Population growth and intrinsic rate of natural increase of the high arctic nematode Chiloplacus sp. at low and high temperatures

Summary Population growth of the High Arctic free-living soil nematode Chiloplacus sp. was measured at 0°, 2°, 5°, 10°, 15°, 20° and 25° C. The corresponding values of the intrinsic rate of natural increase, r, were 0, 0.0178, 0.0605, 0.0823, 0.1216, 0.1384 and 0.2131 respectively. The relation of r to temperature is described by the function r=0.0088+0.0075T. Chiloplacus sp. grows and reproduces at lower temperatures than do many other nematodes, and has shorter generation times at comparable low temperatures, suggesting rate compensation to low temperature.     

Nocturnal lizards from a cool-temperate environment have high metabolic rates at low temperatures

Ectotherms from low-temperature environments have higher metabolic rates at low temperatures than those from warm-temperature environments. We predicted that nocturnal lizards, which are active at much lower environmental temperatures than diurnal lizards, would also have higher metabolic rates at low temperatures, and by association a lower thermal sensitivity (Q ₁₀) than diurnal and crepuscular lizards. We measured the rate of oxygen consumption ( [(V)\dot]\textO ₂ \dot{V}{\text{O}}_{ 2} ) of eight cool-temperate species of lizard (four nocturnal, three diurnal, and one crepuscular) at 13 and 26°C and analyzed log transformations of these data using log mass as a covariate. As expected, [(V)\dot]\textO ₂ \dot{V}{\text{O}}_{ 2} was positively correlated with temperature in all eight species, with [(V)\dot]\textO ₂ \dot{V}{\text{O}}_{ 2} being two to four times higher at 26°C than at 13°C. As predicted, at 13°C (but not 26°C) the [(V)\dot]\textO ₂ \dot{V}{\text{O}}_{ 2} was significantly higher in nocturnal than diurnal lizards. Species-specific differences and mass scaling factors explain the patterns of thermal sensitivity seen among these eight lizard species. Thermal sensitivity is strongly influenced by mass, with smaller species generally having higher thermal sensitivity of their metabolic rate, and this result deserves further exploration among other ectotherms. We conclude that, along with the previously reported lower cost of locomotion found in nocturnal lizards, they also partially offset the thermal handicap of activity at low body temperatures by having an elevated [(V)\dot]\textO ₂ \dot{V}{\text{O}}_{ 2} at lower temperatures.     

Respiration and germination rates of tomato seeds at suboptimal temperatures and reduced water potentials

Suboptimal temperature (T) affects germination rates (reciprocalof time to radicle emergence) on a thermal time basis; thatis, the T in excess of a base or minimum temperature multipliedby the time to a given per cent germination [t_g) is a constant.Respiration rates are also sensitive to T, and proportionalrelationships are often found between respiration rates andgermination rates. Reduced water potential () delays seed germinationon a hydrotime basis (i.e. the in excess of a base water potentialmultiplied by t_g is a constant). It was tested whether respirationrates prior to radicle emergence vary in proportion to T and as expected from the thermal and hydrotime models. Respirationrates (C0₂ evolution) of cold-tolerant, rapidly germinating(PI 341988) and cold-sensitive, more slowly germinating (T5)tomato [Lycopersicon esculentum Mill.) seeds were evaluatedover a range of T and conditions. For both genotypes, respirationrates until the beginning of radicle emergence were relatedto T on a thermal time basis and increased approximately linearlywith above -2.0 MPa, consistent with the hydrotime model. Respirationrates were uniquely related to germination rates, regardlessof whether germination timing was affected by T, , or genotype.However, germination timing was unaffected when respirationrates were manipulated by varying 0₂ partial pressure. Thus,while both germination and respiration rates vary with T and consistent with thermal and hydrotime models of biologicaltime, respiration rates per se were not the limiting factorin germination timing of tomato seeds. Key words: Lycopersicon esculentum Mill., tomato, germination, respiration, temperature, water potential     

Male sterility at high and low temperatures in Drosophila

It is well known that in Mammals, spermatogenesis requires a temperature lower than that of the body. In Ectotherms, for example in Insects, male sterility/ fertility according to environmental conditions also remains a neglected field. In Drosophila melanogaster, a complete male sterility after development at 30 degrees C was described in 1971. A similar phenomenon, observed at low temperature, was described two years later. Recent comparative investigations have shown that what was found in D. melanogaster was also valid in other species. In each case, it is possible to define a range of temperatures compatible with a complete development. According to the investigated species, however, this range is very variable, for example 6-26 degrees C or 16-32 degrees C. In each case, the occurrence of sterile males is observed before the lethality threshold is reached. Such a phenomenon is probably important for understanding the geographic distributions of species. The cosmopolitan D. melanogaster lives under very different climates and exhibits corresponding adaptations. In countries with a very hot summer, such as India or the African Sahel, male sterility appears only at 31 degrees C. Crosses between a temperate population from France and a heat-resistant Indian population revealed that a large part of the genetic difference was carried by the Y chromosome. Such a result is surprising since the Y chromosome harbors only a very small number of genes. In conclusion, drosophilid species, during their evolution, were able to adapt to very different climates and the thermal sterility thresholds have changed, following these adaptations. But we still lack an evolutionary hypothesis for explaining why sterile males are, in all cases, produced at extreme, low or high temperatures.     

低温和高温下颗石藻(Pleurochrysis sp.)种群生长特征及生化变化

以浙江省象山港虾塘藻华中分离的一种颗石藻(Pleurochrysis sp.)为对象,对温度差异造成的藻类在种群水平上的增殖特征,以及相应增殖过程中细胞的生化特征变化进行了比较研究,包括:差异温度(低温7℃, 高温25℃)下,盐度(5, 15, 30, 45)和光照(低光照 <2 μE·m-2s-1, 高光照100 μE·m-2s-1)不同组合条件影响下的种群增殖特征;差异温度下,种群生长过程中的氮、磷消耗特征,细胞Chl-a的变化特征,以及细胞总多糖变化特征比较.结果显示:颗石藻在低温低光照条件下,不同盐度水平中均维持存活,没有种群增殖;低温高光照下,经低温适应期后,种群可以增殖.高温低光照导致各组种群迅速衰退.高温高光照下颗石藻快速增殖.相同光、温条件下,盐度15, 30, 45的种群增殖趋势相似,盐度5不利于种群增殖.在其它环境因子相同的条件下,温度差异导致颗石藻在种群增殖策略上不同,其间相应的生化特征也存在差异:低温中,颗石藻耐受适应期长,种群生长率低下,期间的氮、磷消耗率低,细胞Chl-a含量降低,细胞总多糖含量高于高温组;低温适应后,颗石藻种群增殖,且达到稳定的增殖速率,增殖期间大量消耗氮、磷营养盐,细胞Chl-a含量渐增,细胞总多糖含量维持相对稳定.高温中,颗石藻快速增殖,初期生长率高,大量氮、磷营养盐在此期中消耗,细胞Chl-a含量渐增,细胞总多糖含量低于低温组,种群生长后期细胞总多糖出现累积.     

Inactivation of bacillus spores in dry systems at low and high temperatures.

A plot of the thermal resistance of Bacillus subtilis var. niger spores (log D value) against temperature was linear between 37 and 190 degrees C (z = 23 degrees C), provided that the relative humidity of the spore environment was kept below a certain critical level. The corresponding plot for Bacillus stearothermophilus spores was linear in the range 150 to 180 degrees C (z = 29 degrees C) but departed from linearity at lower temperatures (decreasing z value). However, the z value of 29 degrees C was decreased to 23 degrees C if spores were dried before heat treatment. The straight line corresponding to this new z value was consistent with the inactivation rate at a lower temperature (60 degrees C). The data indicate that bacterial spores which are treated in dry heat at an environmental relative humidity near zero are inactivated mainly by a drying process. By extrapolation of the thermal resistance plot obtained under these conditions for B. subtilis var. niger spores, the D value at 0 degrees C would be about 4 years.     

Flavobacterium sp. strain 4221 and Pedobacter sp. strain 4236 beta-1,3-glucanases that are active at low temperatures

Secretion of beta-1,3-glucanases by the arctic bacterial isolates 4221 and 4236, related to the genera Flavobacterium and Pedobacter, was discovered. Escherichia coli and Lactococcus lactis expression of beta-1,3-glucanases Glc4221-1 and Glc4236-1 from the respective isolates was achieved. The enzymes hydrolyzed fungal cell walls and retained activity at low temperatures.     

Microbial lipolysis at low temperatures.

It was found that lipase production during the growth of Pseudomonas fluorescens was not a function of the total number of bacteria. The optimal temperatures for bacterial growth and lipase production were determined as 20 and 8 degrees C, respectively. The lipolytic activity was studied in emulsions of olive oil at temperatures ranging from +8 to -30 degrees C. After an initially rapid lipolysis, the reactions retarded at different levels depending on storage temperature. Transference to a higher temperature resulted in a resumed lipolysis. Also, at low temperatures, lipolysis was studied as a function of water activity and was found to occur in dehydrated substrates.     

Sulfidogenic fluidized-bed treatment of metal-containing wastewater at low and high temperatures

The applicability of a fluidized-bed reactor (FBR)-based sulfate reducing bioprocess was investigated for the treatment of iron-containing (40-90 mg/L) acidic wastewater at low (8 degrees C) and high (65 degrees C) temperatures. The FBRs operated at low and high temperatures were inoculated with cultures of sulfate-reducing bacteria (SRB) originally enriched from arctic and hot mining environments, respectively. Ethanol was supplemented as carbon and electron source for SRB. At 8 degrees C, ethanol oxidation and sulfate reduction rates increased steadily and reached 320 and 265 mg/L.day, respectively, after 1 month of operation. After this point, the rates did not change significantly during 130 days of operation. Despite the complete ethanol oxidation and iron precipitation, the average sulfate reduction efficiency was 35 +/- 4% between days 30 and 130 due to the accumulation of acetate. At 65 degrees C, a rapid startup was observed as 99.9, 46, and 29% ethanol, sulfate, acetate removals, in respective order, were observed after 6 days. The feed pH was decreased gradually from its initial value of 6 to around 3.7 during 100 days of operation. The wastewater pH of 4.3-4.4 was neutralized by the alkalinity produced in acetate oxidation and the average effluent pH was 7.8 +/- 0.8. As in the low temperature FBR, acetate accumulated. Hence, the oxidation of acetate is the rate-limiting step in the sulfidogenic ethanol oxidation by thermophilic and psychrotrophic SRB. The sulfate reduction rate is three times and acetate oxidation rate is four times higher at 65 degrees C than at 8 degrees C.     

Respiration rhythms and heartbeats of diapausing Colorado potato beetles, Leptinotarsa decemlineata, at low temperatures

Discontinuous gas exchange cycles (DGCs), active muscular ventilation, microcycles of repetitive openings, and heartbeats of diapausing adult Colorado potato beetle, Leptinotarsa decemlineata Say (Coleoptera: Chrysomelidae), were studied at low temperatures (0, 5, and 10 °C) using an electrolytic respirometer combined with an infrared actograph. The DGC of the adult constriction-flutter-open type was the main respiration mode in fully quiescent beetles at temperatures from 5 to 10 °C. The CO₂ bursts were actively ventilated at temperatures above 5 °C. During the flutter period, a series of microcycles appeared, but no muscular contractions associated with the microcycles were detected. We identified this respiration mode as discontinuous suction ventilation.
The hydration condition of the beetles did not influence the frequency of the gas exchange cycles, but dehydrated beetles showed significantly longer flutter periods and shorter ventilation periods than hydrated beetles. The heartbeat frequencies were influenced by both temperature and hydration status.
We conclude from the results that DGCs are used at rest in adult L. decemlineata under various environmental conditions and also at low temperatures. Our results showed that DGCs are the main respiration mode of resting adult Colorado potato beetle irrespective of its hydration state and temperature. Our method resolves O₂ uptake and subsequent CO₂ release in flutter and ventilation periods and shows that diffusion is replaced by convection to reduce water loss in adult beetles.     

Temperature relationships of fungi isolated at low temperatures from soils and other substrates

A study of the temperature relationships of 20 mycelial and yeast fungi which had been isolated at low temperatures from soils and from abattoirs indicated that few fungi can be regarded as truly psychrophilic. Only 1 species failed to grow at 25C. Although all the species investigated were able to grow at 4C and can therefore be considered as potential spoilage organisms on refrigerated foods, their optimal growth temperature was either 15C or 25C. The 20 species could be divided into 4 groups in relation to their temperature relationships, particularly their optimal temperatures and their ability to grow at 30C.A number of fungi able to grow at 4C has been isolated from soils and from abattoirs in New Zealand (1, 2). Several mycelial fungi can show reasonable growth below 10C, and some even down to –10C, but, when laboratory studies have been performed, most of these fungi prove to have an optimal growth temperature at 25C or above (3). These fungi, however, can be a cause of serious spoilage of a variety of refrigerated foods and even at the temperature currently used for meat storage ( –12C), occasional consignments of meat are encountered which show the characteristic spots of fungal contamination. During investigations into the occurrence of these fungi in an abattoir, (1), 9 mould and 4 yeast species were isolated which could grow at 4C, and further studies into the reservoirs of these fungi in the outside environment resulted in the isolation of a further 8 mould and 2 yeast species (2). This paper reports on investigations into the temperature relationships of 20 of these species.     

C4 photosynthesis in Spartina townsendii at low and high temperatures

The metabolism of ¹⁴CO₂ in the cool temperate saltmarsh grass Spartina townsendii was investigated in plants grown in their natural habitats at two temperatures. Both in the spring at 10°C and in the late summer at 25°C radioactivity was initially incorporated into the organic acids malate and aspartate and then transferred to 3-phosphoglycerate in the manner characteristic of the C₄ pathway of photosynthesis. Metabolism was not disrupted at the lower temperature as in some C₄ plants. Radioactivity was transferred more slowly from malate into alanine, glycine and serine at 10°C, but sugars were labelled equally at both temperatures.     

Freeze-fixation at high subzero temperatures.

Previous attempts to determine the distribution of ice in frozen tissues at high sub-zero temperatures generally called for the further cooling of the tissues in question to facilitate freeze-drying, freeze-substitution, and freeze-fracture replication. Direct cryomicroscopic determinations, free from uncertainties stemming from changes in sample temperature could, it seemed, only be made in certain special cases. We have presented an isothermal “freeze-fixation” procedure designed to permit, instead, the postthaw retention of the freezing pattern and the conventional processing, afterward, of the thawed specimen. The method demands the exposure of the frozen tissues to fixative solutions incapable of dissolving ice. Frozen specimens are immersed in aqueous fixative solutions prepared in each instance (1) to freeze at a temperature equal to that at which fixation is to be conducted, (2) to contain quantities of finely divided ice sufficient to guarantee the maintenance of a constant water activity. Frozen frog and rat hearts and skeletal muscle tissues were exposed to formaldehyde, formaldehyde/ glutaraldehyde, and glutaraldehyde solutions at ?2, ?5, and ?10 °C, the temperatures being maintained in each case to ± 0.1 °C, or better. Tissues withdrawn at intervals were thawed, postfixed, dehydrated, embedded, and sectioned. The sections demonstrated the retention, after thawing, of structural features characteristic of the frozen state. The small hearts we exposed to formaldehyde were fixed throughout in 3 hr at ?2 ° and in 20 hr at ?5 °C. The action of osmium tetroxide was investigated. The method appears to be well-suited to numerous experimental applications.     

Catalase activity in arctic microfungi grown at different temperatures

The total of 98 strains of moulds were isolated from soils collected in arctic tundra (Spitzbergen). Among these strains Penicillium cyclopium 1, the most effective for production of catalase, was selected by the method of test-tube microculture. The time course of growth and catalase production by this strain showed the intracellular activity of this enzyme to be about 3-fold higher than its extracellular level Some properties of crude catalase preparation, isolated from postculture liquids by lyophilization, were also examined. Catalase activity showed its maximum at 15 degrees C, indicating adaptation of the enzyme to lower temperatures of the arctic environment.     

Mushroom strains able to grow at high temperatures and low pH values

Seven strains of edible mushrooms were studied with regard to mycelial growth on different growth media and culture conditions. Medium WDA (wheat/dextrose/agar) promoted higher rates of mycelial growth for all the mushrooms investigated. The majority of the strains presented higher growth rates at 30°C, but only Lentinus edodes kept maximum rates at low pH (pH 4.0), followed by Stropharia rugosoannulata and Pleurotus ostreatus (pH 5.0). Absence of light favoured rapid mycelium development in all the strains tested.     

Membrane lipids in Ceratodon purpureus protonemata grown at high and low temperatures

Ceratodon purpureus (Hedw.) Brid. was grown at two temperatures, 20 and 4°C. The protonemata grown at 4°C fixed more CO₂ at low temperatures; but their frost tolerance, tested as the recovery of photosynthesis after frost treatment, was not better than in the protonemata grown at 20°C. The effects of the growth temperature were studied on the membrane lipids of intact protonemata and on the lipid and protein contents of isolated thylakoid membranes. A large proportion, 70 to 90%, of the thylakoid membrane lipids was lost unless precautions were taken to inhibit the lipid-degrading enzyme activities. The lipid content of the thylakoid membranes of protonemata grown at 20 and 4°C was 3.9 and 4.8 mol (mol chlorophyll)⁻¹, respectively. Only minor differences were found in the lipid class composition. Monogalactosyldi-acylglycerol constituted more than 50 mol-% of the thylakoid membrane lipids at both 20 and 4°C. However, each lipid class had a higher average number of double bonds per lipid molecule in cold growth conditions. The protein content of the thylakoid membranes was low at both 20 and 4°C. These characteristics of the thylakoid membranes may be a prerequisite for the observed ability of protonemata to photosynthesize even at subzero temperatures.     

The Holocene development of some low and high arctic Greenland lakes

During the Holocene most West Greenland lakes passed from an early eutrophic stage, rich in both flora and fauna, through a mesotrophic to an oligotrophic stage with very low productivity. Temperature conditions were limiting factors only in the very beginning, whereas chemical factors alone were decisive later on.