Physiological status and nutritional condition of cultured juvenile Thenus australiensis over the moult cycle.

[1]  Q. Fitzgibbon,et al.  Growth and biochemical composition of hatchery reared Scyllaridae lobster (Thenus australiensis) larval stages, nisto and juvenile first stage , 2020 .

[2]  E. S. Chang,et al.  Hormonal control of the crustacean molting gland: Insights from transcriptomics and proteomics. , 2020, General and comparative endocrinology.

[3]  Q. Fitzgibbon,et al.  The impact of holding stressors on the immune function and haemolymph biochemistry of Southern Rock Lobsters (Jasus edwardsii) , 2019, Fish & shellfish immunology.

[4]  C. Simon,et al.  Evaluation of baseline haemolymph biochemistry, volume and total body energetics to determine an accurate condition index in the black tiger shrimp, Penaeus monodon. , 2019, Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology.

[5]  Q. Fitzgibbon,et al.  The influence of flesh ingredients format and krill meal on growth and feeding behaviour of juvenile tropical spiny lobster Panulirus ornatus , 2019, Aquaculture.

[6]  Wen Zhou,et al.  Transcriptomic analysis of differentially expressed genes in the molting gland (Y-organ) of the blackback land crab, Gecarcinus lateralis, during molt-cycle stage transitions. , 2018, Comparative biochemistry and physiology. Part D, Genomics & proteomics.

[7]  A. Battison Use of the Brix value with cuticle indices to describe haemolymph biochemistry parameters in Homarus americanus H. Milne Edwards, 1837 (Decapoda: Malacostraca: Nephropidae) , 2018, Journal of Crustacean Biology.

[8]  R. McCauley,et al.  The impact of seismic air gun exposure on the haemolymph physiology and nutritional condition of spiny lobster, Jasus edwardsii. , 2017, Marine pollution bulletin.

[9]  K. F. Clark,et al.  The impact of harvesting location on the physiological indicators of the American lobster (Homarus americanus H. Milne Edwards, 1837) (Decapoda: Nephropidae) during live storage , 2017 .

[10]  Q. Fitzgibbon,et al.  Temperature dependent growth, feeding, nutritional condition and aerobic metabolism of juvenile spiny lobster, Sagmariasus verreauxi. , 2017, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.

[11]  C. Simon,et al.  Spatial Variability in Condition of Southern Rock Lobsters (Jasus edwardsii) at the Start of the Tasmanian Fishing Season , 2016, PloS one.

[12]  C. Simon,et al.  Predicting transport survival of brindle and red rock lobsters Jasus edwardsii using haemolymph biochemistry and behaviour traits. , 2016, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.

[13]  T. Ventura,et al.  Redefining metamorphosis in spiny lobsters: molecular analysis of the phyllosoma to puerulus transition in Sagmariasus verreauxi , 2015, Scientific Reports.

[14]  S. Techa,et al.  Ecdysteroids Regulate the Levels of Molt-Inhibiting Hormone (MIH) Expression in the Blue Crab, Callinectes sapidus , 2015, PloS one.

[15]  Q. Fitzgibbon,et al.  Bioenergetics of Nutrient Reserves and Metabolism in Spiny Lobster Juveniles Sagmariasus verreauxi: Predicting Nutritional Condition from Hemolymph Biochemistry , 2015, Physiological and Biochemical Zoology.

[16]  I. McGaw,et al.  Use of Serum Protein Concentration as an Indicator of Quality and Physiological Condition in the Lobster Homarus americanus (Milne-Edwards, 1837) , 2014 .

[17]  B. Horney,et al.  Measurement of tissue lipid reserves in the American lobster (Homarus americanus): hemolymph metabolites as potential biomarkers of nutritional status , 2014 .

[18]  M. Hall,et al.  Palinurid lobster aquaculture: nutritional progress and considerations for successful larval rearing , 2014 .

[19]  C. Gardner,et al.  Determination of Moulting Events in Rock Lobsters from Pleopod Clipping , 2013, PloS one.

[20]  Yong Chen,et al.  Modelling the growth of crustacean species , 2012, Reviews in Fish Biology and Fisheries.

[21]  H. Nauwynck,et al.  Moult cycle of laboratory-raised Penaeus (Litopenaeus) vannamei and P. monodon , 2012, Aquaculture International.

[22]  E. Ferrero,et al.  Ecological Relevance of Hemolymph Total Protein Concentration in Seven Unrelated Crustacean Species from Different Habitats Measured Predictively by a Density-Salinity Refractometer , 2011 .

[23]  D. Mykles Ecdysteroid metabolism in crustaceans , 2011, The Journal of Steroid Biochemistry and Molecular Biology.

[24]  E. S. Chang,et al.  Regulation of crustacean molting: a review and our perspectives. , 2011, General and comparative endocrinology.

[25]  D. Milton,et al.  Reproductive characteristics of slipper lobster, cuttlefish and squid species taken as byproduct in a tropical prawn trawl fishery , 2011, Fisheries Science.

[26]  A. Elizur,et al.  Moult cycle specific differential gene expression profiling of the crab Portunus pelagicus , 2011, BMC Genomics.

[27]  G. Nagaraju Reproductive regulators in decapod crustaceans: an overview , 2011, Journal of Experimental Biology.

[28]  G. Burns,et al.  Differential gene expression during the moult cycle of Antarctic krill (Euphausia superba) , 2010, BMC Genomics.

[29]  E. Mente Survival, food consumption and growth of Norway lobster (Nephrops norvegicus) kept in laboratory conditions. , 2010, Integrative zoology.

[30]  C. Carter,et al.  An evaluation of the nutritional value of alternative lipid sources to juvenile southern rock lobster, Jasus edwardsii , 2009 .

[31]  Bruce A. Welt,et al.  Effect of high pressure processing and cooking treatment on the quality of Atlantic salmon , 2009 .

[32]  G. Gaxiola,et al.  Physiological and Biochemical Variations during the Molt Cycle in Juvenile Litopenaeus vannamei under Laboratory Conditions , 2009 .

[33]  T. Stueckle,et al.  Effects of Salinity Stress on Survival, Metabolism, Limb Regeneration, and Ecdysis in UCA pugnax , 2009 .

[34]  A. Padhi,et al.  Effect of moulting, eyestalk ablation, starvation and transportation on the immune response of the Indian spiny lobster, Panulirus homarus , 2008 .

[35]  Á. Ravelo,et al.  Dichloromethane as a solvent for lipid extraction and assessment of lipid classes and fatty acids from samples of different natures. , 2008, Journal of agricultural and food chemistry.

[36]  O. Andersen,et al.  Ecdysteroids in female shore crabs Carcinus maenas during the moulting cycle and oocyte development , 2008, Journal of the Marine Biological Association of the United Kingdom.

[37]  E. Ferrero,et al.  Stress effect of different temperatures and air exposure during transport on physiological profiles in the American lobster Homarus americanus. , 2007, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.

[38]  B. Jones,et al.  Effect of holding duration on the immune system of western rock lobster, Panulirus cygnus. , 2006, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.

[39]  S. Mikami Moulting behaviour responses of Bay lobster, Thenus orientalis, to environmental manipulation , 2005 .

[40]  G. Dunstan,et al.  Influence of diet on broodstock lipid and fatty acid composition and larval competency in the spiny lobster, Jasus edwardsii , 2004 .

[41]  C. Carter,et al.  Dietary carbohydrate/lipid ratios and nutritional condition in juvenile southern rock lobster, Jasus edwardsii , 2003 .

[42]  G. Ozbay,et al.  An analysis of refractometry as a method of determining blood total protein concentration in the American lobster Homarus americanus (Milne Edwards) , 2002 .

[43]  A. Macdiarmid,et al.  Blood refractive index and ratio of weight to carapace length as indices of nutritional condition in juvenile rock lobsters (Jasus edwardsii) , 2001 .

[44]  D. Die,et al.  Population dynamics of Scyllarid lobsters of the genus Thenus spp. on the Queensland (Australia) east coast. I. Assessing the effects of tagging , 2001 .

[45]  E. S. Chang,et al.  Hormones in the Lives of Crustaceans: An Overview1 , 2001 .

[46]  G. Gäde,et al.  Characterisation of moult-inhibiting activities of sinus glands of the spiny lobster, Jasus lalandii , 2001 .

[47]  R. Hartnoll Growth in Crustacea – twenty years on , 2001, Hydrobiologia.

[48]  C. Carter,et al.  Growth of juvenile southern rock lobsters, Jasus edwardsii, is influenced by diet and temperature, whilst survival is influenced by diet and tank environment , 2000 .

[49]  K. Aida,et al.  Fluctuations in hemolymph ecdysteroid levels during the reproductive and non-reproductive molt cycles in the giant freshwater prawn, Macrobrachium rosenbergii , 2000 .

[50]  T. Subramoniam Crustacean ecdysteriods in reproduction and embryogenesis. , 2000, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.

[51]  N. Loneragan,et al.  Blood refractive index and whole-body lipid content as indicators of nutritional condition for penaeid prawns (Decapoda: Penaeidae) , 2000 .

[52]  E. S. Chang Physiological and biochemical changes during the molt cycle in decapod crustaceans: an overview , 1995 .

[53]  G. Charmantier,et al.  Effect of molt stage and hypoxia on osmoregulatory capacity in the peneid shrimp Penaeus vannamei , 1994 .

[54]  P. Hopkins Hormonal Control of the Molt Cycle in the Fiddler Crab Uca pugilator , 1992 .

[55]  E. S. Chang,et al.  Ecdysteroid Treatment Delays Ecdysis in the Lobster, Homarus americanus. , 1991, The Biological bulletin.

[56]  S. Chan,et al.  Characterization of the Molt Stages in Penaeus vannamei: Setogenesis and Hemolymph Levels of Total Protein, Ecdysteroids, and Glucose , 1988 .

[57]  D. Smith,et al.  Molt staging the tiger prawn penaeus esculentus , 1985 .

[58]  D. Smith,et al.  Blood protein, blood volume and extracellular space relationships in two Penaeus spp. (decapoda: crustacea) , 1982 .

[59]  W. Herrnkind,et al.  Molt cycle alterations in behavior, feeding and diel rhythms of a decapod crustacean, the spiny lobster Panulirus argus , 1982 .

[60]  D. Mykles THE MECHANISM OF FLUID ABSORPTION AT ECDYSIS IN THE AMERICAN LOBSTER, HOMARUS AMERICANUS , 1980 .

[61]  J. Stewart,et al.  Muscle Weight Relationship to Serum Proteins, Hemocytes, and Hepatopancreas in the Lobster, Homarus americanus , 1967 .

[62]  J. Stewart,et al.  AN ELECTRONIC METHOD FOR COUNTING LOBSTER (HOMARUS AMERICANUS MILNE EDWARDS) HEMOCYTES AND THE INFLUENCE OF DIET ON HEMOCYTE NUMBERS AND HEMOLYMPH PROTEINS , 1967 .

[63]  W. J. Dyer,et al.  A rapid method of total lipid extraction and purification. , 1959, Canadian journal of biochemistry and physiology.

[64]  H. Marco The moult cycle of Jasus lalandii (H. Milne Edwards, 1837) (Decapoda, Palinuridae), a cold water spiny lobster species: changes in ecdysteroid titre and setogenesis , 2012 .

[65]  S. Fotedar,et al.  Health management during handling and live transport of crustaceans: a review. , 2011, Journal of invertebrate pathology.

[66]  J. Chung Hemolymph ecdysteroids during the last three molt cycles of the blue crab, Callinectes sapidus: quantitative and qualitative analyses and regulation. , 2010, Archives of insect biochemistry and physiology.

[67]  C. Jones,et al.  Biology and fishery of the Bay Lobster, Thenus spp. , 2007 .

[68]  F. Schram On slipper lobsters , 2007 .

[69]  R. Musgrove MOLT STAGING IN THE SOUTHERN ROCK LOBSTER JASUS EDWARDSII , 2000 .

[70]  E. S. Chang,et al.  Ecdysteroids in relation to the molt cycle of the American lobster, Homarus americanus. I. Hemolymph titers and metabolites. , 1991, General and comparative endocrinology.

[71]  T. Subramoniam,et al.  Molting and its control in the female sand lobster Thenus orientalis (Lund) , 1989 .

[72]  C. Turnbull Pleopod Cuticular Morphology as an Index of Moult Stage in the Ornate Rock Lobster, Panulirus ornatus (Fabricius 1789) , 1989 .

[73]  K. Aida,et al.  Hemolymph ecdysteroid levels during the molt cycle in the Kuruma prawn Penaeus japonicus , 1989 .

[74]  J. Stewart,et al.  A study of lobster (Homarus americanus) ecology using serum protein concentration as an index , 1969 .