The effects of temperature on the energetics of rectal fluid transport

Injections of fluid into the recta of isolated abdomens of the Pyrenean grasshopper Oedipoda germanica pyrenaica resulted in an immediate and sustained stimulation of oxygen consumption. The net increase in oxygen consumption was linearly related to the amount of fluid absorbed by the rectum. Rates of fluid absorption were temperature independent but the aerobic cost of fluid uptake increased 3.7-fold between 15 and 25°C. Overall rectal fluid absorption was estimated to account for 4% of the daily resting rate of oxygen consumption.     

The influence of mantle cavity fluid on the aerial oxygen consumption of some intertidal gastropods

The intertidal gastropods Gibbula cineraria (L.), Nucella lapillus (L.), and Littorina littorea (L.) have been investigated. Animals that had attached to a plastic surface under sea water were exposed to air and rapidly frozen. Fluid was found to be retained within the mantle cavity in contact with the gill. For each species the weight of the mantle cavity fluid retained in air was related to the whole weight of the animal. There was no significant difference between the weight of fluid held by animals in the laboratory and that held by animals on the shore 2 h after aerial exposure. The oxygen consumption of inactive individuals in air was measured by two techniques which did not produce significantly different results. The aerial oxygen consumption of all three species was lowered by the loss of mantle cavity fluid. This also reduced the temperature coefficient. A correlation is suggested between a large weight of mantle cavity fluid, the presence of a gill in the mantle cavity and a large reduction in oxygen consumption upon the loss of fluid.     

Water transport by the eversible abdominal vesicles of Petrobius brevistylis

The uptake of fluid by the eversible ventral abdominal sacs of Petrobius brevistylis from a wet substrate is described. On lightly wetted filter paper the insects do not drink, and an insect with an initial fresh weight of 15mg can regain a 30% weight loss due to dehydration in 7 min when allowed access to filter paper wetted with distilled water. A similar insect would need 39 min to become replete when taking up fluid from a 0.33 osmole kg^?1 NaCl solution. The length of time taken to become replete with distilled water was related to the size of the insect and the amount of water loss. Between 15 and 30% of the sodium ions present in each μl of an external NaCl solution entered with each mg of weight increase when the insects were allowed access to both a dilute and a stronger NaCl solution. Artificially everted sacs of anaesthetized insects absorbed fluid when in contact with NaCl or sucrose solutions that were hyperosmotic to the blood. The presence of an active transport mechanism for fluid in the eversible vesicles is discussed.     

Walking performance and aerobic and anaerobic metabolism of Carcinus maenas (L.) in sea water at 15°C

Walking performance of the shore crab Carcinus maenas (L.) in sea water at 15 °C was assessed. In large crabs there was an inverse relationship between fatigue time and speed; crabs ran for $\text{\$}\text{?}$10 min at 3.2 m·min^?1 and for only 2 min at 14 m·min^?1. There were linear relationships between oxygen consumption and walking speeds for small and large animals walking at up to 4 m·min^?1 Estimates of maximum oxygen consumption were proportional to W^0.13 whereas inactive consumption is proportional to W^0.44 this resulted in aerobic scope (i.e. the difference between inactive and maximal rates of oxygen consumption) remaining almost constant across a weight range of animals whereas the aerobic expansibility (maximal rates/inactive rates) declined from 7- to 4-fold with increasing size. After a 12-h period without handling (settled animals) the animals could immediately become active and reach maximal rates of oxygen consumption similar to those of animals handled 1 h before the experiment. The aerobic expansibility of these settled animals could range from 21 to 8 times their inactive rates of oxygen consumption in small and large animals respectively. After 10 min of exercise oxygen consumption and whole body lactate levels returned to pre-exercise values within 5 to 25 min. The net oxygen debts range from 16 to 64% of the net oxygen consumption increase during exercise in small and large animals respectively.Calculations of the energy gained from lactate accumulation indicated that the net aerobic energy production during walking was supplemented from 4 to 71 % by anaerobic metabolism in small and large animals respectively. With increasing animal size the decline in aerobic expansibility was offset by an increased capacity for lactate production so that the overall maximum energy production during sustained activity remained almost constant at around seven times the inactive rate. The cost of transport (the net increase in oxygen consumption per g per m) falls with increased walking speed and increased animal size.     

Dietary influence on the biology and metabolism of Isotoma viridis (Collembola)

(1) Two groups of individually cultured Isotoma viridis were studied. They were given a diet of Tetramin fishfood and Pleurococcus algae respectively, in order to monitor individual changes in oxygen uptake during culture. (2) Growth rate, moulting frequency and the maximal live weight reached were higher when fed on Tetramin. (3) Egg production in the culture fed Pleurococcus was twice that fed on Tetramin, due to the more fertile intermoult periods without oviposition in animals fed Tetramin. The egg quality seemed to be lowered in the algae-fed animals rather less than in those fed with fishfood. (4) In both cultures, an increase of 35–40% of the metabolic rate at the start of the experiment was observed. This increase was maintained with a Tetramin diet, whilst it disappeared in cultures fed Pleurococcus. The F₁ generation of both groups showed an increased metabolic rate, that from Tetramin-fed being significantly higher than that from Pleurococcus-fed animals. (5) It is suggested that the initial increase in metabolism is a result of excess food, and the increased level of oxygen uptake in animals on a Tetramin diet the result of inadequacy of the composition of the fishfood for egg production, thus channelling the energy uptake mainly into growth and metabolism. (6) Neither Tetramin nor Pleurococcus are considered to provide an adequate diet for I. viridis, as reproductive success differed considerably from field conditions.     

Water loss and respiration of Lucilia cuprina during development within the puparium

The rate of loss of water and the rate of uptake of oxygen were measured continuously throughout the development of Lucilia cuprina within the puparium. Changes in these parameters were correlated with changes observed in morphology of cuticles and respiratory structures during development.In development at 26°C, there is, at 20–22 hr after puparium formation a major loss of water by mechanical expulsion of moulting fluid chiefly through the posterior larval spiracles after the severing of the posterior larval tracheae. This loss of water is essential to survival and is followed by an extremely low rate of water loss attributed to slow diffusion of water through the resulting air gap between the pupal cuticle and the puparium. There is an increase in oxygen consumption during the pupal movements associated with the casting of the larval tracheae followed by a sharp reduction in oxygen consumption until the pupal horns are everted a short time later. This combination of physiological events enables development to proceed over a wide range of conditions in the puparial environment.     

Aerial and aquatic oxygen uptake by freely-diving snapping turtles (Chelydra serpentina)

Summary Aerial oxygen consumption of unrestrained, freely-diving warm-and cold-acclimated snapping turtles, Chelydra serpentina, was measured at 10, 20, and 30°C. Also, simultaneous determinations of aerial and aquatic oxygen uptake by voluntarilydiving animals were made at 4 and 20°C. The standard rates of aerial oxygen consumption are equivalent in cold-and warm-acclimated animals in water and in cold-acclimated ones in air; these rates are all lower than those of warm-acclimated animals in air. Thus either cold acclimation or voluntary submergence reduces the standard metabolic rate of snapping turtles but the effects are not additive. Aquatic oxygen uptake during voluntary submergence is more important at low than at moderate temperatures and probably contributes significantly to gas exchange in these animals as they overwinter beneath the ice of ponds and streams.     

Oxygen consumption by Nephrops norvegicus (L.), (Crustacea: Decapoda) in relationship with its moulting stage

The study of the rate of oxygen consumption by Nephrops norvegicius (L.) at each moulting stage has been carried out in closed respiration chambers, using an oxygen electrode to measure the oxygen concentration.Although the mean respiration rate seems to be low when compared with other decapod crustaceans of similar weight, the general trends of the variation of the oxygen consumption during the moulting cycle are similar to those described for other species of decapods. It should be noted that, during the process of the ecdysis, there is no oxygen consumption.     

Balancing the competing requirements of air-breathing and display behaviour during male–male interactions in Siamese fighting fish Betta splendens

Air-breathing fish of the Anabantoidei group meet their metabolic requirements for oxygen through both aerial and aquatic gas exchange. Siamese fighting fish Betta splendens are anabantoids that frequently engage in aggressive male–male interactions which cause significant increases in metabolic rate and oxygen requirements. These interactions involve opercular flaring behaviour that is thought to limit aquatic oxygen uptake, and combines with the increase in metabolic rate to cause an increase in air-breathing behaviour. Air-breathing events interrupt display behaviour and increase risk of predation, raising the question of how Siamese fighting fish manage their oxygen requirements during agonistic encounters. Using open-flow respirometry, we measured rate of oxygen consumption in displaying fish to determine if males increase oxygen uptake per breath to minimise visits to the surface, or increase their reliance on aquatic oxygen uptake. We found that the increased oxygen requirements of Siamese fighting fish during display behaviour were met by increased oxygen uptake from the air with no significant changes in aquatic oxygen uptake. The increased aerial oxygen uptake was achieved almost entirely by an increase in air-breathing frequency. We conclude that limitations imposed by the reduced gill surface area of air-breathing fish restrict the ability of Siamese fighting fish to increase aquatic uptake, and limitations of the air-breathing organ of anabantoids largely restrict their capacity to increase oxygen uptake per breath. The resulting need to increase surfacing frequency during metabolically demanding agonistic encounters has presumably contributed to the evolution of the stereotyped surfacing behaviour seen during male–male interactions, during which one of the fish will lead the other to the surface, and each will take a breath of air.     

Nitrogen Metabolism of Detached Kalanchoe Leaves in the Dark in Relation to Acidification, Deacidification, and Oxygen Uptake

Detached Kalancho leaves were placed in the dark and changesin the amounts of total soluble N, asparagine, glutamine, aminoN, ammonia, and titratable acid were followed during the periodsof acidification and deacidification. Abundant starch was presentthroughout the experiments. The amount of acid which accumulatedin the initial period was increased by placing the leaves in5 per cent. CO₂ and also by decreasing the temperature from25 to 10°. In neither case were the nitrogen fractions affectedin a similar way to the acid levels. No consistent relationshipcould be found between the amount or change in amount of acidand the amounts of the nitrogen fractions. Over prolonged periodsthe drifts in the amounts of the nitrogen fractions were verysimilar to those known in non-succulent leaves. It is concludedthat, despite the large amounts of free acid and starch present,the nitrogen metabolism of detached Kalancho leaves in the darkis similar to that of non-succulent leaves. A possible explanationis suggested for the incorporation of ¹⁴C from ¹⁴CO₂ into nitrogenoussubstances in Kalancho leaves during dark acidification. Changesin the amounts of glutamine, which seemed to be related to oxygenuptake rather than to acid fluctuations, were measured in comparableleaf samples showing different rates of oxygen uptake. The rateof oxygen uptake of leaves and leaf disks in the dark was controlledby placing them in an atmosphere of nitrogen, or 5, 20, or 100per cent, oxygen, by the addition of 10^–3 M. cyanide,or by varying the temperature. At the end of a given periodthe amount of glutamine was always greater in the samples whichhad shown the higher rate of oxygen uptake during this perod.This correlation was found irrespective of whether the amountof glutamine had increased or decreased. With the assumptionsthat glutamine production and consumption were proceeding simultaneouslyand that the rate of consumption was unaffected by the rateof oxygen uptake, the experimental values are consistent withthe hypothesis that the rate of glutamine production and therate of oxygen uptake were directly related. The possible significanceof these findings is discussed.     

The effects of temperature changes on the oxygen consumption of juvenile Chinese shrimp Fenneropenaeus chinensis Osbeck

The effects of temperature changes on oxygen consumption of Chinese shrimp (Fenneropenaeus chinensis Osbeck) were studied. The response of oxygen consumption to a temperature rise was conformed to partial metabolic compensation. No compensatory response was observed at lower temperature. A sudden temperature increase by 12 °C resulted an overshoot in oxygen consumption in shrimp adapted to 19 °C, while a sudden decrease by 12 °C in shrimp adapted to 19 °C resulted in an undershoot in oxygen consumption. The shrimp adapted to 31 °C responded with an undershoot in oxygen consumption when a sudden temperature drop by 12 °C occurred. But overshoot in oxygen consumption did not occur when the shrimps were transferred back from 19 to 31 °C. The amplitude of oxygen consumption was reduced in shrimp during the process of acclimation to the temperature diel fluctuation. After the shrimp had adapted to the temperature fluctuation, the daily mean oxygen consumption of shrimp at diel temperature fluctuation from 24 to 30 °C was significantly lower than those adapted to the constant temperature at 27 °C (P<0.05). The decrease in metabolic rate may account for the increase in the growth rate of shrimp at a diel fluctuating thermal regime.     

Respiratory and osmoregulatory responses of the hermit crab, Clibanarius vittatus (Bosc), to salinity changes

Intertidal hermit crabs were stepwise acclimated to 10, 20, and 30‰ salinity (S) and 21 ± 1 °C. Hemolymph osmolality, sodium, chloride, and magnesium were isosmotic (isoionic) to ambient sea water at 30‰ and hyperosmotic (hyperionic) at 20 and 10‰ S, while hemolymph potassium was significantly hyperionic in all acclimation salinities. Total body water did not differ significantly at any acclimation salinity. Oxygen uptake rates were higher in summer-than winter-adapted crabs. No salinity effect on oxygen consumption occurred in winter-adapted individuals. Summer-adapted, 30‰ acclimated crabs had a significantly lower oxygen consumption rate than those acclimated 10 and 20‰ S. Crabs exposed to 30 10 30‰ and 10 30 10‰ semidiurnal (12 h) and diurnal (24.8 h) fluctuating salinity regimes showed variable osmoregulatory and respiratory responses. Hemolymph osmolality followed the osmolality of the fluctuating ambient sea water in all cases, but was regulated hyperosmotically. Hemolymph sodium, chloride, and magnesium concentrations were similar to hemolymph osmolality changes. Sodium levels fluctuated the least. Hemolymph potassium was regulated hyperionically during all fluctuation patters, but corresponded to sea water potassium only under diurnal conditions. The osmoregulatory ability of Clibanarius vittatus (Bosc) resembles that reported for several euryhaline brachyuran species. The time course of normalized oxygen consumption rate changed inversely with salinity under semidiurnal and diurnal 10 30 10‰ S fluctuations. Patterns of 30 10 30‰ S cycles had no effect on oxygen consumption rate time course changes. The average hourly oxygen consumption rates during both semidiurnal fluctuations were significantly lower than respective control rates, but no statistical difference was observed under diurnal conditions.     

Influence of oxygen transfer on <Emphasis Type="Italic">Pseudomonas putida</Emphasis> effects on growth rate and biodesulfurization capacity

The growth rate and desulfurization capacity accumulated by the cells during the growth of Pseudomonas putida KTH2 under different oxygen transfer conditions in a stirred and sparged tank bioreactor have been studied. Hydrodynamic conditions were changed using different agitation conditions. During the culture, several magnitudes associated to growth, such as the specific growth rate, the dissolved oxygen concentration and the carbon source consumption have been measured. Experimental results indicate that cultures are influenced by the fluid dynamic conditions into the bioreactor. An increase in the stirrer speed from 400 to 700 rpm has a positive influence on the cell growth rate. Nevertheless, the increase of agitation from 700 to 2000 rpm hardly has any influence on the growth rate. The effect of fluid dynamics on the cells development of the biodesulfurization (BDS) capacity of the cells during growth is different. The activities of the intracellular enzymes involved in the 4S pathway change with dissolved oxygen concentration. The enzyme activities have been evaluated in cells at several growth time and different hydrodynamic conditions. An increase of the agitation from 100 to 300 rpm has a positive influence on the development of the overall BDS capacity of the cells during growth. This capacity shows a decrease for higher stirrer speeds and the activity of the enzymes monooxygenases DszC and DszA decreases dramatically. The highest value of the activity of DszB enzyme was obtained with cells cultured at 100 rpm, while this activity decreases when the stirrer speed was increased higher than this value.     

Comparative respiration of some tropical intertidal gastropods

The rate of oxygen uptake of three species of tropical intertidal gastropods,Nerita tessellata Gmelid., N. Versicolor Gmelin and N. Peloronta L., have been investigated under different environmental conditions. In all species the rates increased from 30 to 37°C, were depressed at 20 °C and were not size-dependent at that temperature. The rates of oxygen uptake varied between individuals collected from different habitats and were greater in areas of higher mean maximum daily temperatures, lower rainfall and lower wind speeds than in areas with the reverse conditions. A decrease in oxygen uptake was shown to occur with an increase of exposure time of the animals on the shore and in the laboratory. Rates were higher in two species collected at the time of high tide than those collected at the same level after exposure to low tides.     

Respiratory mechanisms and metabolic adaptations of an intertidal crab,Chasmagnathus granulata (Dana, 1851)

• 1.1. The ventilatory mechanism, gill area, sites of oxygen uptake, oxygen consumption and activity of a crab from south Brazil, Chasmagnathus granulata, were investigated.
• 2.2. The oxygen uptake seems to be restricted to the gill lamellae.
• 3.3. The gill area varies with the wet body weight, being relatively higher in smaller animals. There is not a significative reduction of the gill area in relation to species of the infralittoral zone.
• 4.4. C. granulata presents a mechanism for recirculating the water of its branchial chamber when exposed to atmospheric air.
• 5.5. The oxygen consumption and activity are reduced when the animals are exposed to atmospheric air. The reduction in the oxygen consumption may be related to the poorly adapted respiratory system, while the decrease in activity may be a mechanism for saving energy during this hypoxic period.

     

Activity and respiration in the anemone, Metridium senile (L.) exposed to salinity fluctuations

Activity and respiration in the anemone, Metridium senile (L.), were monitored under both constant and fluctuating salinity conditions. During constant exposure to 50% sea water it was found that the animals retracted the tentacles and that the rate of oxygen consumption decreased by ≈50%. The same response was elicited from animals in 100% sea water in a contracted state. Animals exposed to continually fluctuating salinities were found to retract the tentacles, contract the body wall, and produce amounts of mucus during periods of decreasing salinities. These reactions were reversed during exposure to increasing salinity. Oxygen consumption never ceased entirely in animals exposed to dilute sea water and it was found that during declining oxygen tension M. senile regulated its oxygen consumption until the environmental oxygen tension fell to ≈30% saturation.     

Oxygen uptake rate of immobilized growing hybridoma cells

Summary The specific oxygen uptake rate of hybridoma cells immobilized in calcium alginate gel particles was measured, and the observed data was compared with those of non-immobilized cells. The uptake rate of the immobilized cells coincided with that of the non-immobilized hybridoma cells just after immobilization, but increased with cell growth. On the other hand, the cellular glucose consumption rate decreased slightly during the experiments. The increased oxygen uptake rate by immobilized cells was closely related to the formation of cell colonies in the gel particles.     

Role of hyperthyroidism in increased thermogenesis in the cold-acclimated Syrian hamster

The oxygen consumption of cold-acclimated Syrian hamsters (measured in pentobarbital-anaesthetized animals) was 59% greater than that of warm-acclimated hamsters. Upon return of the cold-acclimated hamsters to 24 degrees C, the elevated metabolic rate declined slowly, with half-life of approximately 1 day. The increase correlated well with our previous finding of a four-fold increase in serum 3,5,3'-triiodothyronine concentration in cold-acclimated hamsters and the slow decline in concentration of this hormone during deacclimation. Daily administration of T3 (for 7 days) to warm-acclimated hamsters at 24 degrees C resulted in a similar increase in oxygen consumption that persisted 1 day after the last injection and had disappeared by 7 days after the last injection. We conclude that the high concentration of serum triiodothyronine in the cold-acclimated hamster exerts a thermogenic effect that probably contributes to thermoregulatory thermogenesis in the cold.     

REGULATION OF OXYGEN CONSUMPTION IN NEUROBLASTOMA CELLS: EFFECTS OF DIFFERENTIATION AND OF POTASSIUM

Abstract— The rate of oxygen consumption has been measured micromanometrically in fresh mouse neuroblastoma cells and in corresponding cells cultivated with and without 20% calf serum known to suppress differentiation. Fresh cells and cells cultivated in the serum depleted medium showed a relatively intense respiration (0.5–1.0 × 10⁻⁵μl/h/cell), whereas the proliferating, cultivated cells had a low rate of oxygen uptake (0.2 × 10^-5μl/h/cell), provided they did not differentiate morphologically during the 4 h of measurement in the serum-free diver medium. Both morphological and metabolic differentiation of such cells occurs rapidly but may be completely prevented by siliconization of the divers.
An increase of the potassium concentration in the medium to 50 mM had essentially no effect on cultivated, differentiated cells, but led to an abolishment of oxygen uptake by fresh cells. No stimulatory effect of potassium was observed.