Influence of temperature on the growth potential of Southern polar marine bacteria

Regular surveys of heterotrophic microflora from seawater were conducted in the subantarctic (Kerguelen archipelago) and Antarctic (Terre Adélie area). Although a predominance of psychrophilic bacteria could be expected for such polar marine environments, there were no significant differences between results obtained after incubation at two different temperatures (4°C for 21 days or 18°C for 6 days). To investigate this further, four sets of bacterial strains were isolated from the subantarctic area (early fall, late fall, spring, and summer) and one set of Antarctic bacteria was isolated in summer. The growth rates of the 143 strains collected were determined at four different temperatures (4, 7, 20, and 30°C). The results clearly indicated that a large majority of the isolated bacteria must be considered psychrotrophic and not truly psychrophilic strains.     

The growth of Epidermophyton floccosum and E. stockdaleae at different temperatures

The ability of 17 strains of genus Epidermophyton (15 strains belonging to Epidermophyton floccosum, one to E. floccosum var. nigricans and one to E. stockdaleae) to grow at different temperatures (4 °C, 25 °C, 28 °C, 31 °C, 34 °C, 37 °C and 40 °C) was stated.The strains were inoculated on Sabouraud Dextrose Agar and regularly controled over a period of 14 days when the plates were incubated at 25 °C, 28 °C, 31 °C, 34 °C, 37 °C and 40 °C, and over a period of 70 days when the temperature was 4 °C. The optimal growth of E. floccosum was observed at 28 °C and 31 °C, and no signs of growth were recorded neither at 4 °C nor at 40 °C. The optimal development of E. stockdaleae was observed at 25 °C and 28 °C. This species grew from 4 °C to 31 °C.     

Effects of ration size on preferred temperature of lake charr Salvelinus namaycush

Synopsis I tested the effects of different ration sizes on preferred temperatures of yearling lake charr, Salvelinus namaycush, by feeding them for about 2 weeks on one of four rations and then allowing them to thermoregulate in a temporal thermal gradient for 2 to 3 days. Selected temperatures and ration were directly and linearly correlated: the larger the ration, the higher the temperature selected. Mean preferred temperatures at different rations (shown in parentheses as percent of body weight per day) were as follows: 9.2°C (0.3); 10.6°C (0.8); 11.7°C (2.0); and 12.6°C (5.5). While the shift to lower temperature, under restricted ration, would maximize food conversion efficiency, previous growth studies indicate that even lower selected temperature would have been more beneficial.Contribution 620 of the Great Lakes Fishery Laboratory.     

Relation of the pigeon to cryptococcosis: Natural carrier state,heat resistance and survival of Cryptococcus neoformans

Summary The feral pigeon in New York City was found to serve as a mechanical carrier of pathogenic strains ofCryptococcus neoformans. Of 94 feral pigeons freshly trapped in the city, 7 were found to carryC. neoformans on their beaks and feet, while their rectal swabs were negative. Following crop instillation ofC. neoformans in 3 feral pigeons, the fungus survived passage through the gastrointestinal tract and appeared in the fresh feces within one hour after inoculation and was still present 24 hours later. The internal body (rectal) temperatures of 57 feral pigeons recorded soon after capture in two seasons of the year, ranged from 41.5° C to 43.3° C and averaged 42.5° ± 0.39° C. The birds were able to maintain their high temperatures in the face of sustained cold, indicating the presence of a strong thermoregulating mechanism. A study of the growth and survival of 60 human strains ofC. neoformans on Sabouraud dextrose yeast extract agar slants revealed that 100 % of the cultures were able to grow at 39° C, 92 % at 40° C, 30 % at 41° C, 17 % at 42° C and 8 % at 43° C. Despite exposure to these temperatures for 7 days, 100 % of the human strains survived at 40° C, 97 % at 41° C, 95 % at 42° C, 91 % at 43° C, 88 % at 44° C, 47 % at 45° C and none at 47° C. Seventy strains ofC. neoformans of pigeon excreta origin showed a similar pattern of heat resistance, except that 11 % of these strains survived 47° C. The inability ofC. neoformans to grow at 44° C, a property shared by all 130 strains, provides a new species characteristic.C. neoformans was found to multiply rapidly in moist pigeon excreta extract, reaching counts up to 60 million per ml within 3 weeks, and to be still viable in moist as well as dessicated pigeon excreta extract after more than two years of storage at room temperature.Presented in part at the 26th VA-Armed Forces Pulmonary Disease Research Conference, Cleveland, Ohio, Jan. 23–26, 1967, and the 67th Annual Meeting American Society for Microbiology, New York, April 30–May 4, 1967. Supported by Grants GB-4722 from the National Science Foundation and U-1367 from The Health Research Council of the City of New York.Acknowledgment is gratefully given toThomas J. Dalton, Division of Environmental Sanitation, Department of Health, New York City andMabel Halloran for their valuable assistance and to the ASPCA of Manhattan and Brooklyn for their cooperation in this study.     

Effects of temperature on the spores of thermophilic actinomycetes

The effects of temperature on the germination properties of spores of thermophilic actinomycetes were examined. Temperatures above and below the growth temperature of 55° C were found to produce marked changes in the germination properties of spores. High temperatures caused reductions in the germinative activities of spores. However, heated spore populations regained original germinative activities after maintaining them for suitable periods of time at 25°C. Recovery from the effects of heat on spore germination was also observed at 4°C, but at a much slower rate compared with 25°C. Spores of two strains of thermophilic actinomycetes, grown and prepared at 55°C, failed to germinate. Storage of dormant (nonactivated) spore populations at different temperatures demonstrated a low temperature requirement for the activation of these spores; while little or no activation occurred at 55°C, rapid activation took place at 25°C. Heating the spores at 80°C for 30 min slightly delayed the activation (rates) of spores at 25°C. The requirement of low temperature for spore activation was strain dependent and was influenced by the composition of the germination medium.     

Effect of temperature on sucrose to ethanol conversion by Zymomonas mobilis strains

Summary Two strains of Zymomonas mobilis were tested for their ability to ferment sucrose to ethanol at elevated temperatures (30–42.5°C). The optimal temperature for efficient sucrose to ethanol conversion was 35°C with 22–27 h fermentation time and 75% conversion efficiency. Increases in magnesium concentration improved one of the strains at 40°C from 38 to 76% ethanol yield efficiency.     

Infectivity of a Bulgarian and an American strain ofSteinernema carpocapsae against codling moth

A strain of Steinernemacarpocapsae obtained from overwintering codling mothscollected in Bulgaria was identified to species usingthe polymerase chain reaction. The infectivity ofthis strain towards codling moth prepupae was comparedto that of a U.S. strain at three temperatures (11, 15and 20 °C). Infectivity was low at 11 °C with 8%mortality recorded for both strains. Mortality was61% and 62% at 15 °C, and 82% and 81% at 20 °C forthe Bulgarian and U.S. strain, respectively. The meanpercent mortality at each individual temperature wassignificantly different from each other whenmortalities of the two strains were combined. Thus,the Bulgarian strain did not provide a low temperatureinfectivity advantage compared to the U.S. strain.     

SelectingRhizobium phaseoli strains for use with beans (Phaseolus vulgaris L.) in Kenya: Tolerance of high temperature and antibiotic resistance

Forty one strains ofRhizobium phaseoli were screened for the ability to multiply at high temperatures on yeast extract-mannitol agar. Most strains were tolerant of 30°C, eight strains were tolerant of 45°C and two of 47°C although the rate of multiplication was reduced at 45–47°C. The high temperature-tolerant strains were isolated from Kenyan soils and were fast-growing. Seven of the eight strains tolerant of 45–47°C lost their infectiveness after incubation at high temperature but four strains tolerant of 40°C remained infective after incubation at that temperature.Thirty six strains were resistant to 200 g ml^–1 streptomycin sulphate and 29 strains to 200 g ml^–1 spectinomycin dihydrochloride. Eight strains were resistant to both antibiotics each at 200 g ml^–1. Two of the double-labelled antibiotic-resistant mutants lost their infectiveness onPhaseolus vulgaris. The response to acidity was unaltered and two of the mutants showed a decrease in temperature tolerance. The doublelabelled mutants were recoverable from two Kenyan soils.     

Physiological adaptation ofMytilus edulis to cyclic temperatures

Summary Mytilus edulis adapted to cyclic temperatures by reducing the amplitude of response of oxygen consumption and filtration rate over a period of approximately two weeks, and thereby increasing their independence of temperature within the range of the fluctuating regime. When acclimated to cyclic temperature regimes within the range from 6 to 20°C, the metabolic and feeding rates, measured at different temperatures in the cycle, were not significantly different from the adapted response to equivalent constant temperatures.Physiological adaptation ofMytilus edulis to different thermal environments was reflected in their metabolic and feeding rate-temperature curves. Animals subjected to marked diel fluctuations in environmental temperature showed an appropriate region of temperature-independence, whereas animals from a population not experiencing large diel temperature fluctuations showed no region of temperature-independence.In a fluctuating thermal environment which extended above the normal environmental maxima, respiratory adaptation occurred at higher temperatures than was possible in a constant thermal environment. The feeding rate was also maintained at higher temperatures in a cyclic regime than was possible under constant thermal conditions. This represented a shortterm extension of the zone of activity in a fluctuating thermal environment. The net result of these physiological responses to high cyclic and constant temperatures has been assessed in terms of scope for growth. Animals acclimated to cyclic temperatures between 21 and 29°C had a higher scope for growth at 29°C and were less severely stressed than those maintained at the constant temperature of 29°C.     

Growth of Bacteria Degrading Naphthalene and Salicylate at Low Temperatures

A total of 58 bacterial strains degrading naphthalene and salicylate were isolated from soil samples polluted with oil products, collected in different regions of Russia during winter and summer. The isolates were assessed for their ability to grow at low temperatures (4, 8, and 15°C); bacteria growing at 4°C in the presence of naphthalene or salicylate accounted for 65 and 53%, respectively, of the strains isolated. The strains differed in the temperature dependence of their growth rates. It was demonstrated that the type of expression of the Nah⁺ phenotype at low temperatures depended on the combination of host bacterium and plasmid.     

Growth, survival, and starvation resistance of Colorado squawfish larvae

Synopsis Growth and survival of Colorado squawfish, Ptychocheilus lucius, larvae under fluctuating 18, 22, and 26° C (5° C diel fluctuations) and constant 18, 22, 26° C, and 30° C temperature conditions and ration size corresponding to 12.5, 28,64,142, 320 brine shrimp nauplii fish^–1 day^–1 determined from laboratory experiments. Growth was optimal at 31° C and high at temperatures of 26° C to 30° C, at the highest food abundance. Lowest growth was under lowest food rations and highest temperatures. Growth of Colorado squawfish larvae declined substantially at temperatures < 22° C. Neither growth nor survival was significantly different between fluctuating or constant regimes. Survival of Colorado squawfish larvae was highest (95%) at 26.2° C and 235 nauplii fish^–1 day^–1 and high at temperatures of 20 to 30° C with food abundance > 180 nauplii fish^–1 day^–1. Survival was lowest when food abundance was low and temperature was high. Highest mortality occurred more than 20 days after experiments began and mortalities occurred sooner in higher than lower temperatures. Colorado squawfish larvae denied food for 5, 10, or 15 d after first feeding could have begun (6 d), had survival greater than 87 % which was equivalent to continuously fed controls. Survival of fish denied food for 17.5 d after feeding could have begun declined from 84% before feeding to 57% after feeding. Point of no return was estimated between 17.5 and 20 d. Colorado squawfish have relatively high starvation resistance. Low, stable flows that simulate natural hydrographs may enhance growth, survival, and recruitment of early life stages of Colorado squawfish by increasing water temperature and food abundance in regulated rivers of the Colorado River basin.     

Effect of incubation temperature on zearalenone production by strains of Fusarium crookwellense

After 6 weeks incubation on rice 2 strains of Fusarium crookwellense produced more zearalenone (6060–5010 mg/kg dry wt of culture) at ambient temperature (16–29°C) in daylight than at ambient temperature (18–23 °C) in darkness or at controlled temperatures of 11 °C, 20 °C or 25 °C in darkness. Yields at 25 °C were low. Incubation at 11 °C during the second 3 weeks incubation increased yields only when preliminary incubation had been at 25 °C. After 6 weeks incubation at controlled temperatures in darkness, 4 strains produced most zearalenone at 20 °C (2460-21 360 mg/kg), 1 strain at 11 °C (6570 mg/kg). Yields at a temperature oscillating daily from 10–20 °C were less than at 15 °C. One of the 5 strains produced appreciable amounts of a-zearalenol (1645 mg/kg at 20°C) and 2 of nivalenol (340 and 499 mg/kg at 20 °C).     

Effects of temperature on the foraging and growth rate of juvenile common carp, Cyprinus carpio

Temperature had a significant and positive effect on the foraging and growth of juvenile common carp Cyprinus carpio (90-105 mm) between 16 and 28 °C. Metrics measured were feeding rate (items s⁻¹), functional response (feeding rate as a function of food density), specific growth rate and incremental fork lengths. Experiments that were conducted at 16, 20, 24 and 28 °C and used two food types revealed a strong thermal influence on foraging, with the highest feeding rates achieved at 24 °C. Functional responses also revealed optimal feeding rates in relation to food density occurred at temperatures >20 °C. Specific growth rate and incremental fork lengths were depressed at 16 and 28 °C when compared to those achieved at 20 and 24 °C. These outputs suggest an increase in foraging and growth of C. carpio according to a thermal gradient that were maximal between 24 and 28 °C.     

Evaluation of host and pathogen responses for screening soil amendments to control Sclerotium rolfsii

Three strains of Bradyrhizobium, 280A, 2209A and 32H1, that nodulated peanuts (Arachis hypogaea L.), were tested for their ability to grow and survive at elevated temperatures of up to 42°C in laboratory culture. Strain 32H1 was unable to grow at 37°C and was more sensitive to elevated temperatures than the other two strains. All three produced heat-shock proteins of molecular weights 17 kDa and 18 kDa. Two greenhouse experiments were conducted to determine the effect of high root temperature on nodulation, growth and nitrogen fixation of peanut. Two peanut varieties (Virginia cv NC7 and Spanish cv Pronto) were inoculated and exposed to root temperatures of 30°, 37° and 40°C. Nodulation and nitrogen fixation were strongly affected by root temperature but there was no variety × temperature interaction. At a constant 40°C root temperature no nodules were formed. Nodules were formed when roots were exposed to this temperature with diurnal cycling but no nitrogen fixation occurred. Highest plant dry weight, shoot nitrogen content and total nitrogen were observed at a constant root temperature of 30°C. Increasing root temperature to 37°C reduced average nitrogen content by 37% and total nitrogen by 49% but did not reduce nodulation. The symbiotic performance of the strains corresponded to their abilities to grow and survive at high temperature in culture.     

Adaptability of carp neutrophilic granulocytes to environmental temperatures: spontaneous cytotoxic activity and cell-adherent activity

This study observed the adaptability of carp neutrophilic granulocytes possessing spontaneous cytotoxic activity to different environmental temperatures. To study the adaptability of neutrophilic granulocytes, two different temperatures (25° C and 10° C) were selected, both for rearing and forin vitroassays, in which the cytotoxicity and the adherent rate against K562 target cells were measured. The cytotoxicity and adherent rate of neutrophilic granulocytes from carp kept at 25° C for 30 days were higher when assayed at 25° C than when assayed at 10° C. On the other hand, in carp acclimated from 25° C to 10° C, the cytotoxicities and adherent rates, when assayed at 25° C, decreased with increasing acclimation times, eventually becoming smaller than the values obtained when assayed at 10° C. After the fish kept at 10° C for a long period were re-acclimated to 25° C, these activities assayed at 25° C again became higher than the activities assayed at 10° C. These results indicated that carp neutrophilic granulocytes adapt their cytotoxic activity and adherent activity to different environmental temperatures. A change in cellular composition in the head kidney was also observed in carp kept at different environmental temperatures. The percentage of neutrophilic granulocytes became higher and lymphocytes became lower in carp that were kept at 10° C for a long period compared with carp that were kept at 25° C for a long period.     

The growth of yeasts at 37° C

Summary More than 2,300 strains of 70 species of yeasts have been tested on yeast autolysate agar at 37° C. Of these, all strains of 15 species grew at this elevated temperature while no strains of 13 species grew well. The remaining 42 species, represented by 2 or more strains each, included strains both capable and incapable of growth at 37° C. It is suggested that such species include two groups of strains, one capable of adaptation to growth conditions at elevated temperatures. In sewage-polluted waters such strains may be indicative of fecal pollution.U.S. Department of Health, Education, and Welfare, Bureau of State Services, Public Health Service.     

Habitat temperature and potential locomotor activity of the continental Antarctic mite,Maudheimia petronia Wallwork (Acari: Oribatei)

Microhabitat recordings suggest that the continental Antarctic mite Maudheimia petronia Wall-work experiences temperatures above 0°C for 60% of the time during summer (about 2 months). Summer daily maximum temperatures are, however, often relatively high (the highest recorded temperature was 27.7°C). Because the locomotor activity of this mite is suppressed at freezing temperatures, the time available for activity, and probably also feeding, is restricted. Temperature relations of potential locomotor activity rate suggest alleviation of this time constraint through the maximization of the rate. The locomotor activity rate of M. petronia is positively sensitive to the entire range of above-zero temperatures that it naturally experiences, being particularly accelerated at lower temperatures (Q_100°–5°C values were above 13, whereas Q_{1025°–30°C} values were below 2). Also, comparisons between mites acclimated at -15°C and 10°C suggest an inverse temperature acclimation of this rate. We hypothesize that potential feeding rate is similarly related to temperature. A relative enhancement of food intake would seem important, not only for the maintenance of a daily positive energy balance in summer, but also for the building up of energy reserves for the relatively long winter, when feeding is impossible.     

Feeding and digestive activity of cyclopoid copepods in active diapause

Three different methods were used to compare the feeding patterns of active cyclopoids and cyclopoids in active diapause from different habitats. First, we offered ¹⁴C- labeled algal detritus to stage III, stage IV (two different physiological groups), and adult females of Acanthocyclops vernalis from temporary water-bodies of the Volga Delta. Second, we compared the functional responses of active and actively diapausing cyclopoids preying on copepod nauplii. Stage III, stage IV (various physiological groups), stage V, adult males and females of Acanthocyclops viridis, Cyclops kolensis, C. abyssorum sevani from the Volga Delta, Lake Sevan (Armenia), and Mozhaisk Reservoir (Moscow District) were tested. Finally, we examined the activity of digestive enzymes (proteases) of CIV of C. kolensis from Mozhaisk Reservoir at different temperatures and temperature acclimation regimes. All three approaches used have led to similar conclusions. Actively diapausing cyclopoids were capable of feeding on both plant and animal prey; however, their feeding rates and digestive enzyme activity were 2–8 times lower than those of active cyclopoids of similar size. At the initial stage of active diapause the feeding rates were comparable with those of active cyclopoids then declined to a low level during approximately two weeks. Transfer of cyclopoids undergoing winter diapause from ambient temperature (4 °C) to warmer water (20 °C) resulted in dramatic increase of proteases activity only if the acclimation period was relatively long (two weeks).     

Effects of temperature on two Mediterranean populations of Dinophilus gyrociliatus (Polychaeta: Dinophilidae): I. Effects on life history and sex ratio

The effects of temperature on the life history characteristics of two populations of the polychaete Dinophilus gyrociliatus, one from Ravenna (northern Adriatic Sea) and the other from Genoa (Ligurian Sea), were investigated. The temperatures tested (6, 12, 18, 24 and 30 °C) cover a wider range than those prevailing in the natural environment. In the populations studied there are broad differences in timing of development and reproduction. At 6 °C, the adults of both populations survive for a long time but they are unable to reproduce. At 12 °C, only the animals from Ravenna manage to reproduce. At the higher temperatures (18, 24 and 30 °C), the development of the animals belonging to the Genoa strain is faster than that of the Ravenna strain. The duration of the various phases of the biological cycle is very similar in both populations, but that from Ravenna exhibits greater tolerance of low temperatures, slower development rate and lower development threshold temperature than does the Genoa population. Temperature and geographical origin also have strong effects on reproductive characteristics. The highest fecundity values were observed at 12 °C in the Ravenna strain, the lowest at 30 °C in both groups. At 18 °C, the Genoa population is more fecund than the Ravenna one, while the situation is reversed at 12 °C. The smallest ovigerous capsules are produced at 30 °C, the biggest at 12 °C, and the Genoa females produce larger capsules than do the females from Ravenna, except at 12 °C. The size of both male and female eggs varies in relation to temperature, the smallest female eggs generally being laid at the higher temperatures. At all the temperatures tested, the sex ratio of the Ravenna population is higher than that of the Genoa population. In the Ravenna strain, temperature has no effect on the sex ratio, while in the Genoa strain the sex ratio at 24 °C is lower than at 18 and 30 °C. Comparison of the two populations at the same temperature reveals considerable differences in the characteristics of their respective life histories and sex ratios. It is very likely that the extreme selectivity of the harbor environments has favored the fragmentation of the species into differentiated populations that have adapted to the conditions prevailing in the different localities.