terrestrial Mollusca with particular reference to homing behaviour , 1981 .

[19]  Pamela Reeder,et al.  Chemotaxis in the Florida spiny lobster, Panulirus argus , 1980, Animal Behaviour.

[20]  P. Dunham SEX PHEROMONES IN CRUSTACEA , 1978 .

[21]  B. L. Olla,et al.  CHEMORECEPTION IN THE BLUE CRAB, CALLINECTES SAPIDUS , 1977 .

[22]  W. Herrnkind,et al.  Preliminary investigations of the daily and seasonal locomotor activity rhythms of the spiny lobster, Panulirus argus , 1972 .

[23]  W. J. Bell,et al.  Chemical Ecology of Insects 2 , 1995, Springer US.

[24]  Jelle Atema,et al.  Chapter 13 – Behavior and Sensory Biology , 1995 .

[25]  M. Butler,et al.  Population dynamics of juvenile Caribbean spiny lobster, Panulirus argus, in Florida Bay, Florida , 1994 .

[26]  D. Eggleston,et al.  Survival of juvenile Caribbean spiny lobster: effects of shelter size, geographic location and conspecific abundance , 1994 .

[27]  A. Macdiarmid Cohabitation in the Spiny Lobster Jasus Edwardsii (Hutton, 1875) , 1994 .

[28]  J. Pawlik Chemical ecology of the settlement of benthic marine invertebrates , 1992 .

[29]  D. Eggleston,et al.  Shelter scaling regulates survival of juvenile Caribbean spiny lobster Panulirus argus , 1990 .

[30]  B. Hazlett Disturbance Pheromone in the Hermit Crab Calcinus Laevimanus (Randall, 1840) , 1990 .

[31]  J. Hunt,et al.  Catch efficiencies of live lobster decoys and other attractants in the Florida spiny lobster fishery , 1988 .

[32]  W. Herrnkind,et al.  Factors regulating postlarval settlement and juvenile microhabitat use by spiny lobsters Panulirus argus , 1986 .

[33]  Robert D. Burke,et al.  Pheromones and the gregarious settlement of marine invertebrate larvae , 1986 .

[34]  W. Herrnkind,et al.  FACTORS REGULATING MICROHABITAT USE BY YOUNG JUVENILE SPINY LOBSTERS, PANULIRUS ARGUS: FOOD AND SHELTER , 1985 .

[35]  W. Herrnkind,et al.  Macroalgae (Rhodophyta: Laurencia spp.) as habitat for young juvenile spiny lobsters, Panulirus argus , 1985 .

[36]  W. Herrnkind Chapter 7 – Spiny Lobsters: Patterns of Movement , 1980 .

[37]  B. Phillips,et al.  The Biology and Management of Lobsters , 1980 .

[38]  P. Kanciruk Chapter 2 – Ecology of Juvenile and Adult Palinuridae (Spiny Lobsters) , 1980 .

[39]  R. Gleeson Pheromone communication in the reproductive behavior of the blue crab, Callinectes sapidus † , 1980 .

[40]  N. Campbell,et al.  Laboratory growth of early juveniles of the western rock lobster Panulirus longipes cygnus , 1976 .