Temperature and salinity tolerance of the mole crab,Emerita talpoida (Say) (Crustacea,Anomura)

• 1.1. Adult Emerita talpoida were subjected to 25 temperature-salinity combinations within the range of 5–35°C and 15–65‰.
• 2.2. E. talpoida tolerated 15–65‰ salinity at 20°C and below.
• 3.3. Optimum salinity for survival at stressful temperatures was 40‰.
• 4.4. Crabs transferred directly from one salinity to another experienced changes in osmoconcentration toward that of the new salinity.
• 5.5. Temperature modified the rate of change toward the experimental salinity. Q values averaged 1.2.

     

Effect of low rearing temperature on development of Galleria mellonella larvae and their sensitivity to juvenilizing treatment

• 1.1. The development of Gallena mellonella is strongly affected by a low temperature of 18°C (the last instar persists for more than one year, instead of about 9 days at 30°C). At 18°C the last instar Galleria mellonella larvae respond to juvenilizing treatment—chilling stress or juvenile hormone analogue—with a very low percentage or no supernumerary moults, respectively.
• 2.3. Experiments in which larvae subjected to such treatments were transferred from 18°C to 30°C and vice versa showed that for the realization of the larval programme after chilling stress application the higher (30°C) temperature is needed.
• 3.4. In last instar larvae reared at 18°C there coexist very high juvenile hormone titre and high juvenile hormone esterase activity.
• 4.5. This phenomenon which is found in both, chilled and unchilled larvae, is discussed.

     

The influence of aerial exposure on gas exchange and cardiac activity in the shore crab,Carcinus maenas (L.)

• 1.1. The cardiovascular physiology of adult Carcinus maenas (L.) emerging into air has been investigated at three different air temperatures.
• 2.2. Transition from seawater to air or vice versa triggered transient increases in cardiac and locomotor activity.
• 3.3. However, crabs became inactive 5–10 min after emerging from seawater (15°C) into air at the same temperature (15°C) or at lower temperatures (12–13°C) and heart rate fell.
• 4.4. At higher air temperatures (18–20°C) heart rate rose but to a lesser extent than predicted from aquatic Q₁₀ heart-rate values.
• 5.5. Crabs were again quiescent in aerial conditions.
• 6.6. Mean arterial oxygen tension (Pa_o2) was ~ 74 mmHg in submerged crabs but fell to ~ 38 mmHg in air while mean arterial carbon dioxide tension (Pa_o2) increased from 1 to 4 mmHg resulting in respiratory acidosis.
• 7.7. A model of gill function is proposed to explain the development of internal hypoxia in air.
• 8.8. The results are discussed in relation to the distribution of adult and juvenile C. maenas in situ.

     

The effect of temperature on the swimming of a teleost (Clupea harengus) and an ascidian larva (Dendrodoa grossularia)

• 1.1. Using a high-speed video system operating at 400 frames/sec, the effects of temperature on tail beat frequency, swimming speed and stride length were examined in newly hatched larvae of herring (Clupea harengus L.) and in tadpole larvae of the ascidian Dendrodoa grossularia van Beneden.
• 2.2. The effect of temperature was linear; the tail beat frequency of 8 mm-long herring larvae increased from 19 Hz at 5.6°C to 37 Hz at 14.9°C (Q₁₀ = 2.04); that of 2 mm-long Dendrodoa larvae increased from 10 Hz at 9.6°C to 23 Hz at 18.1°C (Q₁₀ = 2.52).
• 3.3. Burst swimming speeds of herring larvae increased from 80 mm/sec at 5°C to 150 mm/sec at 15°C, stride length remaining constant at about 0.5 of the body length for each tail beat.
• 4.4. More continuous swimming of Dendrodoa increased from 4.0 mm/sec at 10°C to 11.5 mm/sec at 18°C, the stride length increasing from about 0.15 to 0.25.

     

Changes in free amino acid composition in haemolymph of larvae of the wax moth,Galleria mellon ella L., during cold acclimation

• 1.1. Free amino acids were analysed in the haemolymph of Galleria mellonella larvae by HPLC chromatography with o-phthaldialdehyde (OPA)-l-thio-β-d-glucose as derivatization agent.
• 2.2. Fourteen primary amino acids were detected among which glutamine, alanine, γ-aminobutyric acid (GABA) and glycine predominated and constituted 67.7% of the amino acids found.
• 3.3. The concentration of GABA increased significantly with the age of larvae entering the wandering phase and reached a maximum during metamorphosis.
• 4.4. Analysis of cold-acclimated larvae revealed a net increase of free primary amino acids from 96 to 151.8 μmol/ml during consecutive acclimation to 0°C within 20 days and to 205.4μmol/ml during cold shock injury at 0°C (3 hr).
• 5.5. The bulk of this increase was accounted for by alanine, glycine, phenylalanine and lysine.

     

The influence of temperature on the haemocyanin function and oxygen uptake of the freshwater crab Potamonautes warreni calman

• 1.1. At 35°C a maximal VO₂ value of 110 ml O₂/kg/hr was obtained with a significant decrease in the value at 40°C.
• 2.2. The Bohr-effect for P. warreni is — 0.28 and does not change significantly at 15, 25 and 35°C.
• 3.3. The ability of the crab to extract oxygen from the water medium during a single exhalation is on average 41.2% whilst the limitation diffusion (L. diff, Piiper, [1982], A Companion to Animal Physiology, pp. 49–64. Cambridge University Press.) is 0.84.
• 4.4. Compared to land and marine crabs, in P. warreni, the P_aO₂ (29.5 mm Hg) and the P_vO₂ (15.3 mm Hg) is low.

     

The effect of temperature on the acid-base status of the blood of the hatching quail (Coturnix c. japonica)

• 1.1. The ambient temperature of embryos of pipped eggs was reduced from 38 to 28°C for a period of 45 min.
• 2.2. The blood P_CO2 was lower and the blood more alkaline at 28°C than at 38°C.
• 3.3. At 28°C plasma [HCO₃⁻] ] was lower than predicted from the blood buffer line determined in vitro.
• 4.4. The plasma concentrations of strong ions and lactate were the same at both temperatures.
• 5.5. After the ambient temperature had been returned to 38°C for a period of 45 min, blood pH was more acidic than before cooling, but there was no difference in blood P_CO2.
• 6.6. The plasma [HCO₃⁻] was the same as that at 28°C and plasma [K⁺] was higher than before cooling.
• 7.7. The results arc discussed in relation to the factors affecting blood pH in embryos at this stage of development.

     

Lipoxygenase of the thermophilic bacteria thermoactinomyces vulgaris—properties and study on the active site

• 1.1. A lipoxygenase activity was purified from Thermoactinomyces vulgaris and some of its properties were characterized.
• 2.2. The enzyme showed a temperature activity range of 40–55°C with still significant activity over 60°C.
• 3.3. The pH of activity on linoleic acid had a broad range with an optimum at pH 6.0 and a weaker one at pH 11.0.
• 4.4. On arachidonic acid the pattern was narrow bell-shaped with an optimum at pH 6.5.
• 5.5. The purified lipoxygenase from Th. vulgaris showed an apparent K_m of 1 mM and V_max of 0.84 μmol diene/min/mg protein.
• 6.6. It was inhibited by the oxidation products, 9-HPOD and 13-HPOD.
• 7.7. A 160,000 Da molecular weight of the enzyme was determined by molecular filtration. Methionine, tyrosine, tryptophan and cysteine are apparently involved in its activity.

     

Effect of starvation and experimental feeding on the proximate composition and caloric content of an antarctic teleost,Notothenia coriiceps neglecta

• 1.1. Starving Notothenia coriiceps nn/lecta at 1°C for 20 days resulted in a loss of 4.22 gcal/kcal per day.
• 2.2. During starvation energy was obtained from lipid and carbohydrate stores of the liver and red muscle.
• 3.3. Feeding N. coriiceps neglecta low lipid, high protein shrimp meat at 18.9 gcal/kcal per day at 1°C for 20 days resulted in a gain of 8.5 gcal/kcal per day.
• 4.4. The level of carbohydrate in the liver and red muscle increased five times.
• 5.5. Gross growth efficiency (K₁) equalled 0.52.
• 6.6. Net growth efficiency (K₂) equalled 0.67.

     

The effect of inspired oxygen tension on oxygen uptake and tolerance to anoxia in the water snakes Helicops modestus and Liophis miliaris (Colubridae)

• 1.1. The effect of oxygen tension, p_o2, on oxygen uptake and tolerance to anoxia have been studied by exposure in nitrogen atmosphere and diving in the water snakes Helicops modestus and Liophis miliaris, at 25°C.
• 2.2. The critical P_o2, was the same (70mmHg O₂) for both species, but below that tension H. modestus showed a higher degree of dependence on P_o2.
• 3.3. Anoxia tolerance time was longer (14 min for H. modestus and 4 min for L. miliaris) during forced dive than during exposure to a 100% nitrogen atmosphere. No difference was found in pre- and post-forced dive oxygen uptake values in both species.
• 4.4. The maximum duration of a voluntary dive was shorter than the mean tolerance time to forced dives in L. miliaris. but longer in H. modestus.
• 5.5. H. modestus, the more aquatic species, is significantly more tolerant of complete anoxia (100% N₂ exposure) and submersion.

     

Modification of glyceraldehyde-3-phosphate dehydrogenase,EC 1.2.1.12, isolated from rainbow trout during acclimation at 5 or 15°C—I. Changes in the activity of individual muscle isolates as evidence for variable adaptive responses

• 1.1. The mean K_m and V_max values for G3PDH isolated from the lateral muscle of cold-adapted (5°C) rainbow trout, Salmo gairdneri, were twice those of enzyme from warm-adapted (15°C) trout when assayed at 7°C but not at any other temperature.
• 2.2. The entropy of activation of warm enzyme was about 3 times that of cold enzyme. However, enthalpy or free energy of activation among acclimation groups differed less or not at all.
• 3.3. Individual G3PDH isolates within either adaptation group differed in kinetic characteristics.

     

Effect of temperature and salinity on the oxygen consumption of laboratory produced Penaeus californiensis postlarvae

• 1.1. The oxygen consumption by P. californiensis postlarvae (mean wt = 0.38 g) was determined at five different temperatures and four salinities.
• 2.2. The O₂ in each chamber was recorded at 10 min intervals for 1 hr. The time course of oxygen depletion was independent of O₂ concentration down to 1.6 mg/l.
• 3.3. Oxygen consumption increased with temperature from 0.0045 mg/g/min at 19°C, to 0.0142 mg/g/min at 35°C. The thermal coefficient (Q₁₀) indicated a very high sensitivity of the postlarvae to temperature variations at 19–23°C.
• 4.4. The results show that oxygen consumption significantly depends on temperature (P < 0.001) while salinity has only a marginal effect.

     

Metabolic and functional characteristics of erythrocytes from Glycera and Noetia

• 1.1. Annelid and molluscan red blood cells (RBC) may de differentiated metabolically from vertebrate RBC by their increased permeability to substrate, their magnitude of amino acid catabolism and their higher aerobic metabolism.
• 2.2. At 22°C, Glycera and Noetia RBC oxidize glucose and glutamate to CO₂ without accumulation of either d- or l-lactate. By comparison, the oxidation of glutamate by rat and chicken RBC is negligible at this temperature despite its incorporation into the cells.
• 3.3. At 37°C, chicken RBC oxidize glutamate at a rate 4 times greater than at 22°C, with oxygen uptake still lower than that in Noetia RBC at 32°C. At 37°C, rat RBC do not increase their oxidation of glutamate above that at 22°C, but oxygen uptake increases to slightly more than half that of chicken RBC.
• 4.4. Our finclings indicate that RBC of these two invertebrate species have both a higher aerobic metabolism and lower anerobic capacity than vertebrate RBC.
• 5.5. Moreover, the annelid and molluscan RBC have a relatively lower activity of the pentose phosphate (PPO₄) pathway than vertebrate RBC, as evidenced by their higher thermal sensitivity of oxygen uptake and their higher *C₁O₂/*C₆O₂ isotope ratio.

     

The effect of low levels of carbon dioxide on metabolism of Mus musculus

• 1.1. In this study we measured the metabolic response of individual mice to low concentrations of carbon dioxide in air (0.14 to 1.7%). Both oxygen consumption (V_o2) and carbon dioxide (V_o2) were determined, and the respiratory quotient (R) was calculated.
• 2.2. V_o2 was significantly reduced at levels of 0.14 to 0.50% CO₂ in the air. At 0.23% for example, V_o2 dropped from 3.11 ± 0.6 to 1.26 ± 0.69 cc O₂/g × hr. R increased from 0.7 to 1.0 and higher throughout the 6-hr testing period, which consisted of 1.5 hr of exposure to 0.0% CO₂, 1.5 hr of exposure to a test gas and a repetition of 1.5 hr each of baseline and test exposures.
• 3.3. We conclude that low levels of CO₂ such as mice might encounter in a nest, burrow or even metabolic chamber may effect a feedback mechanism which acts to decrease metabolism.

     

Temperature acclimation in respiratory and cytochrome c oxidase activity in common carp (Cyprinus carpio)

• 1.1. Common carp (Cyprinus carpio) exposed to experimental temperatures of 12, 18, 24, 30 or 36°C for a 4-week period were used to investigate the effect of temperature acclimation on the frequency of opercular movement (FOM), growth and cytochrome c oxidase (CCO) activity in heart, liver and muscle.
• 2.2. An exponential relationship between FOM and temperature after the first week (10₁₀ =1.76) disappeared after the second week.
• 3.3. The initially high FOM at temperatures of 30 or 36°C and the low FOM at 18 or 12°C changed over 4 weeks to approach the FOM of fish at 24°C.
• 4.4. This change in the relationship of FOM to temperature from highly dependent to independent appeared to be thermal compensation.
• 5.5. Heart and liver CCO activities were significantly affected by temperature, with the lowest activity at the approximate optimum temperature for growth, 24°C.
• 6.6. Highest CCO activities for heart and liver occurred at both the highest and lowest temperatures.
• 7.7. Among the three tissues, heart CCO activity was generally the highest and most affected by acclimation temperature.
• 8.8. Muscle tissue had the lowest CCO activity and was unaffected by temperature.
• 9.9. The high CCO activity at a cold acclimation of temperature 12°C was probably due to thermal compensation and the high activity at 36°C may have been a result of thermal stress.

     

The dependence of oxygen consumption of the common whelk (Buccinum undatum) on hypoxia,salinity and air exposure

• 1.1. Oxygen consumption of low salinity (20‰) acclimated whelks decreases markedly upon acute exposure to hypoxia (P_WO₂ = 35 Torr), but almost regenerates its original level within 48 hr exposure to the hypoxic condition.
• 2.2. This ability to regain the original level of oxygen consumption is not seen in high salinity (35‰) acclimated whelks.
• 3.3. Oxygen consumption in air at 10°C is more than twice the rate shown by low salinity acclimated whelks in normoxic water (P_WO₂ = 150 Torr).
• 4.4. Q₁₀ for oxygen consumption in air is about 1.0 in the temperature range 10–20°C.

     

Direct calorific heat equivalent of oxygen respiration in the egg of the flour beetle Tribolium confusum (coleoptera: Tenebrionidae)

• 1.1. Directly determined heats of embryogenesis were measured for Tribolium confusum eggs in a microcalorimeter fitted with air exchange, at 30°C.
• 2.2. Parallel oxygen uptake measurements were made at 30°C, and combined with the heats to give the Calorific Equivalent of Oxygen Respiration quotient (the C.O.R.).
• 3.3. The average C.O.R. values for the eggs in the 70 hr interval before hatch was 3.6 ± 0.2 kcal/l O₂. This is somewhat lower than other (e.g. homoiothermic vertebrate) tissue. The C.O.R. increases to large values, in excess of 5 kcal/l O₂ after hatch.
• 4.4. The specific heat production during embryogenesis was 0.43 × 10⁻⁶cal/sec per mg live weight.

     

Purification of endo- and exolaminarinase and partial characterization of the exoacting form from the copepod acartia clausi (Giesbrecht, 1889)

• 1.1. The copepod Acartia clausi exhibited two laminarinases (exo- and endo-acting forms) purified by gel chromatography followed by affinity chromatography. Specific antibodies have been raised against the purified exolaminarinase antigen.
• 2.2. A single band of protein appeared on a polyacrylamide disc gel electrophoresis; its mol. wt is 21,000.
• 3.3. Biochemical properties of the purified enzyme showed a maximum activity at pH 5.2 and a temperature of 40°C with laminarin as substrate. The thermal stability of the enzyme and the effect of various cations on its activity were examined. The enzyme hydrolyses specifically the β(1–3) linked polysaccharides and had no activity against the α(1–4) or β(1–4) disaccharides or polysaccharides.
• 4.4. The kinetic parameters V_m and K_m vary with the temperature; the affinity constant (K_a) was maximum between 25–30°C. The Arrhenius plot defined two values of energy of activation: 7980 cal/mole and 17,506 cal/mole.
• 5.5. From the purification scheme the exoacting form appears to be largely dominant over the endoacting form.

     

The effects of temperature on oxygen consumption in Bullia digitalis meuschen (Gastropoda,Nassaridae)

• 1.1. The oxygen consumption of Bullia digitalis from South Africa's west coast, measured at a fixed activity level at 15°C, does not differ significantly between winter and summer.
• 2.2. The adult acute rate-temperature curve is flattened over the temperature range likely to be encountered in the field, there being no significant difference in oxygen consumption between 15 and 22.5°C.
• 3.3. Below this plateau the Q₁₀ is normal, giving a value of 2.67 between 5 and 10°C, but at temperatures above 22.5°C the Q₁₀ is less than 2 and oxygen consumption at 30°C does not approach that of the tropical Bullia melanoides at the same temperature.
• 4.4. Both field and laboratory acclimated animals provide evidence that the rate-temperature curve is unaffected by such acclimation, either to high or low temperatures.

     

Functional studies on the single component hemoglobin from an Amazon knife fish,Sternopygus macrurus

• 1. The whole blood of the non-air-breathing gymnotid teleost,Sternopygus macrurus, is half-saturated with oxygen at 5.2 mm Hg (apparent value) at 30°C in the absence of CO₂. Addition of 5.6% CO₂ causes the apparentP₅₀ value to increase over 3-fold.
• 2. The oxygen affinity of the stripped single-component hemoglobin at 20°C increases about 20-fold between pH 5.8 and 8.6 in the absence of ATP. This difference increases to 100-fold in the presence of 1 mM ATP.
• 3. A substantial Root effect is present: the stripped hemoglobin is only 70% saturated with O₂ at pH less than 6 when equilibrated with air.
• 4. The value of the Hill coefficient,n, is maximal near pH 7.0–7.5, and approaches 1.0 at high pH. The value is about 1.5 at low pH in the absence of ATP and 1.0 in the presence of 1 mM ATP.
• 5. The O₂ dissociation kinetics are heterogeneous at all pH values but most heterogeneous at low pH. The rate increases substantially as the pH decreases.
• 6. The CO combination kinetics as measured by the stopped flow technique are largely homogeneous except at high pH, but the CO combination kinetics after flash photolysis are markedly heterogeneous.