The Caribbean spiny lobster, Panulirus argus, enhancement of the fishery with oceanographic tools and spatial division of fishing grounds between cooperatives and sanctuaries

Branch, Harry W.

January 1900

Thesis (M.E.S.)--Evergreen State College, 1994. / Title from title screen viewed (3/30/2009). "June, 1994." Includes bibliographical references (leaves 48-55).

Caribbean spiny lobster. Fishes

I can beat you one handed spiny lobster self defense after the loss of an antenna /

Parsons, Amy, Herrnkind, William F.

January 2005

Thesis (M.S.)--Florida State University, 2005. / Title from PDF t.p. (viewed on Sept. 14, 2005). Advisor: Dr. William F. Herrnkid, Florida State University, College of Arts and Sciences, Dept. of Biological Science. Includes bibliographical references (p. 60-62).

Caribbean spiny lobster

Towards the development of a protocol for rearing juvenile rock lobster, Jasus lalandii

Esterhuizen, J. A.

January 2004

Thesis (M.S.)--Rhodes University, 2004. / Title from PDF t.p. (viewed on June 9, 2006). Includes bibliographical references (p. 91-104).

Jasus lalandii Spiny lobster culture

Larval Release Rhythms and Larval Behavior of Palinurid Lobsters a comparative study

Ziegler, Tracy Ann.

January 2007

Thesis (Ph. D.)--Duke University, 2007. / Includes bibliographical references.

Neurolipofuscin is a Measure of Age in the Caribbean Spiny Lobster, Panulirus argus, in Florida

Maxwell, Kerry Elizabeth

03 August 2006

Accurate age estimates for the commercially-important Caribbean spiny lobster, Panulirus argus, would greatly enhance analyses of life history and population dynamics. Previous estimates of their age based on size and growth may be inaccurate because of variable growth in the wild. An established technique for aging crustaceans – histologically-determined lipofuscin content in the nervous system – was used on lobsters reared in the laboratory for up to five years. We verified the presence of lipofuscin in eyestalk neural tissue and described its distribution in cell cluster A of the hemiellipsoid body. Neurolipofuscin content of both sexes increased linearly over the five-year age range, with seasonal oscillations. Growth of these animals, on the other hand, showed sex differences and began to asymptote after three years. Neurolipofuscin concentrations in the two eyestalks from the same animal were similar. These results suggest that the neurolipofuscin technique will be valuable for estimating age of wild-caught P.argus.

Panulirus argus

Neurolipofuscin

Spiny Lobster

Florida Keys

Growth

Biology, general

Feeding and digestion in the phyllosoma larvae of ornate spiny lobster, Panulirus ornatus (Fabricius) and the implications for their culture /

Johnston, Matthew D.

January 2006

Thesis (Ph.D.)--University of Western Australia, 2007.

The microbiology and pathology of shell disease in the Florida spiny lobster, Panulirus argus with a comparison to shell disease in the American lobster, Homarus americanus

Porter, Lauren. Reeves, Robert H.

January 2004

Thesis (Ph. D.)--Florida State University, 2004. / Advisor: Dr. Robert H. Reeves, Florida State University, College of Arts and Sciences, Dept. of Biological Science. Title and description from dissertation home page (viewed Sept. 23, 2004). Includes bibliographical references.

Use of Larval Connectivity Modeling to Determine Settlement Habitats of Panulirus argus in The Bahamas as a Pre-cursor to Marine Protected Area Network Planning

Callwood, Karlisa A.

01 January 2010

Caribbean spiny lobster (Panulirus argus) is a popular and heavily exploited seafood throughout its range. This species supports the primary fishery in many Caribbean countries, especially in the Bahamas, which reports the highest catches and where spiny lobster serves as the number one food export. P. argus possesses one of the longest pelagic larval durations of any marine species, ranging from 6-12 months. This allows for the possibility of long-range dispersal, which would make it difficult to determine if local adult populations originate from areas close-by or within the same countries/jurisdictions, thus presenting implications for conservation and management of the species. This project seeks to explore the policy implications of lobster larval dispersal in the Bahamas by examining the larval connectivity of locally spawned P. argus in order to determine the mean dispersal kernel and to identify hotspots of settlement within the area. A coupled biophysical model was used to simulate larval transport from scaled egg production of 47 release locations within the Bahamas. The model was initialized bi-weekly from April through May, the highest months of larvae production in the Bahamas, with each model run occurring for a maximum of 180 days. The dispersal kernel for the Bahamas was calculated to be an average of 100-300 km, indicating that the larvae released within its boundaries typically settled there as well. Due to the long pelagic larval duration, larval particles were able to travel extensive distances, averaging trajectories covering distances of 4000 km and greater from the source locations. Yet, those same larval particles still settled in locations within the Bahamas, suggesting local retention, which varies from the common perception that lobster in the Bahamas originate elsewhere. This knowledge can be used to assess and perhaps reevaluate conservation and management strategies related to the Bahamian P. argus fishery, including the implementation of MPAs and/or MPA networks, input and output management controls, and other management tools.

Identification and Functional Analysis of Crustacean Serotonin Receptors.

Spitzer, Nadja

31 July 2006

Constantly changing environments force animals to adapt by cycling through multiple physiological states. Plasticity in sensory, motor, and modulatory neural circuits is an essential part of these adaptive processes. Invertebrates with their accessible, identifiable neurons are excellent models for investigating the molecular and cellular mechanisms underlying state-dependent neural plasticity, and provide insight into similar processes in more complex systems. These properties have allowed highly detailed characterization of several crustacean circuits with respect to their connectivities, cellular properties, responses to various inputs, and outputs. Serotonin (5-HT) is an important neuromodulator in virtually every animal species. 5-HT signals are mediated primarily by a large family of metabotropic receptors on target cells that activate diverse intracellular signaling cascades. Although 5-HT’s effects on crustacean circuits have been studied in detail, the mediating receptors have been inaccessible until recently. Crustacean receptors had not been cloned and specific drugs for use in physiological experiments could therefore not be identified. Coupling properties of 5-HT receptor families are strongly conserved between phyla, but pharmacological profiles are not. The extent of pharmacological divergence among invertebrates is unclear, however, as no systematic functional profile of 5-HT receptors from related species has been determined. This work shows that orthologs of two 5-HT receptors, 5-HT2b and 5-HT1a, are highly conserved at the molecular, functional and pharmacological level between two distantly related decapod crustaceans, Panulirus interruptus and Procambarus clarkii. A suite of drugs was functionally characterized at Panulirus and Procambarus 5-HT2b and 5-HT1a receptors in cell culture, which were then used to investigate the roles of the receptors in pyloric cycle frequency modulation in the stomatogastric ganglion, a model central pattern generator. The two receptor subtypes were found to serve different roles in the circuit and their function depends on the initial state of the circuit. Finally, an antibody recognizing 5-HT1a was used to map the localization of this receptor within the crayfish nervous system. 5-HT1a is localized to somata and neuropil throughout the nerve cord, suggesting it may respond to synaptic, paracrine or neurohormonal 5-HT signals. The protein and mRNA expression levels are variable between individual animals, perhaps reflecting distinct physiological states.

second messenger

expression

physiology

G protein coupled receptors

crayfish

spiny lobster

cloning

Biology, general

Larval Release Rhythms and Larval Behavior of Palinurid Lobsters: a Comparative Study

Ziegler, Tracy Ann

28 November 2007

This dissertation investigated larval release and larval behavior of the Caribbean spiny lobster Panulirus argus and the spotted spiny lobster P. guttatus. These species were examined under laboratory conditions to determine the phase relationship between larval release and natural environmental cycles. P. argus displayed a nocturnal tidal rhythm, while P. guttatus displayed a circadian rhythm in larval release. P. argus releases larvae near the time of nocturnal high slack water, while P. guttatus released larvae near the time of sunrise. The role of 'pumping pheromones' in controlling larval release behaviors was tested by measuring the pumping response of ovigerous P. argus to (1) hatch water, (2) homogenized-embryo water, (3) embryo-conditioned water, and (4) water containing homogenized-egg cases. Lobsters with late-stage embryos displayed increased pleopod pumping with increased concentration of hatch water. Water individually conditioned with homogenized late-stage embryos, intact late-stage embryos, and homogenized egg-cases induced pumping activity in females with late-stage embryos, indicating the presence of a chemical cue. I quantified pumping responses upon exposure to synthetic peptides to determine if they mimicked pheromones that induce larval release behaviors. Pumping behavior was evoked by oligopeptides with a basic amino acid at the carboxy-terminus, preceded by several neutral amino acids. Carboxyl-terminal arginine peptides serve as pheromone mimics. I investigated whether these peptides originate from the action of trypsin-like enzymes by conducting a bioassay measuring pumping activity of ovigerous P. argus subjected to increasing concentrations of trypsin, trypsin inhibitor, and a combination of the two. Pumping activity increased with increasing concentrations of trypsin and trypsin inhibitor, while behaviors ceased when ovigerous females were subjected to a complex of the two. Pheromones are generated by trypsin-like enzymes assisting in the degradation of the egg membranes at the time of hatching. Vertical swimming behaviors of stage-I phyllosoma larvae of P. argus and P. guttatus were observed under laboratory conditions. P. argus larvae displayed a pattern of twilight vertical migration, while P. guttatus larvae displayed nocturnal diel vertical migration (DVM). Rhythms persisted for 5-6 cycles under constant conditions, indicating that an endogenous rhythm in activity plays a proximate role in DVM for both species. / Dissertation

Biology, Ecology

Biology, Animal Physiology

larval release rhythms

circadian

circatidal

pumping pheromones

vertical migration

spiny lobster