Behavioral thermoregulation in mice subjected to high pressure

Mice exposed to normoxic He and Ne at increased pressure and allowed to choose between a neutral and a cool environment showed a preference for the cooler environment. This behavior was apparent at 5.7 but not at 2.5 atm He. At 11.3 atm He and Ne, the behavior was associated with a similar reduction in the deep body temperature to a new steady level. The reduction in body temperature increased with pressure, up to 35 atm He, the maximum studied. Since the heat transfer of the He and Ne gas mixtures is different and both gases exert negligible anesthetic effects, the hydrostatic pressure most likely affects behavioral thermoregulation by affecting neuronal function.     

Behavioral thermoregulation by hypoxic rats.

To address whether a shift in hypothalamic thermal setpoint might be a significant factor in induction of hypoxic hypothermia, behavioral thermoregulation was examined in 7 female Sprague-Dawley rats implanted with radiotelethermometers for deep body temperature (Tb) measurement in a thermocline during normoxia (PO2 = 125 torr) and hypoxia (PO2 = 60 torr). Normoxic rats (TNox) selected a mean ambient temperature of 19.7 +/- 1.4 (SE) degrees C and maintained Tb at 37.0 +/- 0.2 degrees C. Hypoxic rats selected a significantly higher ambient temperature (THox = 28.6 +/- 2.2 degrees C) but maintained Tb significantly lower at 35.5 +/- 0.3 degrees C. Without a thermal gradient (ambient temperature = 25 degrees C), Tb during hypoxia was 35.4 +/- 0.4 degrees C. The maintenance of a lower body temperature during hypoxia through behavioral thermoregulation despite having warmer temperatures available supports the hypothesis that the thermoregulatory setpoint of hypoxic rats is shifted to promote thermoregulation at a lower Tb, effectively reducing oxygen demand when oxygen supply is limited.     

氧化震颤素在精氨酸加压素引起大鼠低温中的作用与对行为性体温调节反应的影响

目的:研究氧化震颤素在精氨酸加压素(AVP)引起低温中的作用及其对行为性体温调节反应的影响。方法:无线遥控测温技术记录成年雌性SD大鼠体核温度(Tc)、棕色脂肪组织(BAT)温度和活动的变化。用无线遥测温度梯度仪记录大鼠行为性体温调节反应。分别观察AVP(10μg/kg)和氧化震颤素(0.25 mg/kg)对大鼠Tc、活动、BAT温度(TBAT)、理毛活动和行为性体温调节反应的影响。结果:AVP和氧化震颤素均能引起Tc和TBAT降低,理毛活动增加,引起低温反应的同时动物选择较低环境温度。氧化震颤素能使AVP引起的Tc和TBAT降低,以及理毛活动的增加更明显,并持续更长时间。注射氧化震颤素后立即注射AVP动物亦选择较低环境温度,但与AVP比较无明显差异。结论:AVP引起的低温与体温调定点下移、抑制BAT产热和增加理毛活动有关。氧化震颤素可能通过影响BAT产热和行为性体温调节参与外周给AVP引起的低温过程。     

Growth responses of Neurospora crassa to increased partial pressures of the noble gases and nitrogen

Buchheit, R. G. (Union Carbide Corp., Tonawanda, N.Y.), H. R. Schreiner, and G. F. Doebbler. Growth responses of Neurospora crassa to increased partial pressures of the noble gases and nitrogen. J. Bacteriol. 91:622-627. 1966.-Growth rate of the fungus Neurospora crassa depends in part on the nature of metabolically "inert gas" present in its environment. At high partial pressures, the noble gas elements (helium, neon, argon, krypton, and xenon) inhibit growth in the order: Xe > Kr> Ar > Ne > He. Nitrogen (N(2)) closely resembles He in inhibitory effectiveness. Partial pressures required for 50% inhibition of growth were: Xe (0.8 atm), Kr (1.6 atm), Ar (3.8 atm), Ne (35 atm), and He ( approximately 300 atm). With respect to inhibition of growth, the noble gases and N(2) differ qualitatively and quantitatively from the order of effectiveness found with other biological effects, i.e., narcosis, inhibition of insect development, depression of O(2)-dependent radiation sensitivity, and effects on tissue-slice glycolysis and respiration. Partial pressures giving 50% inhibition of N. crassa growth parallel various physical properties (i.e., solubilities, solubility ratios, etc.) of the noble gases. Linear correlation of 50% inhibition pressures to the polarizability and of the logarithm of pressure to the first and second ionization potentials suggests the involvement of weak intermolecular interactions or charge-transfer in the biological activity of the noble gases.     

Decrease in preferred temperature in response to an immune challenge in lizards from cold environments in Patagonia,Argentina

In ectotherms, the likelihood of surviving an infection is determined by the efficiency of thermoregulation, the availability of a variety of thermal microenvironments, the individual's health status, and the virulence of the infective agent. Physiological and behavioral demands related to an efficient immune response entail a series of costs that compete with other vital activities, specifically energy storage, growth, reproduction, and maintenance functions. Here, we characterize the thermal biology and health status by the presence of injuries, ectoparasites, body condition, and individual immune response capacity (using phytohemagglutinin in a skin-swelling assay) of the southernmost lizards of the world, Liolaemus sarmientoi, endemic to a sub-optimal, cold environment in Patagonia, Argentina. In particular, we study the effect of a bacterial endotoxin (lipopolysaccharide; LPS-treatment) on thermoregulation. We found that the field-active body temperature (T_b) was much lower than the preferred body temperature (T_p) obtained in the laboratory. All the individuals were in good body condition at the beginning of the experiments. The phytohemagglutinin test caused detectable thickening in sole-pads at 2 h and 24 h post-assay in males and non-pregnant females, indicating a significant innate immune response. In the experimental immune challenge, the individuals tended to prefer a low body temperature after LPS-treatment (2 h post-injection) and developed hypothermia, while the control individuals injected with phosphate buffered saline (PBS), maintained their body temperature throughout the trial. In both the LPS-treatment and PBS-control individuals, BC declined during the experiment. Hypothermia may allow this southernmost species to optimize the use of their energetic resources and reduce the costs of thermoregulation in a cold-temperate environment where they rarely attain the mean T_p (35.16 °C) obtained in laboratory.     

Fitness effects of floral plasticity and thermoregulation in a thermally changing environment

Abstract To better understand the evolution of phenotypic plasticity and thermoregulation and their potential value for ectotherms in the face of global warming, we conducted field experiments to measure their effects on fitness and their association with reproductive phenology in Plantago lanceolata in a thermally variable environment. We measured the reproductive timing and success of genotypes varying in thermoregulation, as mediated by floral-reflectance plasticity. Results were consistent with the hypothesis that thermoregulation is more adaptive when thermally variable reproductive seasons are shorter and cooler. Strong thermoregulation/plasticity increased reproductive success during the cool portion of the reproductive season but not during the warm portion. Directional selection that favored strongly thermoregulating genotypes early in the season shifted to stabilizing selection that favored genotypes with weaker thermoregulation later in the season. Thermoregulation and reproductive phenology were negatively correlated. Although reproductive onset and duration were similar between genotypes, strong thermoregulators produced more and larger spikes (clutches) early; weak thermoregulators produced more spikes late. Results suggest that with atmospheric warming, the benefit of raising body temperature via thermoregulation when it is cool should decline in extant populations. The negative correlation between thermoregulation and phenology should accelerate the evolutionary shift toward thermoconformity, that is, reduced plasticity.     

Characterization of alpha-adrenoceptors involved in central thermoregulation in rabbits

Intracerebroventricular (icv) injection of methyldopa induced body temperature changes in the rabbits. The dose of 100 micrograms/kg did not produce any significant change on body temperature whereas 250 micrograms/kg of the drug induced hyperthermia. Higher dose of 500 micrograms/kg produced initial hypothermia which was followed by hyperthermia. On further increase of the dose to 1 mg/kg, consistent hypothermia was evident. Prazosin, a specific post-synaptic alpha 1 adrenoceptor blocker, induced hypothermia whereas piperoxan (presynaptic alpha 2 antagonist) produced hyperthermia. The pretreatment with prazosin, blocked the hyperthermic response of methyldopa. The initial hypothermia by 500 micrograms/kg of methyldopa was also potentiated. The pretreatment with piperoxan completely blocked the hypothermia but had no effect on hyperthermic response of methyldopa. Pretreatment of rabbits with both prazosin and piperoxan completely blocked the hypothermia as well as hyperthermic response of methyldopa. Thus it appeared that both presynaptic alpha 2 and postsynaptic alpha 1 adrenoceptors are involved in central thermoregulation in rabbits.     

Nitrous oxide-induced hypothermia in the rat

Exposure of rats to high levels of nitrous oxide (N2O) in oxygen (O2) reduced body temperature in a concentration-related manner. The hypothermia was partly reversed by pretreatment with naloxone but not naltrexone. But in rats rendered tolerant to morphine by pellet implantation, exposure to 75% N2O/25% O2 evoked a marked hypothermia similar to that observed in morphine-naive animals. In another experiment, the hypothermic effect of chloral hydrate was also sensitive to antagonism by pretreatment with naloxone but not naltrexone. These observations lead us to suspect that N2O-induced hypothermia in rats is possibly not mediated by opiate receptors. The thermotropic activity of N2O may result from some non-opioid action of N2O. Its selective antagonism by naloxone (but not naltrexone) may be due to a unique non-opioid analeptic action of naloxone.     

Perioperative normothermia depends on intraoperative warming procedure, extent of the surgical intervention and age of the experimental animal

The maintenance of a physiological body temperature during and early after surgical interventions in experimental animals such as rodents is often neglected. Therefore the positive influence of an adequate use of warming blankets (WB) on the rectal body temperature in rats was investigated during two different surgical interventions, with a special focus on possible differences between young adult (2.5+/-0.14 months) and adult animals (9.3+/-0.13 months). Anesthesia was induced with isoflurane short inhalation and maintained with ketamine and domitor intramuscularly. Animals were divided into ten groups according to (a) the age of the animals, (b) the temperature of the WB and (c) the kind of surgical intervention (either an intravenous [i.v.] cannulation of the right external jugular vein or an intra-aortal implantation of a telemetric transmitter or both). Results clearly show that the surface temperature of the WB has a major impact on the perioperative thermoregulation. The rectal body temperature of animals operated on a cooler WB dramatically decreased depending on the age of the rat and also on the extent of the surgical intervention. The opening of the abdominal cavity in older rats resulted in a severe hypothermia: they lost 5.6 degrees C compared to 3.2 degrees C in the young adult rats. The implantation of the i.v. catheter had no serious effect on the thermoregulation. In conclusion, the results clearly show that an adequate perioperative warming system positively influences the postoperative outcome in young adult and most notably in adult rats and thus enables early postoperative experiments without effects on measured parameters.     

An application of randomization for detecting evidence of thermoregulation in timber rattlesnakes (Crotalus horridus) from northwest Arkansas

Most reptiles maintain their body temperatures within normal functional ranges through behavioral thermoregulation. Under some circumstances, thermoregulation may be a time-consuming activity, and thermoregulatory needs may impose significant constraints on the activities of ectotherms. A necessary (but not sufficient) condition for demonstrating thermoregulation is a difference between observed body temperature distributions and available operative temperature distributions. We examined operative and body temperature distributions of the timber rattlesnake (Crotalus horridus) for evidence of thermoregulation. Specifically, we compared the distribution of available operative temperatures in the environment to snake body temperatures during August and September. Operative temperatures were measured using 48 physical models that were randomly deployed in the environment and connected to a Campbell CR-21X data logger. Body temperatures (n=1,803) were recorded from 12 radiotagged snakes using temperature-sensitive telemetry. Separate randomization tests were conducted for each hour of day within each month. Actual body temperature distributions differed significantly from operative temperature distributions at most time points considered. Thus, C. horridus exhibits a necessary (but not sufficient) condition for demonstrating thermoregulation. However, unlike some desert ectotherms, we found no compelling evidence for thermal constraints on surface activity. Randomization may prove to be a powerful technique for drawing inferences about thermoregulation without reliance on studies of laboratory thermal preference.     

The physiology of hypothermia in the black-capped Chickadee,Parus atricapillus

Summary The shivering, body temperature, and metabolic response to stable and decreasing ambient temperature were measured in winter acclimatized Black-capped Chickadees,Parus atricapillus. Shivering activity, measured by duration and amplitude of bursts, increased curvilinearly from thermoneutral temperatures of 27°C down to 0°C. This parabolic shivering response may be a major component of the curvilinear response of metabolism to decreasing ambient temperature.Birds exposed to 0°C exhibited metabolism 32–45% lower than predicted for a 12-g homeotherm and body temperatures 10°C below the pre-experimental nocturnal body temperature. This hypothermia was not the result of a breakdown in thermoregulation, but was a controlled effort serving to reduce overnight energy expenditure. It is suggested that (1) hypothermia was achieved by decreased shivering by pectoral muscles during exposure to decreasing ambient temperatures, (2) the rate of body temperature decline was moderated by intermittent and reduced bursts during the cooling period, and (3) body temperature was maintained at a particular level during exposure to a stable low ambient temperature by intense bursts lasting one to three minutes.The physiology of hypothermia in chickadees is similar to torpor; however, chickadees did not arouse to a normal diurnal body temperature in the laboratory, and their hypothermia was not induced by inanition or prolonged exposure to cold, as reported for other species capable of torpor.     

5-HT1A受体阻断剂对乙醇引起大鼠低体温和行为性体温调节反应的影响

目的：观察5-羟色胺1A （5-HT_1A）受体阻断剂p-MPPI对乙醇引起大鼠低体温和行为性体温调节反应的影响。方法：用无线遥控测温技术记录成年雄性SD大鼠体核温度和活动的变化。用无线遥测温度梯度仪监测大鼠体核温度和行为性体温调节活动,将大鼠置于15℃~40℃的温度梯度箱内,并允许动物自由选择箱内温度,观察乙醇（3 g/kg）引起低体温和行为性体温调节的反应以及5-HT_1A受体阻断剂p-MPPI （1 mg/kg）对其效应的影响。结果：①乙醇能引起大鼠快速的体温降低反应,同时动物选择较低的环境温度。②5-HT_1A受体阻断剂p-MPPI能明显阻断乙醇引起的低体温和行为性体温调节变化。结论：①乙醇能使体温调定点降低,因为乙醇引起低体温时,大鼠选择较冷环境温度区;②5-HT可能参与乙醇引起低体温与行为性体温调节活动。     

An alternative heat-budget model relevant to heat transfer in fishes and its practical use for detecting their physiological thermoregulation

Previous studies have detected activity-independent fish thermoregulation or conservation mechanisms by applying a mathematical model to body temperature data collected with electronic tags. This model is inadequate, due to its inability to separate quantitatively the effects of physiological thermoregulation from those of physical thermal inertia (the low thermal conductance of the body). In this paper, we have developed an alternative mathematical model that separates these effects. We have then applied it to published electronic tagging data from a large, free-swimming blue shark, Prinoca glauca, to demonstrate physiological thermoregulation. Resultant estimated body-temperature curves indicate that the fish could adjust its whole-body heat-transfer coefficient by changes in arterial blood flow over a range of one order of magnitude. To look at the physical effect on thermoregulation, body temperature for a smaller hypothetical fish was calculated. The estimated temperature was significantly lower than the actual value, indicating that an ectothermic fish like the blue shark cannot achieve physiological thermoregulation without assistance from thermal inertia. In addition, the blue shark returns to cooler depths without recovering its body temperature to the normal surface-temperature level, indicating that this behavior contributes to maximization of the rate of body-temperature recovery. Furthermore, the model indicated that the time for body-temperature recovery is irrelevant to the initial body temperature. Thus, the model made it possible to quantify thermophysiological manipulation. In addition, it was also useful in the comparison of thermoregulatory mechanisms between fishes of different sizes or species.     

On the significance of structural vegetation elements for caterpillar thermoregulation in two peat bog butterflies: Boloria eunomia and B. aquilonaris

Purpose

Temperature profoundly impacts on distribution and habitat-use of organisms. The development of ectothermous caterpillars does not depend on host plant quality only, but also on the availability of suitable thermal conditions. Selection for thermally favorable microclimates (i.e. behavioral thermoregulation) is a primary mechanism of temperature control, and caterpillars can be either (or alternately) temperature conformers (i.e. passively adopting ambient temperature conditions) or thermoregulators (i.e. able to some extent to elevate or decrease their body temperature relative to ambient temperature). Here, we addressed the functional significance of different structural vegetation elements for the behavioral thermoregulation by caterpillars of two butterfly species.

Results

Weather conditions influenced the caterpillar detection probability within host plant patches, indicating that caterpillars can hide and use suitable microclimates provided by vegetation structures to cope with weather variations. This is why we (1) evaluated the heterogeneity in temperature conditions provided by these structures, (2) quantified the influence of ambient temperature and light intensity on caterpillar body temperature, and (3) tested how position on structure, substrate color and exposition influenced caterpillar body temperature. As expected, vegetation structures provided heterogeneous temperature and sun exposition conditions, while caterpillar body temperature was dependent on ambient temperature and light intensity. But body temperature was additionally influenced by the position on vegetation structures, substrate color and exposition.

Conclusions

These results suggest that there is no unique and fixed structure in the vegetation subsuming the best thermal conditions for caterpillars. We argue that a better understanding of the thermal properties of vegetation structures is essential for correctly understanding caterpillar habitat-use and the behavioral mechanisms driving their body thermoregulation. Conceptually this means that thermal conditions should be included in the definition of a species' functional habitat. Practically this may influence the choice of appropriate habitat management for species of conservation concern.     

Production of NO(2) and N(2)O by Nitrifying Bacteria at Reduced Concentrations of Oxygen

Pure cultures of the marine ammonium-oxidizing bacterium Nitrosomonas sp. were grown in the laboratory at oxygen partial pressures between 0.005 and 0.2 atm (0.18 to 7 mg/liter). Low oxygen conditions induced a marked decrease in the rate for production of NO(2), from 3.6 x 10 to 0.5 x 10 mmol of NO(2) per cell per day. In contrast, evolution of N(2)O increased from 1 x 10 to 4.3 x 10 mmol of N per cell per day. The yield of N(2)O relative to NO(2) increased from 0.3% to nearly 10% (moles of N in N(2)O per mole of NO(2)) as the oxygen level was reduced, although bacterial growth rates changed by less than 30%. Nitrifying bacteria from the genera Nitrosomonas, Nitrosolobus, Nitrosospira, and Nitrosococcus exhibited similar yields of N(2)O at atmospheric oxygen levels. Nitrite-oxidizing bacteria (Nitrobacter sp.) and the dinoflagellate Exuviaella sp. did not produce detectable quantities of N(2)O during growth. The results support the view that nitrification is an important source of N(2)O in the environment.     

Induction of Superoxide Dismutase by Molecular Oxygen

Oxygen induces superoxide dismutase in Streptococcus faecalis and in Escherichia coli B. S. faecalis grown under 20 atm of O(2) had 16 times more of this enzyme than did anaerobically grown cells. In the case of E. coli, changing the conditions of growth from anaerobic to 5 atm of O(2) caused a 25-fold increase in the level of superoxide dismutase. Induction of this enzyme was a response to O(2) rather than to pressure, since 20 atm of N(2) was without effect. Induction of superoxide dismutase was a rapid process, and half of the maximal level was reached within 90 min after N(2)-grown cells of S. faecalis were exposed to 20 atm of O(2) at 37 C. S. faecalis did not contain perceptible levels of catalase under any of the growth conditions investigated by Stanier, Doudoroff, and Adelberg (23), and the concentration of catalase in E. coli was not affected by the presence of O(2) during growth. S. faecalis, which had been grown under 100% O(2) and which therefore contained an elevated level of superoxide dismutase, was more resistant of 46 atm of O(2) than were cells which had been grown under N(2). E. coli grown under N(2) contained as much superoxide dismutase as did S. faecalis grown under 1 atm of O(2). The E. coli which had been grown under N(2) was as resistant to the deleterious effects of 50 atm of O(2) as was S. faecalis which had been grown under 1 atm of O(2). These results are consistent with the proposal that the peroxide radical is an important agent of the toxicity of oxygen and that superoxide dismutase may be a component of the systems which have been evolved to deal with this potential toxicity.     

爬行动物胚胎的行为热调节

行为热调节是外温动物体温调节的主要方式。传统观点认为行为热调节仅存在于胚后阶段,然而近年来研究表明爬行动物胚胎具备行为热调节能力。本文回顾了爬行动物胚胎行为热调节的发现和研究进展,探讨了胚胎行为热调节的生态适应意义,分析了胚胎如何感知温度以完成行为热调节,指出了该领域的未来研究方向。     

Climate dependent heating efficiency in the common lizard

Regulation of body temperature is crucial for optimizing physiological performance in ectotherms but imposes constraints in time and energy. Time and energy spent thermoregulating can be reduced through behavioral (e.g., basking adjustments) or biophysical (e.g., heating rate physiology) means. In a heterogeneous environment, we expect thermoregulation costs to vary according to local, climatic conditions and therefore to drive the evolution of both behavioral and biophysical thermoregulation. To date, there are limited data showing that thermal physiological adjustments have a direct relationship to climatic conditions. In this study, we explored the effect of environmental conditions on heating rates in the common lizard (Zootoca vivipara). We sampled lizards from 10 populations in the Massif Central Mountain range of France and measured whether differences in heating rates of individuals correlated with phenotypic traits (i.e., body condition and dorsal darkness) or abiotic factors (temperature and rainfall). Our results show that heat gain is faster for lizards with a higher body condition, but also for individuals from habitats with higher amount of precipitation. Altogether, they demonstrate that environmentally induced constraints can shape biophysical aspects of thermoregulation.     

Pharmacological studies on the behavioral thermoregulation in the salamander necturus maculosus

The aquatic salamander Necturus maculosus was tested as a model for investigations of behavioral thermoregulatory responses to drugs which modify thermoregulation in endotherms. Animals were acclimatized to 15°C and an LD 12:12 photoperiod and placed in linear thermal gradients (5° to 30–35°C). Drugs were given each day for two days and deep body temperature monitored with trailing thermocouples. Prostaglandin E₁ produced a pronounced long-lasting behavioral hyperthermia. Melatonin and chlorpromazine caused significant falls in mean selected temperature (MST). Oxotremorine and ethanol were without effect on MST, while scopolamine treatment resulted in decreased MST on Day 1 and a increase on Day 2. Neurotensin produced hyperthermia on Day 2, but not on Day 1, an effect opposite that found with mammals. Capsaicin caused a pronounced decreased in MST on Day 1, followed by hyperthermia on Day 2, a response similar to that observed in mammals. The use of ectothermic animal models for investigation of behavioral thermal responses to those pharmacological agents which influence thermoregulation in endotherms may lead to a better understanding of the evolution of vertebrate temperature regulation.     

Thermoregulation in the Red-beillied Blacksnake, Pseudechis porphyriacus (Elapidae)

Cold Pseudechis porphyriacus aid heating by basking, flattening and tilting. When body temperatures are higher, thermoregulation is achieved by shuttling between sun and shade. A warm snake in a cooling environment frequently coils.
The major factors associated with rate of temperature change in the body core were (1) horizontal gradient between body and neck, (2) posture and (3) vertical gradients from body core to body surface.
The role of behavioral, physiological and physical factors in thermoregulation are discussed.