Monoaminergic receptors in the stomatogastric nervous system characterization and localization in Panulirus interruptus /

Clark, Merry C.

January 2008

Thesis (Ph. D.)--Georgia State University, 2008. / Title from file title page. Deborah Baro, committee chair; Paul Katz, Charles Derby, Susanna Greer, Teryl Frey, committee members. Electronic text (249 p. : col. ill.) : digital, PDF file. Description based on contents viewed August 8, 2008. Includes bibliographical references (p. 222-249).

The functional roles of the lateral pyloric and ventricular dilator neurons in the pyloric network of the lobster, Panulirus interruptus

Weaver, Adam L.

January 2002

Thesis (Ph.D.)--Ohio University, March, 2002. / Title from PDF t.p.

Biomechanics of two aquatic defense systems : 1. The scaling of tail-flip kinematics and force production by the California spiny lobster Panulirus interruptus : 2. Shear sensitivity and interspecific variation in flow-stimulated dinoflagellate bioluminescence /

Nauen, Jennifer Claire.

January 1998

Thesis (Ph. D.)--University of California, San Diego, 1998. / Vita. Includes bibliographical references.

The Role of Chemical Senses in Predation, Risk Assessment, and Social Behavior of Spiny Lobsters

Shabani, Shkelzen

17 November 2008

Chemical senses play a critical role in predator-prey and social interactions of many animals. Predators often evoke adaptive escape responses by prey, one of which is the release of chemicals that induce adaptive avoidance behaviors from both predators and conspecifics. I explore the use of chemicals in predator-prey and social interactions, using a crustacean model system, the spiny lobster. As predators, spiny lobsters are opportunistic, polyphagous feeders, and they rely heavily on their chemical senses during feeding. Some of their potential prey deter attacks through chemical defenses that act through the spiny lobsters’ chemical senses. An example of this is sea hares, Aplysia californica, which secrete an ink when vigorously attacked by sympatric spiny lobsters, Panulirus interruptus. I show that that this ink defends sea hares from spiny lobsters through several mechanisms that include phagomimicry, sensory disruption, and deterrence, and that the ink’s efficacy is enhanced by its naturally high acidity. As prey, spiny lobsters rely heavily on their chemical senses to assess risk from predators. One way to assess risk of predation is through ‘alarm cues’, which are injury-related chemicals. I show that injured Caribbean spiny lobsters, Panulirus argus, release alarm cues in their hemolymph, and that nearby conspecifics detect these cues using olfaction. Hemolymph from conspecifics induces primarily alarm behavior in the form of retreat, sheltering, and suppression of appetitive responses. In contrast, hemolymph from heterospecifics, depending on phylogenetic relatedness, induces either mixed alarm and appetitive behaviors or primarily appetitive behaviors. Spiny lobsters also use chemical cues to assess risk during social interactions with conspecific. I show that spiny lobsters use urine-borne chemical signals and agonistic behaviors to communicate social status and that these chemical signals are detected exclusively by the olfactory pathway. Dominant animals increase urine release during social interactions, whereas subordinates do not. Experimental prevention of urine release during interactions causes an increase in agonism, but this increase is abolished when urine of dominants is reintroduced. My findings lay the foundation for neuroethological studies of risk-assessment systems mediated by intraspecific chemical cues.

Spiny lobster

Social status

Deterrence

Signal

Sensory disruption

Chemical defenses

Aplysia californica

Avoidance

Agonistic

Alarm cue

Alarm pheromone

Urine

Sea hare

Risk assessment

Phagomimicry

Panulirus interruptus

Panulirus argus

Olfaction

Dominant

Subordinate

Biology, general