Inability of adult Limnodynastes peronii (Amphibia: Anura) to thermally acclimate locomotor performance

Despite several studies on adult amphibians, only larvae of the striped marsh frog (Limnodynastes peronii) have been reported to possess the ability to compensate for the effects of cool temperature on locomotor performance by thermal acclimation. In this study, we investigated whether this thermal acclimatory ability is shared by adult L. peronii. We exposed adult L. peronii to either 18 or 30 degrees C for 8 weeks and tested their swimming and jumping performance at six temperatures between 8 and 35 degrees C. Acute changes in temperature affected both maximum swimming and jumping performance, however there was no difference between the two treatment groups in locomotor performance between 8 and 30 degrees C. Maximum swimming velocity of both groups increased from 0.62+/-0.02 at 8 degrees C to 1.02+/-0.03 m s(-1) at 30 degrees C, while maximum jump distance increased from approximately 20 to >60 cm over the same temperature range. Although adult L. peronii acclimated to 18 degrees C failed to produce a locomotor response at 35 degrees C, this most likely reflected a change in thermal tolerance limits with acclimation rather than modifications in the locomotor system. As all adult amphibians studied to date are incapable of thermally acclimating locomotor performance, including adults of L. peronii, this acclimatory capacity appears to be absent from the adult stage of development.     

Evolution of thermal sensitivity of ectotherm performance

Most ectothermal animals have variable body temperatures. Because physiological rates are temperature sensitive, an ectotherm's behavioural and ecological performance - even its fitness - can be influenced by body temperature. As a result, the thermal sensitivity of ectotherm performance is relevant to diverse issues in physiology, ecology and evolution. This review formalizes an emerging framework for investigating the evolution of thermal sensitivity, outlines some functional and genetical constraints on that evolution, and summarizes comparative and experimental advances in this field.     

Putting ourselves in a striped snake's shoes: thermal sensitivity of locomotor performance in a melanistic/striped colour-dimorphic snake

Intermorph differences of thermoregulatory abilities in colour-polymorphic (dimorphic) species have been demonstrated in many ectotherms. Usually, these studies reported slower body warming in pale-coloured morphs than in dark-coloured morphs. Under this circumstance, one way in which pale-coloured individuals can manage their slower body warming is to perform better at lower temperatures than dark-coloured individuals. If this is the case, the former need not necessarily raise their body temperature to the same level as the latter. Based on this scenario, intermorph differences in thermal sensitivity of performance were examined using the melanistic/striped colour-dimorphic snake Elaphe quadrivirgata as a model species. As an indication of performance capability, the crawling speed was measured at several temperatures. Although striped individuals exhibited slower body warming than melanistic individuals under experimental conditions, the former did not exhibit faster crawling speed than the latter at lower temperatures. Shape and position of the performance curve were almost identical between melanistic and striped individuals, indicating a highly static nature in thermal sensitivity of crawling. Coupled with the results of field studies, it is suggested that striped individuals manage their slower body warming by efforts of behavioural thermoregulation. The possible significance of ecological performance in the wild was discussed.     

鼎突多刺蚁热适应及运动行为的热依赖性

将鼎突多刺蚁(Polyrhachis vicina)分别置于15、20、25和30℃的恒温恒湿培养箱内,对其热适应及运动行为的热依赖性进行了研究。驯化2周后,采用温度梯度仪测量其热适应参数,并选用停顿频率(PF)、疾跑速度(SS)和最大持续运动距离(MDCCL)来衡量其运动能力。结果表明,驯化温度对鼎突多刺蚁的热适应和运动行为有极显著影响(P<0.01)。最适温度(PT)、临界低温(CLT)、临界高温(CHT)随驯化温度(AT)的升高而增大,最终适温为30.54℃,临界低温不低于3℃,临界高温不高于45℃;经过高温驯化的鼎突多刺蚁的运动能力显著大于经过低温驯化的个体运动能力,驯化温度与疾跑速度、最大持续运动距离呈显著的正相关,而与停顿频率呈极显著的负相关。     

多疣壁虎的体温调节及运动能力热依赖性

本文测定了多疣壁虎(Gekko japonicus)的野外活动体温、喜好体温以及运动能力热依赖性,探讨夜行性蜥蜴的体温调节及其对动物功能表达的作用。在自然条件下,多疣壁虎的活动体温存在明显的月份间差异,但无性别和年龄间的差异。在实验室条件下,怀卵雌体(29.8℃)和幼体(29.9℃)的喜好体温显著高于非怀卵雌体(28.5℃)和雄体(28.2℃)。体温能显著影响多疣壁虎的运动能力,在15℃-34℃范围内,其平均跑速随体温上升而加快,超过34℃后则随体温升高而减慢。多疣壁虎的平均跑速及其热敏感性无显著的年龄组间差异。在夜间活动期,雄体、非怀卵雌体和幼体的体温调节有效度低,而怀卵雌体的体温调节有效度则较高。结果显示怀卵雌体的体温调节较非怀卵雌体和雄体更精确     

Effect of thermal acclimation on thermal preference,resistance and locomotor performance of hatchling soft-shelled turtle

The significant influence of thermal acclimation on physiological and behavioral performance has been documented in many ectothermic animals, but such studies are still limited in turtle species. We acclimated hatchling soft-shelled turtles Pelodiscus sinensis under three thermal conditions （10, 20 and 30~C） for 4 weeks, and then measured selected body temperature （Tsel）, critical thermal minimum （CTMin） and maximum （CTM~x）, and locomotor performance at different body temperatures. Thermal acclimation significantly affected thermal preference and resistance of P sinensis hatchlings. Hatchling turtles accli- mated to 10~C selected relatively lower body temperatures and were less resistant to high temperatures than those acclimated to 20~C and 30~C. The turtles＇ resistance to low temperatures increased with a decreasing acclimation temperature. The thermal re- sistance range （i.e. the difference between CTM~x and CTMin, TRR） was widest in turtles acclimated to 20~C, and narrowest in those acclimated to 10~C. The locomotor performance of turtles was affected by both body temperature and acclimation tem- perature. Hatchling turtles acclimated to relatively higher temperatures swam faster than did those acclimated to lower temperatures. Accordingly, hatchling turtles acclimated to a particular temperature may not enhance the performance at that temperature. Instead, hatchlings acclimated to relatively warm temperatures have a better performance, supporting the ＂hotter is better＂ hypothesis.     

The thermal dependency of locomotor performance evolves rapidly within an invasive species

Biological invasions can stimulate rapid shifts in organismal performance, via both plasticity and adaptation. We can distinguish between these two proximate mechanisms by rearing offspring from populations under identical conditions and measuring their locomotor abilities in standardized trials. We collected adult cane toads (Rhinella marina) from invasive populations that inhabit regions of Australia with different climatic conditions. We bred those toads and raised their offspring under common‐garden conditions before testing their locomotor performance. At high (but not low) temperatures, offspring of individuals from a hotter location (northwestern Australia) outperformed offspring of conspecifics from a cooler location (northeastern Australia). This disparity indicates that, within less than 100 years, thermal performance in cane toads has adapted to the novel abiotic challenges that cane toads have encountered during their invasion of tropical Australia.     

Wearing a cooling jacket during exercise reduces thermal strain and improves endurance exercise performance in a warm environment

The aim of the present study was to investigate the effect of wearing a cooling jacket on thermoregulatory responses and endurance exercise performance in a warm environment. Nine untrained male subjects cycled for 60 minutes at 60% Vo(2)max (Ex1) and then immediately exercised to exhaustion at 80% Vo(2)max (Ex2) in 32.0 +/- 0.2 degrees C and 70-80% relative humidity. Four separate conditions were set during exercise: no water intake (NW), water intake (W), wearing a cooling jacket (C) and the combination of C and W (C+W). Rectal temperatures (T(re)) before Ex1 were not different between the 4 conditions, whereas at the end of Ex1 T(re) of C+W was significantly lower than the C and W (p < 0.05). Mean skin temperature (T(sk)) was significantly lower in C and C+W than the NW and W during Ex1. Heart rate of C and C+W were significantly lower than the NW and W, and rating of perceived exertion (RPE) in C+W was lower than in the other conditions. Exercise time to exhaustion was significantly longer in C+W than in the other conditions (NW < W, C < C+W; p < 0.05), whereas T(re) at exhaustion was not different. Our results indicate that the combination of wearing a cooling jacket and water intake enhances exercise endurance performance in a warm environment because of a widened temperature margin before the critical limiting temperature is reached and also because of decreased thermoregulatory and cardiovascular strain.     

Consequences of metamorphosis for the locomotor performance and thermal physiology of the newt Triturus cristatus

During metamorphosis, most amphibians undergo rapid shifts in their morphology that allow them to move from an aquatic to a more terrestrial existence. Two important challenges associated with this shift in habitat are the necessity to switch from an aquatic to terrestrial mode of locomotion and changes in the thermal environment. In this study, I investigated the consequences of metamorphosis to the burst swimming and running performance of the European newt Triturus cristatus to determine the nature and magnitude of any locomotor trade-offs that occur across life-history stages. In addition, I investigated whether there were any shifts in the thermal dependence of performance between life-history stages of T. cristatus to compensate for changes in their thermal environment during metamorphosis. A trade-off between swimming and running performance was detected across life-history stages, with metamorphosis resulting in a simultaneous decrease in swimming and increase in running performance. Although the terrestrial habitat of postmetamorphic stages of the newt T. cristatus experienced greater daily fluctuations in temperature than the aquatic habitat of the larval stage, no differences in thermal sensitivity of locomotor performance were detected between the larval aquatic and postmetamorphic stages. The absence of variation across life-history stages of T. cristatus may indicate that thermal sensitivity may be a conservative trait across ontogenetic stages in amphibians, but further studies are required to investigate this assertion.     

Local adaptation of reproductive performance during thermal stress

Considerable evidence exists for local adaptation of critical thermal limits in ectotherms following adult temperature stress, but fewer studies have tested for local adaptation of sublethal heat stress effects across life‐history stages. In organisms with complex life cycles, such as holometabolous insects, heat stress during juvenile stages may severely impact gametogenesis, having downstream consequences on reproductive performance that may be mediated by local adaptation, although this is rarely studied. Here, we tested how exposure to either benign or heat stress temperature during juvenile and adult stages, either independently or combined, influences egg‐to‐adult viability, adult sperm motility and fertility in high‐ and low‐latitude populations of Drosophila subobscura. We found both population‐ and temperature‐specific effects on survival and sperm motility; juvenile heat stress decreased survival and subsequent sperm motility and each trait was lower in the northern population. We found an interaction between population and temperature on fertility following application of juvenile heat stress; although fertility was negatively impacted in both populations, the southern population was less affected. When the adult stage was also subject to heat stress, the southern population exhibited positive carry‐over effects whereas the northern population's fertility remained low. Thus, the northern population is more susceptible to sublethal reproductive consequences following exposure to juvenile heat stress. This may be common in other organisms with complex life cycles and current models predicting population responses to climate change, which do not take into account the impact of juvenile heat stress on reproductive performance, may be too conservative.     

热驯化对鼎突多刺蚁热适应和运动行为的影响

为比较恒温和变温驯化对鼎突多刺蚁（Polyrhachis vicina Roger）热适应和运动行为的影响,将鼎突多翅蚁分别在15℃恒温和13.4～21.6℃变温下进行驯化,定量分析两种驯化温度对鼎突多翅蚁热适应和运动行为的影响.结果表明,恒温和变温驯化对鼎突多刺蚁的最适温度、逃避高温、运动中的停顿频率、疾跑速度、最大持续运动距离均有显著影响（p＜0.01）,而对逃避低温的影响不显著（p=0.343）;变温驯化后鼎突多刺蚁的最适温度仅有一个峰值,这不符合最适性模型的预测;恒温和变温驯化下鼎突多刺蚁的疾跑速度与最大持续运动距离都呈显著的正相关（分别为p=0.017和p＜0.001）,且经过变温驯化的鼎突多刺蚁的运动能力明显强于恒温驯化下个体的运动能力.     

The effect of fostering on the genetic expression of locomotor sensitivity to alcohol

Steps were taken to eradicate endemic mouse coronavirus from a colony that was part of a behavioral project characterizing the genetics of alcohol sensitivity. This behavioral study was conducted to determine whether changing the uterine or rearing environment (as is integral to common rederivation methods) would have a significant effect on the expression of the behavioral traits in question. Selected breeding pairs of the affected lines were divided into four treatment groups: 1) transfer of embryos to pseudopregnant B6D2F1 female mice, 2) fostering offspring to B6D2F1 dams, 3) fostering offspring to a different dam of the same line, and 4) offspring raised by the birth dam. Embryo transfers were successful only in one affected line. At approximately 50 days of age, the offspring were tested for locomotor behavior after intraperitoneal administration of ethanol or normal saline. There were no statistically significant effects of embryo transfer on the ethanol phenotype (ethanol-induced locomotor depression). Fostering significantly reduced the stimulant response to ethanol of only one mouse line selectively bred for high sensitivity to ethanol-induced stimulation, although the stimulant response of the fostered groups was still quite robust. Overall, the results of this study showed that eradication efforts involving fostering of offspring have a modest impact on the stimulant response to ethanol, but there were insufficient data to draw conclusions regarding the use of embryo transfer.     

Regional distribution of thermal sensitivity to cold at rest and during mild exercise in males

Although several studies have compared thermal sensitivity between body segments, little is known on regional variations within body segments. Furthermore, the effects of exercise on the thermal sensation resulting from a cold stimulus remain unclear. The current experiment therefore aimed to explore inter- and intra-segmental differences in thermal sensitivity to cold, at rest and during light exercise. Fourteen male participants (22.3±3.1 years; 181.6±6.2 cm; 73.7±10.3 kg) were tested at rest and whilst cycling at 30% VO_2 max. Sixteen body sites (front torso=6; back=6; arms=4) were stimulated in a balanced order, using a 20 °C thermal probe (25 cm²) applied onto the skin. Thermal sensations resulting from the stimuli were assessed using an 11-point cold sensation scale (0=not cold; 10=extremely cold). Variations were found within body segments, particularly at the abdomen and mid-back where the lateral regions were significantly more sensitive than the medial areas. Furthermore, thermal sensations were significantly colder at rest compared to exercise in 12 of the 16 body sites tested. Neural and hormonal factors were considered as potential mechanisms behind this reduction in thermal sensitivity. Interestingly, the distribution of cold sensations was more homogenous during exercise. The present data provides evidence that thermal sensitivity to cold varies within body segments, and it is significantly reduced in most areas during exercise.     

The effect of hypoxia on locomotor performance and behaviour during escape in Liza aurata

Escape performance was investigated in the golden grey mullet Liza aurata exposed to various levels of oxygen: >85 ( i.e. normoxia), 50, 20 and 10 % air saturation. Since the golden grey mullet performed aquatic surface respiration when air saturation approached 15–10 %, escape performance was tested at 10 % air saturation with and without access to the surface (10 % S and 10 % C, respectively). Various locomotor and behavioural variables were measured, such as cumulative distance, maximum swimming speed, acceleration, responsiveness (per cent of responding fish), response latency and directionality. Golden grey mullet showed a decrease in responsiveness when the oxygen level was reduced to 10 % air saturation, whether the surface access was obstructed or not. Hypoxia did not have any effect on the response latency. Cumulative distance and maximum swimming speed over a fixed time were significantly different between normoxic conditions and 10 % C, while no differences were found in maximum acceleration. While the fish's 'C‐bend' was mainly directed away from the stimulus in normoxia, the proportion of away and towards 'C‐bend' was random when the oxygen was ≤20 % air saturation. This suggested an impairment of the left‐right discrimination at the initiation of the fast start. Hypoxia affected golden grey mullet escape performance mainly through an impairment of responsiveness and directionality, while locomotor performance was affected only in severe hypoxia when the surface was obstructed. The study showed that, in addition to forcing the fish to the surface as shown by previous studies, hypoxia may also reduce fish elusiveness facing a predator by directly impairing its escape performance.     

Variation in thermal sensitivity of performance among colour morphs of a pygmy grasshopper

Populations of pygmy grasshoppers, Tetrix subulata, display genetically coded discrete variation in colour pattern and there are differences among morphs in the capacity to achieve body heating. To determine whether colour morphs differ in thermal physiology, I assessed reaction distance and jumping performance of individuals belonging to different morphs at two different temperatures. Individuals allowed a potential predator to approach less closely and jumped longer distances at high than at low temperature. My analyses also uncovered variation among morphs in average reaction distance and jumping capacity, as well as in thermal sensitivity of these two traits. Matrix correlation analysis further revealed that pair-wise differences between morphs in thermal sensitivity of jumping performance (but not reaction distance) could be accurately predicted by differences in body temperatures preferred in a laboratory thermal gradient. These results support the view that morphology, behaviour and thermal physiology of ectotherms may evolve in concert. The relationship between reaction distance and jumping performance varied among colour morphs at high temperature, and the common within-morph relationship between these two traits deviated from the corresponding among-morph relationship. This suggests that the variation among morphs has partially arisen through active divergence, with selection having influenced both traits and modifications having occurred to different degrees in different morphs. My data further suggest that pale colour morphs, with a limited capacity to attain high body temperatures, may not necessarily be at a selective disadvantage, because their physiology may be adapted to lower body temperatures.     

Ontogenetic and sexual differences of thermal biology and locomotor performance in a lacertid lizard,Eremias multiocellata

A viviparous lizard, Eremias multiocellata, was used to investigate the possible sexual and ontogenetic effects on selected body temperature, thermal tolerance range and the thermal dependence of locomotor performance. We show that adults are sexually dimorphic and males have larger bodies and heads than females. Adults selected higher body temperatures (34.5 vs. 32.4 °C) and could tolerate a broader range of body temperatures (8.1–46.8 vs. 9.1–43.1 °C) than juveniles. The sprint speed and maximum sprint distance increased with temperature from 21 °C to 33 °C, but decreased at 36 °C and 39 °C in both juveniles and adults. Adults ran faster and longer than juveniles at each tested temperature. Adult locomotor performance was not correlated with snout–vent length (SVL) or sex, and sprint speed was positively correlated with hindlimb length. Juvenile locomotor performance was positively correlated with both SVL and hindlimb length. The ontogenetic variation in selected body temperature, thermal tolerance and locomotor performance in E. multiocellata suggests that the effects of morphology on temperature selection and locomotor performance vary at different ontogenetic stages.     

Cryopreservation of human failed maturation oocytes shows that vitrification gives superior outcomes to slow cooling

This study investigated whether failed maturation oocytes could be used to evaluate different cryopreservation procedures. A total of 289 failed maturation oocytes (GV and MI stages), obtained from 169 patients undergoing IVF treatment (mean age 33.84 ± 5.0) were divided into two different slow-cooling groups (1.5 mol/l 1,2-propanediol + 0.2 mol/l sucrose in either NaCl (group A) or choline chloride (ChCl) (group B) based cryopreservation solutions) and one vitrification group (15% ethylene glycol + 15% dimethyl sulphoxide). Survival rate, in vitro maturation (IVM) rate, fertilization and developmental rate of cryopreserved oocytes were assessed. Regardless of the stage at which cryopreservation was performed (GV + MI), the slow cooling with ChCl based medium always gave significantly lower survival rate than the slow cooling in NaCl based medium (p = 0.01) and vitrification (p < 0.001). An extended study also showed statistically reduced survival rate between slow-cooling NaCl based medium and vitrification (p < 0.05). Global results of in vitro maturation and fertilization showed worse results between both slow-cooling NaCl and ChCl based media versus vitrification. In conclusion, for oocytes that had failed to mature, vitrification gave better survival, maturation, fertilization and also cleavage rates than the slow-cooling protocols. Four cells embryos were obtained only from vitrified in vitro matured MI oocytes.