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1.
AimWe incorporated genetic structure and life history phase in species distribution models (SDMs) constructed for a widespread spiny lobster, to reveal local adaptations specific to individual subspecies and predict future range shifts under the RCP 8.5 climate change scenario.LocationIndo‐West Pacific.MethodsMaxEnt was used to construct present‐day SDMs for the spiny lobster Panulirus homarus and individually for the three genetically distinct subspecies of which it comprises. SDMs incorporated both sea surface and benthic (seafloor) climate layers to recreate discrete influences of these habitats during the drifting larval and benthic juvenile and adult life history phases. Principle component analysis (PCA) was used to infer environmental variables to which individual subspecies were adapted. SDM projections of present‐day habitat suitability were compared with predictions for the year 2,100, under the RCP 8.5 climate change scenario.ResultsIn the PCA, salinity best explained P. h. megasculptus habitat suitability, compared with current velocity in P. h. rubellus and sea surface temperature in P. h. homarus. Drifting and benthic life history phases were adapted to different combinations of sea surface and benthic environmental variables considered. Highly suitable habitats for benthic phases were spatially enveloped within more extensive sea surface habitats suitable for drifting larvae. SDMs predicted that present‐day highly suitable habitats for P. homarus will decrease by the year 2,100.Main conclusionsIncorporating genetic structure in SDMs showed that individual spiny lobster subspecies had unique adaptations, which could not be resolved in species‐level models. The use of sea surface and benthic climate layers revealed the relative importance of environmental variables during drifting and benthic life history phases. SDMs that included genetic structure and life history were more informative in predictive models of climate change effects.  相似文献   
2.
Pueruli of the Western Rock Lobster Panulirus cygnus (George, 1962) are thought to be nonfeeding. Consequently, the metabolic rate is expected to be low during this stage in order to conserve energy reserves. Furthermore, since water temperature potentially has a substantial impact on energetic needs, the puerulus possibly exhibits mechanisms to reduce the effect of temperature on energy consumption. To test these propositions the metabolic rate was measured in post-settlement pueruli and in juveniles at two water temperatures. A respirometer of variable volume (10–50 ml) was designed for this purpose, incorporating a dark-type oxygen sensor. Results were compared with data available from the literature.

Oxygen consumption in pre-molt pueruli and in intermolt juveniles (1.48 to 5.65 μmol O2· individual−1·h−1 on average) was substantially higher than in post-settlement pueruli (1.06–1.41μmol O2·ind.−1h−1). These significant changes could only partly be explained through changes in biomass. Furthermore, no significant effect of an increased water temperature (from 18 to 23 ° C) could be detected on the metabolic rate in post-settlement pueruli, and the effect is moderate in pre-molt pueruli (Q10 = 1.95). The water temperature has, however, a substantially greater impact on first and second molt juveniles (Q10 = 2.46 to 4.80).

The energetic demand was calculated from oxygen consumption and indicate that energetic needs of post-settlement pueruli is low compared with both pre-molt pueruli and juveniles. A low energetic demand and a reduced effect of temperature on energy consumption is of considerable benefit to a non-feeding larva, and may provide the puerulus with a means of extending the duration of the non-feeding stage and increasing the chance for survival beyond metamorphosis to the first feeding stage. Results indicate that the energetic demand during metamorphosis may be considerable. It is postulated that energetic requirements of the planktonic (actively swimming) puerulus larvae are considerably higher and are likely to be more temperature dependent.  相似文献   

3.
We describe 10 microsatellite loci for Panulirus argus (Caribbean spiny lobster). The number of alleles at each locus ranged from four to 39 (mean = 21.8) in 89 juvenile specimens collected at two different times at a recruitment site in south Florida. Levels of expected and observed heterozygosities ranged from 0.48 to 0.96 (mean = 0.83) and from 0.32 to 0.98 (mean = 0.71), respectively. Significant departures from Hardy–Weinberg equilibrium were observed at two loci. There was no evidence of genotypic disequilibrium for any pair of loci. Overall, the loci were well resolved, highly polymorphic and independently segregating, confirming their utility for population genetic studies.  相似文献   
4.
Spiny lobsters have few reported pathogens, parasites and symbionts. However, they do have a diverse fauna comprised of a pathogenic virus, several bacteria, protozoans, helminths and even symbiotic crustaceans. A few idiopathic syndromes have also been reported, but these appear correlated with lobsters held in poor conditions. Fungal and bacterial pathogens present significant threats for rearing spiny lobsters in aquaculture settings, but only one pathogen, Panulirus argus virus 1, is thought to have damaged a fishery for a spiny lobster. No doubt others will emerge as lobsters are brought into aquaculture setting and as fishing pressure intensifies with stocks become more susceptible to anthropogenic stressors.  相似文献   
5.
The lateral antennular flagellum of decapod crustaceans bears unique olfactory sensilla, namely the aesthetascs, and other sensilla types. In this study, we identify a new major tissue in the lateral flagellum of the Caribbean spiny lobster, Panulirus argus, namely “aesthetasc tegumental glands” (ATGs), based on immunostaining with antibodies against CUB serine protease (Csp), in situ hybridization with csp-specific probes, labeling with the F-actin marker phalloidin, labeling with the nuclear marker Hoechst 33258, and staining with methylene blue. Each ATG has 12–20 secretory cells arranged in a rosette. Each secretory cell has a Csp-immunoreactive basal portion and an apical portion containing granular material (metachromatic staining indicative of acid mucopolysaccharides). At the center of each secretory rosette is a phalloidin-positive common locus that gives rise to a main drainage duct projecting toward the cuticle. Scanning electron and light microscopy show that thin ducts traverse the cuticle and connect to “peg pores” proximal to the bases of the aesthetascs, with 3.4 peg pores per aesthetasc. Since the number of common loci is correlated with the number of peg pores, we conclude that each pore represents the outlet of one ATG, and that the secretions are released from them. We conclude further that ATGs and aesthetascs are functionally linked. We hypothesize that ATG secretions have antifouling and/or friction-reducing properties, and that they are spread over the surface of the aesthetascs by antennular grooming. A review of the literature suggests that ATGs are common in decapod crustacean antennules, and that rosette glands and grooming might be functionally coupled in other body areas.This study was supported by NSF IBN 0077474 and NIH DC00312.  相似文献   
6.
7.
Oxygen transport in Myriapoda is maintained by a unique 6 × 6mer hemocyanin, that is, 36 subunits arranged as six hexamers (1 × 6mers). In the sluggish diplopod Spirostreptus, the 1 × 6mers seem to operate as almost or fully independent allosteric units (h ∼ 1.3; P50 ∼ 5 torr), whereas in the swift centipede Scutigera, they intensively cooperate allosterically (h ∼ 10; P50 ∼ 50 torr). Here, we show the chemomechanical basis of this differential behavior as deduced from hybrid 6 × 6mer structures, obtained by single-particle cryo-electron microscopy of the Scutigera 6 × 6mer (10.0 Å resolution according to the 0.5 criterion) and docking of homology-modeled subunits from Scutigera and two diplopods, Spirostreptus and Polydesmus. The Scutigera 6 × 6mer hemocyanin is a trigonal antiprism assembled from six smaller trigonal antiprisms (1 × 6mers), thereby exhibiting D3 point group symmetry. It can be described as two staggered 3 × 6mers or three oblique 2 × 6mers. Topologically, the 6 × 6mer is subdivided into six subunit zones, thereby exhibiting a mantle (24 subunits) and a core (12 subunits). The six hexamers are linked by 21 bridges, subdivided into five types: two within each 3 × 6mer and three between both 3 × 6mers. The molecular models of the 6 × 6mer reveal intriguing amino acid appositions at these inter-hexamer interfaces. Besides opportunities for salt bridges, we found pairs of carboxylate residues for possible bridging via a Ca2+ or Mg2+ ion. Moreover, we detected histidine clusters, notably in Scutigera, allowing us to advance hypotheses as to how the hexamers are allosterically coupled in centipede hemocyanin and why they act more independently in diplopod hemocyanin.  相似文献   
8.
To clarify the natural diet of phyllosoma larvae of the Japanese spiny lobster Panulirus japonicus, the sources of 18S rDNA clones obtained from the hepatopancreas were investigated. Of a total of 1537 clones examined, 160 had different restriction profiles from the host larvae, in which 21 restriction types were observed. Nucleotide sequences of 16 of 21 restriction types were successfully determined and their assignments were investigated by homology search and phylogenetic analysis. From seven late-stage larvae collected in spring to early summer, eukaryote DNA molecules of Teleostei, Oomycetes, Mycetozoa, and Fungi were identified. Exogenous DNA from four younger phyllosoma larvae collected in late autumn could not be recovered. A previous study identified DNAs of cnidarians and urochordates in late-stage phyllosoma larvae of a closely related species collected in winter. This indicates that the phyllosoma larvae are opportunistic carnivores, whose diets correlate with the relative abundance of prey organisms in the ambient water.  相似文献   
9.
10.
Summary The effects of octopamine (OA) on the isolated and pumping heart of Panulirus japonicus were investigated. Under low filling pressure, OA (10-7-10-5 M) decreased the heart rate and enhanced the first systolic contraction (FSC) while reducing the second systolic contraction (SSC). The decrease in heart rate was transient whereas the enhancement of the FSC continued for 10 min or more after washout of OA. Pressure and OA synergistically intensified the FSC and reduced the SSC. The effect of OA on heart rate changed from a deceleration to an acceleration as the pressure was raised. Octopamine decreased both the firing frequency and the burst rate of the small cardiac neurons in a dose-dependent manner. In contrast, the amine often induced a slow ramp potential in the large cardiac neurons and increased their burst rate. Octopamine had no effect on the excitatory junction potentials evoked in cardiac muscle cells. Contraction and closure of the posterior cardioarterial valve were induced by OA, resulting in rebound internal heart pressure and stretching of the heart. The stretch augmented the heart rate and the FSC. The inhibition of small cardiac neurons by OA was related to the reduction of the heart rate and the SSC. The activation of large cardiac neurons and of cardiac and valve muscles by OA augmented the heart rate and the FSC. These multiple actions on the perfused heart lead to abolition of the SSC. After abolition of the SSC, increases of pressure can rapidly raise the heart rate.Abbreviations EJP excitatory junction potential - FLP first large potential - FSC first systolic contraction - OA octopamine - SLP second large potential - SSC second systolic contraction  相似文献   
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