Understanding soaring bird migration through interactions and decisions at the individual level

Many soaring bird species migrate southwards in autumn from their breeding grounds in Europe and Central Asia towards their wintering grounds. Our knowledge about interactions between migrating birds, thermal selection during migration and mechanisms that lead to flocking or convergent travel networks is still very limited. To start investigating these aspects we developed an individual-based simulation model that describes the local interactions between birds and their environment during their migratory flight, leading to emergent patterns at larger scales. The aim of our model is to identify likely decision rules with respect to thermal selection and navigation. After explaining the model, it is applied to analyse the migration of white storks (Ciconia ciconia) over part of its migration domain. A model base-run is accompanied by a sensitivity analysis. It appears that social interactions lead to the use of fewer thermals and slight increases in distance travelled. Possibilities for different model extensions and further model application are discussed.     

Low temperature thresholds: are chill coma and CT(min) synonymous?

The effects of sub-lethal low temperatures on insect physiology and behaviour are important determinants of insect activity including foraging, mating, and predation avoidance. A substantial body of research seeks to relate the temperatures at which these activities are compromised to both, climatic conditions at species range limits and underlying physiological processes. The interpretation of this research is complicated by confusion in the names and definition of the responses measured and their associated temperature thresholds. The development of the nomenclature and explanations of the underlying physiological causes are reviewed in order to elucidate the correct sequence of responses/thresholds and associated terminologies. The results of this analysis indicate that: (1) chill coma is a clearly defined, reversible physiological state characterised by the absence of electrophysiological activity. (2) The onset of chill coma begins when low temperatures begin to impair insect behaviour and physiology, and is punctuated by a series of behavioural and/or physiological thresholds or responses. These include the temperatures at which (i) spontaneous movements cease, (ii) coordination is lost to the degree that locomotion becomes impossible, and (iii) chill coma is entered. (3) Confusion has arisen because (a) the term ‘onset of chill coma’ has been used to describe all three of these responses/thresholds and (b) the term CT_min has entered the insect literature from the vertebrate literature. These issues are discussed and a potential solution is proposed to provide clarity and consistency in the future literature.     

Synthesis and biophysical characterization of R-6'-Me-α-L-LNA modified oligonucleotides

The synthesis and biophysical properties of R-6′-Me-α-l-LNA, which has a methyl group in the (R) configuration on the 2′,4′-bridging substituent of α-l-LNA, is reported. The synthesis of the uracil nucleobase phosphoramidite was efficiently accomplished in 14 steps and 8 chromatographic purifications starting from a known sugar intermediate. Biophysical evaluation revealed that substitution along the edge of the major groove does not impair the high affinity duplex forming ability of α-l-LNA modified oligonucleotides.     

Thermoregulatory responses of lower limb amputees during exercise in a hot environment

Lower limb amputees (LLAs) have less skin surface required for sweating; thus, the ability to dissipate heat from the body may decrease and the risk of heat illness may increase during exercise in a hot environment. However, no study has compared the thermoregulatory responses during exercise between LLAs and able-body (AB) individuals with different body surface areas. This study aimed to compare the thermoregulatory responses of LLAs with those of AB individuals during exercise in a hot environment. Seven LLAs (LLA group) and 7 able-body individuals (AB group) participated in the study. A 60% peak power output of arm crank upper-body exercise was performed for 60 min in a hot environment (32 °C, 50% relative humidity). There was no difference in the increase in rectal temperature (LLA: 0.8 ± 0.2 °C, AB: 0.8  ± 0.2 °C) and mean skin temperature between the groups during the 60-min exercise. In the LLA group, the accumulated local sweat rate of the thigh during exercise was significantly higher on the non-cut side than on the cut side (64.6 ± 43.0 mg/h vs. 37.0 ± 27.2 mg/h, p < 0.05). The total sweat rate was significantly higher in the LLA group than in the AB group (1.18 ± 0.37 kg/h vs. 0.84 ± 0.10 kg/h, p < 0.05). Thermal sensation and comfort were lower in the LLA group than in the AB group. Different heat loss responses were observed in the AB and LLA groups during exercise in the heat. The LLA group compensates for sweating on the cut side due to an increase in sweat loss on the intact limb, thereby preserving appropriate thermoregulation during exercise.     

Body temperature and time of day both affect nocturnal lizard performance: An experimental investigation

The locomotor performance of reptiles is profoundly influenced by temperature, but little is known about how the time of day when the animal is usually active may influence performance. Time of day may be particularly relevant for studies on nocturnal reptiles that thermoregulate by day, but are active at night when ambient temperatures are cooler. If selection favours individuals that match their performance to activity times, then nocturnal species should perform better during the night, when they are normally active, than during the day. To test this hypothesis, we investigated how the time of day and body temperature affected the locomotor performance of adult females of the velvet gecko (Amalosia lesueurii). We measured the sprint speeds, running speeds and number of stops of 43 adult females at four different body temperatures (20, 25, 30 and 35 °C) during the day and at night. At night, sprint speeds were higher at 20 and 35 °C but sprint speeds were similar at 25 and 30 °C. By day, sprint speed increased with body temperature, peaking at 30 °C, before declining at 35 °C. However, gecko speeds over 1 m was higher at night at all four test temperatures than by day. Number of stops showed broadly similar patterns and females stopped almost twice as often on the racetrack during the day than they did at night. Furthermore, the thermal breadth of performance differed depending on when geckos were tested. Our results demonstrate that both body temperature and the time of day affects the behaviour and locomotor performance of female velvet geckos, with geckos running faster at night, the time of day when they are usually active. This study adds to evidence that both body temperature and the time of day are crucial for estimating the performance of ectotherms and evaluations and predictions of their vulnerability to climate warming should consider the context of laboratory experimental design.     

Genome wide gene-expression analysis of facultative reproductive diapause in the two-spotted spider mite Tetranychus urticae

Background

Diapause or developmental arrest, is one of the major adaptations that allows mites and insects to survive unfavorable conditions. Diapause evokes a number of physiological, morphological and molecular modifications. In general, diapause is characterized by a suppression of the metabolism, change in behavior, increased stress tolerance and often by the synthesis of cryoprotectants. At the molecular level, diapause is less studied but characterized by a complex and regulated change in gene-expression. The spider mite Tetranychus urticae is a serious polyphagous pest that exhibits a reproductive facultative diapause, which allows it to survive winter conditions. Diapausing mites turn deeply orange in color, stop feeding and do not lay eggs.

Results

We investigated essential physiological processes in diapausing mites by studying genome-wide expression changes, using a custom built microarray. Analysis of this dataset showed that a remarkable number, 11% of the total number of predicted T. urticae genes, were differentially expressed. Gene Ontology analysis revealed that many metabolic pathways were affected in diapausing females. Genes related to digestion and detoxification, cryoprotection, carotenoid synthesis and the organization of the cytoskeleton were profoundly influenced by the state of diapause. Furthermore, we identified and analyzed an unique class of putative antifreeze proteins that were highly upregulated in diapausing females. We also further confirmed the involvement of horizontally transferred carotenoid synthesis genes in diapause and different color morphs of T. urticae.

Conclusions

This study offers the first in-depth analysis of genome-wide gene-expression patterns related to diapause in a member of the Chelicerata, and further adds to our understanding of the overall strategies of diapause in arthropods.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-14-815) contains supplementary material, which is available to authorized users.     

Investigation on supraphysiological thermal injury in two well-differentiated human hepatoma cell lines,HepG2 and Hep3B

Hyperthermia is a promising treatment for carcinoma cells. The thermal injuries of two hepatoma carcinoma cell lines with the identical cytological grade, HepG2 and Hep3B cell lines, were investigated systematically in the present study. The homemade heating stage was used to provide a constant temperature between 40 and 70 °C for thermal treatment. When the cells were exposed to temperatures ranging from 40 to 45 °C, Hep3B cells had a lower thermotolerance than the HepG2 cells; however, the survival rate of these two cell lines was still high. The differences in thermotolerance between HepG2 and Hep3B cells were more significant at the range of 50–55 °C than those at lower-level temperatures of 40–45 °C. Furthermore, the viability of the cells was less than 10% when they were exposed to a supraphysiological temperature of 60 °C for 5 min; these cell lines suffered from injury saturation under that thermal treatment. The statistical analysis also concluded that Hep3B cells are more susceptible to heat stress than are the HepG2 cells when subjected to the thermal treatment applied in this work, the exception being when thermal injury saturation occurred. The kinematic parameters of the activation energy and frequency factor for HepG2 and Hep3B cells were also quantitatively determined herein. The activation energies (ΔE) for HepG2 and Hep3B cells were 170.17 and 152.44 kJ/mol, respectively. Furthermore, the frequency factors (A) for HepG2 and Hep3B cells were 4.11×10²⁴ and 1.07×10²² s⁻¹, respectively.     

Neurokinin-1 receptor in peripheral nerve terminals mediates thermal hyperalgesia

Neurokinin-1 receptor (NK-1) plays an important role in nociception. The present study was to explore whether activation of peripheral NK-1 receptor, especially expressed on primary sensory afferents, could induce hyperalgesia and sensitize C-type sensory afferents. (1) Intraplantar administration of NK-1 agonist [Sar9, Met(O2)11]SP (Sar-SP, 0.2, 1 nmol, 20 microl) produced significant thermal hyperalgesia and edema, which was blocked by co-injection of NK-1 antagonist WIN51,708 (10 nmol). But in the rats with compound 48/80 treatment for mast cell depletion, the Sar-SP-induced edema, but not hyperalgesia, was attenuated. (2) Close-arterial injection of Sar-SP (1 nmol, 0.1 ml) excited and sensitized sensory C afferents of the sural nerve to heat stimuli. The results suggest involvement of NK-1 receptors expressed on the peripheral afferent terminals in thermal hyperalgesia mediated by directly sensitizing C-type sensory afferents.     

长江下游重点江段水质污染及对鱼类的毒性影响

通过对长江下游安庆,南京,镇江和长江口4江段水质及其对鱼类毒性影响的调查发现,长江下游江段主航道的水质符合国家地面II类标准,但近岸的污染带水质受到一定程度的污染,其主要污染物为石油烃类和挥发酚等,这些污染物对鱼类有一定的毒性影响,可引起鱼类的急性中毒,并可诱导鱼类产生微核,同时在上述几个江段内的鱼体内可检出较高的污染物残留,这表明长江下游江段已受到不同程度的污染,这种污染对区域性渔业有影响。     

Beyond average: an experimental test of temperature variability on the population dynamics of <Emphasis Type="Italic">Tribolium confusum</Emphasis>

The relationship between ectotherm ecology and climatic conditions has been mainly evaluated in terms of average conditions. Average temperature is the more common climatic variable used in physiological and population studies, and its effect on individual and population-level processes is well understood. However, the intrinsic variability of thermal conditions calls attention to the potential effects that this variability could have in ecological systems. Regarding this point, two hypotheses are proposed. From the allocation principle, it may be inferred that if temperature variability is high enough to induce stress in the organisms, then this extra-cost should reduce the energetic budget for reproduction, which will be reflected in population parameters. Moreover, a mathematical property of non-linear functions, Jensen’s inequality, indicates that, in concave functions, like the temperature–reproduction performance function, variability reduces the expected value of the output variable, and again modifies population parameters. To test these hypotheses, experimental cultures of Tribolium confusum under two different thermal variability regimens were carried out. With these data, we fitted a simple population dynamics model to evaluate the predictions of our hypothesis. The results show that thermal variability reduces the maximum reproductive rate of the population but no other parameters such as carrying capacity or the nonlinear factor in a nonlinear version of the Ricker model, which confirms our hypotheses. This result has important consequences, such as the paradoxical increase in population variability under a decrease in thermal variability and the necessary incorporation of climatic variability to evaluate the net effect of climate change on the dynamics of natural populations.