Abalone I: Analyzing Mark-Recapture-Recovery Data Incorporating Growth and Delayed Recovery

Abalone are semimobile marine gastropods that form the basis of Australia's second most valuable fishery. A site off the coast of Port Arthur, Tasmania, was visited on six occasions. On each occasion, any unmarked live abalone found were marked with a unique identification number and were recorded. Any previously marked abalone found had its identification number and whether or not it was still alive recorded. This results in integrated mark-recapture-recovery data, as in Catchpole et al. (1998, Biometrics 54, 33-46). During the study period, abalone grew in size, and we model the survival of individuals as a function of their size, estimated from a fitted growth curve. The shells of dead animals are long lasting, and we extend existing methodology to allow for the possibility that an animal found dead may have been dead but overlooked for several visits.     

Purification and characterization of sulfatases from Haliotis rufescens: evidence for changes in synthesis and heterogeneity during development

Summary The digestive glands of many marine molluscs are rich sources of arylsufatase enzymes which may function in the catabolism of sulfated polysaccharides in the diets of herbivorous species. Arylsulfatases, partially purified from the hepatopancreas of the red abalone, Haliotis rufescens, were investigated with respect to heterogeneity, catalytic requirements, and timing of induction during development. Four hepatopancreatic enzymes were purified from adult animals using a combination of hydrophobic interaction and anion-exchange chromatography. Zymograms of the four partially-purified enzymes produced by electrophoresis under nondenaturing conditions revealed a fifth, relatively more basic isozyme. All four partially-purified enzymes appear to be monomeric, with molecular weights of approximately 43 000 Da each, as measured by gel filtration. The affinities for p-nitrocatechol sulfate, pH optima, and strengths of inhibition by anions displayed by these enzymes are similar to the values reported for other molluscan arylsulfatases. Three of the four enzymes have K _m values between 0.8 and 2.0 mM for p-nitrocatechol sulfate; the remaining enzyme (A₂) has a K _m of 6.7 mM. All four enzymes have pH and temperature optima of 5.5 and 45°C, respectively. Three of the four enzymes have-t_1/2(50°C) values of 3.5 min; the enzyme A₄ has a t_1/2 has a t_1/2(50°C) of 8.5 min. A monoclonal antibody directed against form A_1b does not cross react with any of the other hepatopancreatic arylsulfatases when assayed by Western blot, confirming the structural heterogeneity of the adult enzymes.Total arylsulfatase activity increases in a biphasic manner during early abalone development, with the first increase occurring early in larval maturation. The secoad phase of enzyme expression is dependent upon the induction of settlement and metamorphosis of the competent veliger larvae, strongly suggesting that the expression of arylsulfatase synthesis (and the maturation of the digestive gland, the hepatopancreas) is controlled by genetic events which occur as a result of metamorphosis. Competent veliger larvae express only two arylsulfatase forms, which share many physicochemical and kinetic characteristics with the adult hepatopancreatic enzymes. However, neither of the larval arylsulfatases is recognized by the monoclonal antibody to form A_1b from adult hepatopancreas. Endogenous enzyme inhibitor levels in larvae remain constant throughout the period of arylsulfatase induction, and therefore do not contribute to the control of arylsulfatase activity levels during development.These results are the first documentation of the developmental induction of a specific protein(s) in abalone as a result of metamorphosis. The significance of the timing of arylsulfatase expression is discussed in relation to potential physiological substrates and the dietary switching which occurs at metamorphosis. Possible genetic events which are consistent with the observed patterns of expression of these enzymes also are considered.Abbreviations BSA bovine serum albumin - C centigrade - Da daltons - DEAE diethylaminoethyl - ELISA enzyme-linked immunosorbent assay - FPLC fast protein and polynucleotide liquid chromatography - GABA -aminobutyric acid - HAT hypoxanthine, aminopterin, thymidine - Hepes N-(2-Hydroxythyl)piperazine-N'-(2-ethanesulfonic acid) - HPLC high pressure liquid chromatography - KBS Kantor's balanced salt solution - K _m Michaelis constant - PBS phosphate buffered saline - R _m relative mobility - RPMI Roswell Park Memorial Institute - SDS sodium dodecyl sulfate - T time - TBS TRIS buffered saline - V _max maximal velocity     

Use of isolated digestive-gland cells in the study of biochemical and physiological processes in gastropod molluscs

We describe a method for preparation and maintenance of isolated digestive-gland cells in the abalone, Haliotis kamtschatkana. Viability of the isolated cells was confirmed by the fact that 18 h after preparation the cells exhibited less than 5% staining with trypan blue and actively synthesized glycogen following the addition of glucose substrate. Use of the method in a 15-month study of metabolic activity of the digestive gland of H. kamtschatkana showed significant differences in oxygen consumption of isolated-cell preparations correlated with seasonal differences in somatic and gametogenetic growth, and with relative size of the digestive gland.     

Energy metabolism in the tropical abalone, Haliotis asinina Linné: Comparisons with temperate abalone species

The abalone, Haliotis asinina, is a large, highly active tropical abalone that feeds at night on shallow coral reefs where oxygen levels of the water may be low and the animals can be exposed to air. It is capable of more prolonged and rapid exercise than has been reported for temperate abalone. These unusual behaviours raised the question of whether H. asinina possesses enhanced capacities for aerobic or anaerobic metabolism. The blood oxygen transport system of H. asinina resembles that of temperate abalone in terms of a large hemolymph volume, similar hemocyanin concentrations, and in most hemocyanin oxygen binding properties; however, absence of a Root effect appears confined to hemocyanin from H. asinina and may assist oxygen uptake when hemolymph pH falls during exercise or environmental hypoxia. During exposure to air, H. asinina reduces oxygen uptake by at least 20-fold relative to animals at rest in aerated seawater, and there is no significant ATP production from anaerobic glycolysis or phosphagen hydrolysis in the foot or adductor muscles. This slowing of metabolism may contribute to survival at lower water oxygen levels than normally encountered by most temperate abalone. While crawling speeds of H. asinina in water are not exceptionally high, an aerobic expansibility of 5.5-fold at speeds less than 20% of maximum is more than 2.7-fold greater than reported for several temperate abalone. The high aerobic expansibility also supports the enhanced frequency and duration of flipping behaviour without recourse to the additional inputs from anaerobic glycolysis required by other abalone. Metabolic profiles of foot and adductor muscles of H. asinina are similar to those of other abalone. Common features are low activities of enzymes unique to aerobic ATP production, relatively high activities of arginine kinase, tauropine and d-lactate dehydrogenase as the predominant pyruvate reductases, and low intracellular pH buffering capacities. It is concluded that the exceptional abilities of H. asinina for prolonged and rapid exercise are supported by higher rates of aerobic metabolism rather than any enhanced capacity for anaerobic muscle work. It is unexpected, and instructive, that the exceptional aerobic expansibility is not apparent in obvious adjustments of the blood oxygen delivery system or muscle properties associated with aerobic ATP production. The absence of a hemocyanin Root effect, and the extent to which both aerobic and anaerobic metabolism can be reduced may be special features that assist prolonged exercise and survival of H. asinina when environmental oxygen becomes limiting.     

Genetic structure of black abalone (Haliotis cracherodii) populations in the California islands and central California coast: Impacts of larval dispersal and decimation from withering syndrome

The genetic structure of black abalone populations in the southern California Islands and central California coast was investigated by protein electrophoresis. Detailed sampling of San Nicolas Island (SN) permitted investigation of microgeographic genetic differentiation among local geomorphological features. In addition, temporal genetic differentiation was assessed by comparing juveniles and adults at three islands, San Miguel (SM), Santa Cruz (SC) and San Nicolas (SN). Mainland and island locations were genetically differentiated based on allele frequency differences and the presence of private alleles in some island populations. Although microgeographic genetic structure among sites on SN was weak and not statistically significant, heterozygosity varied among sites, with diversity decreasing from west to east. In addition, investigation among cohorts showed that adults were genetically differentiated among island locations, whereas no differences among juveniles were detected. Genetic differentiation between adult and juvenile abalones was detected at SC but not SM or SN. These data are generally consistent with local recruitment augmented by relatively more gene flow among island populations than among island and mainland populations, and possible selection acting on immigrant recruits.     

Geographic range determinants of two commercially important marine molluscs

Aim We modelled the spatial abundance patterns of two abalone species (Haliotis rubra Donovan 1808 and H. laevigata Leach 1814) inhabiting inshore rocky reefs to better understand the importance of current sea surface temperature (SST) (among other predictors) and, ultimately, the effect of future climate change, on marine molluscs. Location Southern Australia. Methods We used an ensemble species distribution modelling approach that combined likelihood‐based generalized linear models and boosted regression trees. For each modelling technique, a two‐step procedure was used to predict: (1) the current probability of presence, followed by (2) current abundance conditional on presence. The resulting models were validated using an independent, spatially explicit dataset of abalone abundance patterns in Victoria. Results For both species, the presence of reef was the main driver of abalone occurrence, while SST was the main driver of spatial abundance patterns. Predictive maps at c. 1‐km resolution showed maximal abundance on shallow coastal reefs characterized by mild winter SSTs for both species. Main conclusions Sea surface temperature was a major driver of abundance patterns for both abalone species, and the resulting ensemble models were used to build fine‐resolution predictive range maps (c. 1 km) that incorporate measures of habitat suitability and quality in support of resource management. By integrating this output with structured spatial population models, a more robust understanding of the potential impacts of threatening human processes such as climate change can be established.     

Characterization and identification of virulent Klebsiella oxytoca isolated from abalone (Haliotis diversicolor supertexta) postlarvae with mass mortality in Fujian, China

An epidemic of mass mortality of abalone (Haliotis diversicolor supertexta) postlarvae aged 40 days or less has existed across south coast of China since the second half of 2002. Among 20 bacterial strains isolated from diseased abalone postlarvae on 2216E marine agar plates during an outbreak of postlarval disease in August 2005, a predominant strain (designated strain 20) was demonstrated to be virulent to postlarvae with an LD(50) value of 1.0x10(5) colony forming units (CFUml(-1)) on day 4, while the other 19 strains were either avirulent (16 strains) or weakly virulent (3 strains). The same bacterium could be re-isolated from postlarvae after bacterial challenge using 2216E marine agar plates. Preliminary toxicity tests of ECPs of strain 20 revealed that at 2.77mgproteinml(-1), crude ECPs completely liquefied postlarvae within 24h, leaving only shells. API 20E analysis identified strain 20 as Klebsiella oxytoca. 16S and ITS rDNA sequencing and phylogenetic analyses further confirmed this identification. Antibiotic susceptibility tests showed that strain 20 exhibited 94% of susceptibility to 16 various antibiotics tested and only showed resistance to streptomycin. Results of this work demonstrated that K. oxytoca is also linked to this epidemic in Fujian, China. This is considered to be the first report regarding K. oxytoca involved in the mass mortality of postlarval abalone in south China and the world.     

Metabolic consequences of living in a wave-swept environment: Effects of simulated wave forces on oxygen consumption, heart rate, and activity of the shell adductor muscle of the abalone Haliotis iris

Animals in wave-exposed habitats must constantly contend with the hydrodynamic forces of lift and drag. In this study, we investigated aspects of the metabolic response of Haliotis iris to simulated wave forces varying in magnitude up to 9.6 N applied to the shell at 69° to horizontal, alternately from anterior and posterior directions, with a period of 10s. Shell adductor muscle activity (electromyogram, EMG), heart rate, and oxygen consumption were monitored during force application and during extended recovery. EMG spiking was absent at zero force, but increased markedly with increasing force, in synchrony with the wave cycle. In contrast, heart rate was unaffected by wave forces and varied by only 5% over the whole range of applied forces. During force application, oxygen consumption increased by 10-25% above resting rates and remained elevated throughout a 5-hour recovery period, indicating a switch to anaerobic metabolism. It is concluded that living in a wave-swept environment is metabolically costly for abalone although this may be compensated by improved food availability and more efficient ventilation induced by external flow.     

九孔鲍养殖水体及其肠道不同菌群抗药性研究*

为更好地防治鲍鱼病害的发生和流行,对分离自广东汕尾健生鲍鱼养殖场九孔鲍养殖环境及其肠道中不同细菌菌群的耐药性进行了研究。结果表明,四环素、青霉素G、卡那霉素、丁胺卡那霉素和新生霉素均对绝大多数异养菌和弧菌菌株都不敏感或无作用;相反,氟哌酸、红霉素、氯霉素以及环丙沙星等则均对它们比较敏感;复方新诺明、链霉素和多粘霉素B对弧菌菌株均有作用,而且多粘霉素B也对水体中的异养菌群相当有效。